488 lines
16 KiB
PHP
488 lines
16 KiB
PHP
<?php
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/* vim: set expandtab sw=4 ts=4 sts=4: */
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/**
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* Test for PMA\libraries\gis\GISMultipolygon
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*
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* @package PhpMyAdmin-test
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*/
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use PMA\libraries\gis\GISMultipolygon;
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require_once 'GISGeomTest.php';
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require_once 'libraries/tcpdf/tcpdf.php';
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/**
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* Tests for PMA\libraries\gis\GISMultipolygon class
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*
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* @package PhpMyAdmin-test
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*/
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class GISMultipolygonTest extends GISGeomTest
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{
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/**
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* @var GISMultipolygon
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* @access protected
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*/
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protected $object;
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/**
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* Sets up the fixture, for example, opens a network connection.
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* This method is called before a test is executed.
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*
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* @access protected
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* @return void
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*/
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protected function setUp()
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{
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$this->object = GISMultipolygon::singleton();
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}
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/**
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* Tears down the fixture, for example, closes a network connection.
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* This method is called after a test is executed.
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*
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* @access protected
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* @return void
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*/
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protected function tearDown()
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{
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unset($this->object);
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}
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/**
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* Provide some common data to data providers
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*
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* @return array common data for data providers
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*/
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private function _getData()
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{
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return array(
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'MULTIPOLYGON' => array(
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'no_of_polygons' => 2,
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0 => array(
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'no_of_lines' => 2,
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0 => array(
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'no_of_points' => 5,
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0 => array('x' => 35, 'y' => 10),
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1 => array('x' => 10, 'y' => 20),
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2 => array('x' => 15, 'y' => 40),
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3 => array('x' => 45, 'y' => 45),
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4 => array('x' => 35, 'y' => 10),
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),
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1 => array(
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'no_of_points' => 4,
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0 => array('x' => 20, 'y' => 30),
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1 => array('x' => 35, 'y' => 32),
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2 => array('x' => 30, 'y' => 20),
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3 => array('x' => 20, 'y' => 30),
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)
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),
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1 => array(
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'no_of_lines' => 1,
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0 => array(
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'no_of_points' => 4,
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0 => array('x' => 123, 'y' => 0),
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1 => array('x' => 23, 'y' => 30),
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2 => array('x' => 17, 'y' => 63),
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3 => array('x' => 123, 'y' => 0),
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)
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)
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)
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);
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}
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/**
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* data provider for testGenerateWkt
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*
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* @return data for testGenerateWkt
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*/
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public function providerForTestGenerateWkt()
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{
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$temp = array(
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0 => $this->_getData()
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);
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$temp1 = $temp;
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$temp1[0]['MULTIPOLYGON']['no_of_polygons'] = 0;
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$temp2 = $temp;
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$temp2[0]['MULTIPOLYGON'][1]['no_of_lines'] = 0;
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$temp3 = $temp;
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$temp3[0]['MULTIPOLYGON'][1][0]['no_of_points'] = 3;
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return array(
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array(
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$temp,
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0,
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null,
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10)'
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. ',(20 30,35 32,30 20,20 30)),((123 0,23 30,17 63,123 0)))'
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),
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// at lease one polygon should be there
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array(
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$temp1,
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0,
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null,
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10)'
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. ',(20 30,35 32,30 20,20 30)))'
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),
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// a polygon should have at least one ring
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array(
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$temp2,
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0,
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null,
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10)'
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. ',(20 30,35 32,30 20,20 30)),((123 0,23 30,17 63,123 0)))'
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),
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// a ring should have at least four points
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array(
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$temp3,
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0,
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'0',
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10)'
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. ',(20 30,35 32,30 20,20 30)),((123 0,23 30,17 63,123 0)))'
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),
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);
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}
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/**
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* data provider for testGenerateParams
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*
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* @return data for testGenerateParams
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*/
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public function providerForTestGenerateParams()
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{
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$temp = $this->_getData();
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$temp1 = $this->_getData();
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$temp1['gis_type'] = 'MULTIPOLYGON';
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return array(
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array(
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"'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10),"
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. "(20 30,35 32,30 20,20 30)),((123 0,23 30,17 63,123 0)))',124",
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null,
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array(
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'srid' => '124',
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0 => $temp
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)
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),
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array(
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10)'
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. ',(20 30,35 32,30 20,20 30)),((123 0,23 30,17 63,123 0)))',
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2,
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array(
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2 => $temp1
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)
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)
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);
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}
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/**
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* test getShape method
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*
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* @param array $row_data array of GIS data
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* @param string $shape expected shape in WKT
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*
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* @dataProvider providerForTestGetShape
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* @return void
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*/
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public function testGetShape($row_data, $shape)
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{
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$this->assertEquals($this->object->getShape($row_data), $shape);
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}
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/**
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* data provider for testGetShape
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*
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* @return data for testGetShape
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*/
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public function providerForTestGetShape()
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{
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return array(
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array(
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array(
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'parts' => array(
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0 => array(
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'points' => array(
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0 => array('x' => 10, 'y' => 10),
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1 => array('x' => 10, 'y' => 40),
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2 => array('x' => 50, 'y' => 40),
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3 => array('x' => 50, 'y' => 10),
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4 => array('x' => 10, 'y' => 10),
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),
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),
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1 => array(
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'points' => array(
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0 => array('x' => 60, 'y' => 40),
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1 => array('x' => 75, 'y' => 65),
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2 => array('x' => 90, 'y' => 40),
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3 => array('x' => 60, 'y' => 40),
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),
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),
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2 => array(
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'points' => array(
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0 => array('x' => 20, 'y' => 20),
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1 => array('x' => 40, 'y' => 20),
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2 => array('x' => 25, 'y' => 30),
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3 => array('x' => 20, 'y' => 20),
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),
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),
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),
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),
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'MULTIPOLYGON(((10 10,10 40,50 40,50 10,10 10),(20 20,40 20,25 30'
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. ',20 20)),((60 40,75 65,90 40,60 40)))'
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)
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);
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}
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/**
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* data provider for testScaleRow
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*
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* @return data for testScaleRow
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*/
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public function providerForTestScaleRow()
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{
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return array(
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array(
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'MULTIPOLYGON(((136 40,147 83,16 75,136 40)),'
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. '((105 0,56 20,78 73,105 0)))',
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array(
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'minX' => 16,
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'maxX' => 147,
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'minY' => 0,
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'maxY' => 83
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)
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),
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array(
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'MULTIPOLYGON(((35 10,10 20,15 40,45 45,35 10),(20 30,35 32,30 20'
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. ',20 30)),((105 0,56 20,78 73,105 0)))',
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array(
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'minX' => 10,
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'maxX' => 105,
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'minY' => 0,
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'maxY' => 73
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)
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)
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);
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}
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/**
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* test case for prepareRowAsPng() method
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*
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* @param string $spatial GIS MULTIPOLYGON object
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* @param string $label label for the GIS MULTIPOLYGON object
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* @param string $fill_color color for the GIS MULTIPOLYGON object
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* @param array $scale_data array containing data related to scaling
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* @param object $image image object
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*
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* @return void
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* @dataProvider providerForPrepareRowAsPng
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*/
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public function testPrepareRowAsPng(
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$spatial, $label, $fill_color, $scale_data, $image
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) {
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$return = $this->object->prepareRowAsPng(
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$spatial, $label, $fill_color, $scale_data, $image
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);
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$this->assertImage($return);
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}
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/**
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* data provider for testPrepareRowAsPng() test case
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*
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* @return array test data for testPrepareRowAsPng() test case
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*/
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public function providerForPrepareRowAsPng()
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{
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return array(
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array(
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'MULTIPOLYGON(((136 40,147 83,16 75,136 40)),'
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. '((105 0,56 20,78 73,105 0)))',
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'image',
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'#B02EE0',
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array(
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'x' => 12,
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'y' => 69,
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'scale' => 2,
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'height' => 150
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),
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imagecreatetruecolor('120', '150'),
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)
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);
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}
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/**
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* test case for prepareRowAsPdf() method
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*
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* @param string $spatial GIS MULTIPOLYGON object
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* @param string $label label for the GIS MULTIPOLYGON object
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* @param string $fill_color color for the GIS MULTIPOLYGON object
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* @param array $scale_data array containing data related to scaling
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* @param object $pdf TCPDF instance
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*
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* @return void
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* @dataProvider providerForPrepareRowAsPdf
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*/
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public function testPrepareRowAsPdf(
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$spatial, $label, $fill_color, $scale_data, $pdf
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) {
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$return = $this->object->prepareRowAsPdf(
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$spatial, $label, $fill_color, $scale_data, $pdf
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);
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$this->assertInstanceOf('TCPDF', $return);
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}
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/**
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* data provider for testPrepareRowAsPdf() test case
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*
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* @return array test data for testPrepareRowAsPdf() test case
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*/
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public function providerForPrepareRowAsPdf()
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{
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return array(
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array(
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'MULTIPOLYGON(((136 40,147 83,16 75,136 40)),'
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. '((105 0,56 20,78 73,105 0)))',
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'pdf',
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'#B02EE0',
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array(
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'x' => 12,
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'y' => 69,
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'scale' => 2,
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'height' => 150
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),
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new TCPDF(),
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)
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);
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}
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/**
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* test case for prepareRowAsSvg() method
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*
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* @param string $spatial GIS MULTIPOLYGON object
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* @param string $label label for the GIS MULTIPOLYGON object
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* @param string $fill_color color for the GIS MULTIPOLYGON object
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* @param array $scale_data array containing data related to scaling
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* @param string $output expected output
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*
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* @return void
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* @dataProvider providerForPrepareRowAsSvg
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*/
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public function testPrepareRowAsSvg(
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$spatial, $label, $fill_color, $scale_data, $output
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) {
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$string = $this->object->prepareRowAsSvg(
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$spatial, $label, $fill_color, $scale_data
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);
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$this->assertEquals(1, preg_match($output, $string));
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}
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/**
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* data provider for testPrepareRowAsSvg() test case
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*
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* @return array test data for testPrepareRowAsSvg() test case
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*/
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public function providerForPrepareRowAsSvg()
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{
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return array(
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array(
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'MULTIPOLYGON(((136 40,147 83,16 75,136 40)),'
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. '((105 0,56 20,78 73,105 0)))',
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'svg',
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'#B02EE0',
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array(
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'x' => 12,
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'y' => 69,
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'scale' => 2,
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'height' => 150
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),
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'/^(<path d=" M 248, 208 L 270, 122 L 8, 138 Z " name="svg" class="'
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. 'multipolygon vector" stroke="black" stroke-width="0.5" fill="'
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. '#B02EE0" fill-rule="evenodd" fill-opacity="0.8" id="svg)(\d+)'
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. '("\/><path d=" M 186, 288 L 88, 248 L 132, 142 Z " name="svg" '
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. 'class="multipolygon vector" stroke="black" stroke-width="0.5" '
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. 'fill="#B02EE0" fill-rule="evenodd" fill-opacity="0.8" id="svg)'
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. '(\d+)("\/>)$/'
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)
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);
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}
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/**
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* test case for prepareRowAsOl() method
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*
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* @param string $spatial GIS MULTIPOLYGON object
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* @param int $srid spatial reference ID
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* @param string $label label for the GIS MULTIPOLYGON object
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* @param string $fill_color color for the GIS MULTIPOLYGON object
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* @param array $scale_data array containing data related to scaling
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* @param string $output expected output
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*
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* @return void
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* @dataProvider providerForPrepareRowAsOl
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*/
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public function testPrepareRowAsOl(
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$spatial, $srid, $label, $fill_color, $scale_data, $output
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) {
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$this->assertEquals(
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$output,
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$this->object->prepareRowAsOl(
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$spatial, $srid, $label, $fill_color, $scale_data
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)
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);
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}
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/**
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* data provider for testPrepareRowAsOl() test case
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*
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* @return array test data for testPrepareRowAsOl() test case
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*/
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public function providerForPrepareRowAsOl()
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{
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return array(
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array(
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'MULTIPOLYGON(((136 40,147 83,16 75,136 40)),'
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. '((105 0,56 20,78 73,105 0)))',
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4326,
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'Ol',
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'#B02EE0',
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array(
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'minX' => '0',
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'minY' => '0',
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'maxX' => '1',
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'maxY' => '1',
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),
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'bound = new OpenLayers.Bounds(); bound.extend(new OpenLayers.'
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. 'LonLat(0, 0).transform(new OpenLayers.Projection("EPSG:4326"), '
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. 'map.getProjectionObject())); bound.extend(new OpenLayers.LonLat'
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. '(1, 1).transform(new OpenLayers.Projection("EPSG:4326"), map.ge'
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. 'tProjectionObject()));vectorLayer.addFeatures(new OpenLayers.'
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. 'Feature.Vector(new OpenLayers.Geometry.MultiPolygon(new Array'
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. '(new OpenLayers.Geometry.Polygon(new Array(new OpenLayers.Geo'
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. 'metry.LinearRing(new Array((new OpenLayers.Geometry.Point'
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. '(136,40)).transform(new OpenLayers.Projection("EPSG:4326"), '
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. 'map.getProjectionObject()), (new OpenLayers.Geometry.Point(147,'
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. '83)).transform(new OpenLayers.Projection("EPSG:4326"), map.get'
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. 'ProjectionObject()), (new OpenLayers.Geometry.Point(16,75)).'
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. 'transform(new OpenLayers.Projection("EPSG:4326"), map.getPro'
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. 'jectionObject()), (new OpenLayers.Geometry.Point(136,40)).trans'
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. 'form(new OpenLayers.Projection("EPSG:4326"), map.getProjection'
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. 'Object()))))), new OpenLayers.Geometry.Polygon(new Array(new '
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. 'OpenLayers.Geometry.LinearRing(new Array((new OpenLayers.Geometry'
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. '.Point(105,0)).transform(new OpenLayers.Projection("EPSG:4326"), '
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. 'map.getProjectionObject()), (new OpenLayers.Geometry.Point(56,20)'
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. ').transform(new OpenLayers.Projection("EPSG:4326"), map.getProjec'
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. 'tionObject()), (new OpenLayers.Geometry.Point(78,73)).transform'
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. '(new OpenLayers.Projection("EPSG:4326"), map.getProjectionObject'
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. '()), (new OpenLayers.Geometry.Point(105,0)).transform(new Open'
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. 'Layers.Projection("EPSG:4326"), map.getProjectionObject()))))))'
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. '), null, {"strokeColor":"#000000","strokeWidth":0.5,"fillColor":'
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. '"#B02EE0","fillOpacity":0.8,"label":"Ol","fontSize":10}));'
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)
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);
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}
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}
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