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250 lines
6.4 KiB
PHP
250 lines
6.4 KiB
PHP
<?php
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/*
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* (c) Patrick Hayes
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*
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* This code is open-source and licenced under the Modified BSD License.
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* For the full copyright and license information, please view the LICENSE
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* file that was distributed with this source code.
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*/
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/**
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* PHP Geometry/WKB encoder/decoder
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*
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*/
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class WKB extends GeoAdapter
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{
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private $dimension = 2;
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private $z = FALSE;
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private $m = FALSE;
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/**
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* Read WKB into geometry objects
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*
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* @param string $wkb
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* Well-known-binary string
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* @param bool $is_hex_string
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* If this is a hexedecimal string that is in need of packing
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*
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* @return Geometry
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*/
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public function read($wkb, $is_hex_string = FALSE) {
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if ($is_hex_string) {
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$wkb = pack('H*',$wkb);
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}
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if (empty($wkb)) {
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throw new Exception('Cannot read empty WKB geometry. Found ' . gettype($wkb));
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}
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$mem = fopen('php://memory', 'r+');
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fwrite($mem, $wkb);
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fseek($mem, 0);
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$geometry = $this->getGeometry($mem);
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fclose($mem);
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return $geometry;
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}
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function getGeometry(&$mem) {
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$base_info = unpack("corder/ctype/cz/cm/cs", fread($mem, 5));
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if ($base_info['order'] !== 1) {
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throw new Exception('Only NDR (little endian) SKB format is supported at the moment');
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}
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if ($base_info['z']) {
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$this->dimension++;
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$this->z = TRUE;
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}
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if ($base_info['m']) {
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$this->dimension++;
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$this->m = TRUE;
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}
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// If there is SRID information, ignore it - use EWKB Adapter to get SRID support
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if ($base_info['s']) {
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fread($mem, 4);
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}
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switch ($base_info['type']) {
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case 1:
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return $this->getPoint($mem);
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case 2:
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return $this->getLinstring($mem);
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case 3:
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return $this->getPolygon($mem);
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case 4:
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return $this->getMulti($mem,'point');
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case 5:
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return $this->getMulti($mem,'line');
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case 6:
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return $this->getMulti($mem,'polygon');
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case 7:
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return $this->getMulti($mem,'geometry');
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}
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}
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function getPoint(&$mem) {
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$point_coords = unpack("d*", fread($mem,$this->dimension*8));
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if (!empty($point_coords)) {
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return new Point($point_coords[1],$point_coords[2]);
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}
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else {
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return new Point(); // EMPTY point
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}
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}
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function getLinstring(&$mem) {
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// Get the number of points expected in this string out of the first 4 bytes
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$line_length = unpack('L',fread($mem,4));
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// Return an empty linestring if there is no line-length
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if (!$line_length[1]) return new LineString();
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// Read the nubmer of points x2 (each point is two coords) into decimal-floats
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$line_coords = unpack('d*', fread($mem,$line_length[1]*$this->dimension*8));
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// We have our coords, build up the linestring
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$components = array();
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$i = 1;
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$num_coords = count($line_coords);
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while ($i <= $num_coords) {
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$components[] = new Point($line_coords[$i],$line_coords[$i+1]);
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$i += 2;
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}
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return new LineString($components);
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}
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function getPolygon(&$mem) {
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// Get the number of linestring expected in this poly out of the first 4 bytes
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$poly_length = unpack('L',fread($mem,4));
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$components = array();
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$i = 1;
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while ($i <= $poly_length[1]) {
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$components[] = $this->getLinstring($mem);
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$i++;
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}
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return new Polygon($components);
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}
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function getMulti(&$mem, $type) {
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// Get the number of items expected in this multi out of the first 4 bytes
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$multi_length = unpack('L',fread($mem,4));
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$components = array();
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$i = 1;
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while ($i <= $multi_length[1]) {
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$components[] = $this->getGeometry($mem);
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$i++;
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}
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switch ($type) {
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case 'point':
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return new MultiPoint($components);
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case 'line':
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return new MultiLineString($components);
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case 'polygon':
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return new MultiPolygon($components);
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case 'geometry':
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return new GeometryCollection($components);
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}
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}
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/**
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* Serialize geometries into WKB string.
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*
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* @param Geometry $geometry
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*
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* @return string The WKB string representation of the input geometries
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*/
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public function write(Geometry $geometry, $write_as_hex = FALSE) {
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// We always write into NDR (little endian)
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$wkb = pack('c',1);
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switch ($geometry->getGeomType()) {
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case 'Point';
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$wkb .= pack('L',1);
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$wkb .= $this->writePoint($geometry);
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break;
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case 'LineString';
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$wkb .= pack('L',2);
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$wkb .= $this->writeLineString($geometry);
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break;
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case 'Polygon';
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$wkb .= pack('L',3);
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$wkb .= $this->writePolygon($geometry);
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break;
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case 'MultiPoint';
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$wkb .= pack('L',4);
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$wkb .= $this->writeMulti($geometry);
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break;
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case 'MultiLineString';
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$wkb .= pack('L',5);
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$wkb .= $this->writeMulti($geometry);
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break;
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case 'MultiPolygon';
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$wkb .= pack('L',6);
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$wkb .= $this->writeMulti($geometry);
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break;
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case 'GeometryCollection';
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$wkb .= pack('L',7);
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$wkb .= $this->writeMulti($geometry);
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break;
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}
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if ($write_as_hex) {
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$unpacked = unpack('H*',$wkb);
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return $unpacked[1];
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}
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else {
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return $wkb;
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}
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}
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function writePoint($point) {
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// Set the coords
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if (!$point->isEmpty()) {
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$wkb = pack('dd',$point->x(), $point->y());
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return $wkb;
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} else {
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return '';
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}
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}
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function writeLineString($line) {
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// Set the number of points in this line
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$wkb = pack('L',$line->numPoints());
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// Set the coords
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foreach ($line->getComponents() as $point) {
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$wkb .= pack('dd',$point->x(), $point->y());
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}
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return $wkb;
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}
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function writePolygon($poly) {
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// Set the number of lines in this poly
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$wkb = pack('L',$poly->numGeometries());
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// Write the lines
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foreach ($poly->getComponents() as $line) {
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$wkb .= $this->writeLineString($line);
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}
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return $wkb;
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}
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function writeMulti($geometry) {
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// Set the number of components
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$wkb = pack('L',$geometry->numGeometries());
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// Write the components
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foreach ($geometry->getComponents() as $component) {
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$wkb .= $this->write($component);
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}
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return $wkb;
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}
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}
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