setMinMax($ring, array()); } /** * Adds to the PNG image object, the data related to a row in the GIS dataset. * * @param string $spatial GIS POLYGON object * @param string $label Label for the GIS POLYGON object * @param string $fill_color Color for the GIS POLYGON object * @param array $scale_data Array containing data related to scaling * @param object $image Image object * * @return object the modified image object * @access public */ public function prepareRowAsPng( $spatial, $label, $fill_color, array $scale_data, $image ) { // allocate colors $black = imagecolorallocate($image, 0, 0, 0); $red = hexdec(mb_substr($fill_color, 1, 2)); $green = hexdec(mb_substr($fill_color, 3, 2)); $blue = hexdec(mb_substr($fill_color, 4, 2)); $color = imagecolorallocate($image, $red, $green, $blue); // Trim to remove leading 'POLYGON((' and trailing '))' $polygon = mb_substr( $spatial, 9, mb_strlen($spatial) - 11 ); // If the polygon doesn't have an inner polygon if (mb_strpos($polygon, "),(") === false) { $points_arr = $this->extractPoints($polygon, $scale_data, true); } else { // Separate outer and inner polygons $parts = explode("),(", $polygon); $outer = $parts[0]; $inner = array_slice($parts, 1); $points_arr = $this->extractPoints($outer, $scale_data, true); foreach ($inner as $inner_poly) { $points_arr = array_merge( $points_arr, $this->extractPoints($inner_poly, $scale_data, true) ); } } // draw polygon imagefilledpolygon($image, $points_arr, sizeof($points_arr) / 2, $color); // print label if applicable if (isset($label) && trim($label) != '') { imagestring( $image, 1, $points_arr[2], $points_arr[3], trim($label), $black ); } return $image; } /** * Adds to the TCPDF instance, the data related to a row in the GIS dataset. * * @param string $spatial GIS POLYGON object * @param string $label Label for the GIS POLYGON object * @param string $fill_color Color for the GIS POLYGON object * @param array $scale_data Array containing data related to scaling * @param TCPDF $pdf TCPDF instance * * @return TCPDF the modified TCPDF instance * @access public */ public function prepareRowAsPdf($spatial, $label, $fill_color, array $scale_data, $pdf) { // allocate colors $red = hexdec(mb_substr($fill_color, 1, 2)); $green = hexdec(mb_substr($fill_color, 3, 2)); $blue = hexdec(mb_substr($fill_color, 4, 2)); $color = array($red, $green, $blue); // Trim to remove leading 'POLYGON((' and trailing '))' $polygon = mb_substr( $spatial, 9, mb_strlen($spatial) - 11 ); // If the polygon doesn't have an inner polygon if (mb_strpos($polygon, "),(") === false) { $points_arr = $this->extractPoints($polygon, $scale_data, true); } else { // Separate outer and inner polygons $parts = explode("),(", $polygon); $outer = $parts[0]; $inner = array_slice($parts, 1); $points_arr = $this->extractPoints($outer, $scale_data, true); foreach ($inner as $inner_poly) { $points_arr = array_merge( $points_arr, $this->extractPoints($inner_poly, $scale_data, true) ); } } // draw polygon $pdf->Polygon($points_arr, 'F*', array(), $color, true); // print label if applicable if (isset($label) && trim($label) != '') { $pdf->SetXY($points_arr[2], $points_arr[3]); $pdf->SetFontSize(5); $pdf->Cell(0, 0, trim($label)); } return $pdf; } /** * Prepares and returns the code related to a row in the GIS dataset as SVG. * * @param string $spatial GIS POLYGON object * @param string $label Label for the GIS POLYGON object * @param string $fill_color Color for the GIS POLYGON object * @param array $scale_data Array containing data related to scaling * * @return string the code related to a row in the GIS dataset * @access public */ public function prepareRowAsSvg($spatial, $label, $fill_color, array $scale_data) { $polygon_options = array( 'name' => $label, 'id' => $label . rand(), 'class' => 'polygon vector', 'stroke' => 'black', 'stroke-width' => 0.5, 'fill' => $fill_color, 'fill-rule' => 'evenodd', 'fill-opacity' => 0.8, ); // Trim to remove leading 'POLYGON((' and trailing '))' $polygon = mb_substr( $spatial, 9, mb_strlen($spatial) - 11 ); $row = '_drawPath($polygon, $scale_data); } else { // Separate outer and inner polygons $parts = explode("),(", $polygon); $outer = $parts[0]; $inner = array_slice($parts, 1); $row .= $this->_drawPath($outer, $scale_data); foreach ($inner as $inner_poly) { $row .= $this->_drawPath($inner_poly, $scale_data); } } $row .= '"'; foreach ($polygon_options as $option => $val) { $row .= ' ' . $option . '="' . trim($val) . '"'; } $row .= '/>'; return $row; } /** * Prepares JavaScript related to a row in the GIS dataset * to visualize it with OpenLayers. * * @param string $spatial GIS POLYGON object * @param int $srid Spatial reference ID * @param string $label Label for the GIS POLYGON object * @param string $fill_color Color for the GIS POLYGON object * @param array $scale_data Array containing data related to scaling * * @return string JavaScript related to a row in the GIS dataset * @access public */ public function prepareRowAsOl($spatial, $srid, $label, $fill_color, array $scale_data) { $style_options = array( 'strokeColor' => '#000000', 'strokeWidth' => 0.5, 'fillColor' => $fill_color, 'fillOpacity' => 0.8, 'label' => $label, 'fontSize' => 10, ); if ($srid == 0) { $srid = 4326; } $row = $this->getBoundsForOl($srid, $scale_data); // Trim to remove leading 'POLYGON((' and trailing '))' $polygon = mb_substr( $spatial, 9, mb_strlen($spatial) - 11 ); // Separate outer and inner polygons $parts = explode("),(", $polygon); $row .= 'vectorLayer.addFeatures(new OpenLayers.Feature.Vector(' . $this->getPolygonForOpenLayers($parts, $srid) . ', null, ' . json_encode($style_options) . '));'; return $row; } /** * Draws a ring of the polygon using SVG path element. * * @param string $polygon The ring * @param array $scale_data Array containing data related to scaling * * @return string the code to draw the ring * @access private */ private function _drawPath($polygon, array $scale_data) { $points_arr = $this->extractPoints($polygon, $scale_data); $row = ' M ' . $points_arr[0][0] . ', ' . $points_arr[0][1]; $other_points = array_slice($points_arr, 1, count($points_arr) - 2); foreach ($other_points as $point) { $row .= ' L ' . $point[0] . ', ' . $point[1]; } $row .= ' Z '; return $row; } /** * Generate the WKT with the set of parameters passed by the GIS editor. * * @param array $gis_data GIS data * @param int $index Index into the parameter object * @param string $empty Value for empty points * * @return string WKT with the set of parameters passed by the GIS editor * @access public */ public function generateWkt(array $gis_data, $index, $empty = '') { $no_of_lines = isset($gis_data[$index]['POLYGON']['no_of_lines']) ? $gis_data[$index]['POLYGON']['no_of_lines'] : 1; if ($no_of_lines < 1) { $no_of_lines = 1; } $wkt = 'POLYGON('; for ($i = 0; $i < $no_of_lines; $i++) { $no_of_points = isset($gis_data[$index]['POLYGON'][$i]['no_of_points']) ? $gis_data[$index]['POLYGON'][$i]['no_of_points'] : 4; if ($no_of_points < 4) { $no_of_points = 4; } $wkt .= '('; for ($j = 0; $j < $no_of_points; $j++) { $wkt .= ((isset($gis_data[$index]['POLYGON'][$i][$j]['x']) && trim($gis_data[$index]['POLYGON'][$i][$j]['x']) != '') ? $gis_data[$index]['POLYGON'][$i][$j]['x'] : $empty) . ' ' . ((isset($gis_data[$index]['POLYGON'][$i][$j]['y']) && trim($gis_data[$index]['POLYGON'][$i][$j]['y']) != '') ? $gis_data[$index]['POLYGON'][$i][$j]['y'] : $empty) . ','; } $wkt = mb_substr( $wkt, 0, mb_strlen($wkt) - 1 ); $wkt .= '),'; } $wkt = mb_substr( $wkt, 0, mb_strlen($wkt) - 1 ); $wkt .= ')'; return $wkt; } /** * Calculates the area of a closed simple polygon. * * @param array $ring array of points forming the ring * * @return float the area of a closed simple polygon * @access public * @static */ public static function area(array $ring) { $no_of_points = count($ring); // If the last point is same as the first point ignore it $last = count($ring) - 1; if (($ring[0]['x'] == $ring[$last]['x']) && ($ring[0]['y'] == $ring[$last]['y']) ) { $no_of_points--; } // _n-1 // A = _1_ \ (X(i) * Y(i+1)) - (Y(i) * X(i+1)) // 2 /__ // i=0 $area = 0; for ($i = 0; $i < $no_of_points; $i++) { $j = ($i + 1) % $no_of_points; $area += $ring[$i]['x'] * $ring[$j]['y']; $area -= $ring[$i]['y'] * $ring[$j]['x']; } $area /= 2.0; return $area; } /** * Determines whether a set of points represents an outer ring. * If points are in clockwise orientation then, they form an outer ring. * * @param array $ring array of points forming the ring * * @return bool whether a set of points represents an outer ring * @access public * @static */ public static function isOuterRing(array $ring) { // If area is negative then it's in clockwise orientation, // i.e. it's an outer ring return GisPolygon::area($ring) < 0; } /** * Determines whether a given point is inside a given polygon. * * @param array $point x, y coordinates of the point * @param array $polygon array of points forming the ring * * @return bool whether a given point is inside a given polygon * @access public * @static */ public static function isPointInsidePolygon(array $point, array $polygon) { // If first point is repeated at the end remove it $last = count($polygon) - 1; if (($polygon[0]['x'] == $polygon[$last]['x']) && ($polygon[0]['y'] == $polygon[$last]['y']) ) { $polygon = array_slice($polygon, 0, $last); } $no_of_points = count($polygon); $counter = 0; // Use ray casting algorithm $p1 = $polygon[0]; for ($i = 1; $i <= $no_of_points; $i++) { $p2 = $polygon[$i % $no_of_points]; if ($point['y'] <= min(array($p1['y'], $p2['y']))) { $p1 = $p2; continue; } if ($point['y'] > max(array($p1['y'], $p2['y']))) { $p1 = $p2; continue; } if ($point['x'] > max(array($p1['x'], $p2['x']))) { $p1 = $p2; continue; } if ($p1['y'] != $p2['y']) { $xinters = ($point['y'] - $p1['y']) * ($p2['x'] - $p1['x']) / ($p2['y'] - $p1['y']) + $p1['x']; if ($p1['x'] == $p2['x'] || $point['x'] <= $xinters) { $counter++; } } $p1 = $p2; } return $counter % 2 != 0; } /** * Returns a point that is guaranteed to be on the surface of the ring. * (for simple closed rings) * * @param array $ring array of points forming the ring * * @return array|void a point on the surface of the ring * @access public * @static */ public static function getPointOnSurface(array $ring) { // Find two consecutive distinct points. for ($i = 0, $nb = count($ring) - 1; $i < $nb; $i++) { if ($ring[$i]['y'] != $ring[$i + 1]['y']) { $x0 = $ring[$i]['x']; $x1 = $ring[$i + 1]['x']; $y0 = $ring[$i]['y']; $y1 = $ring[$i + 1]['y']; break; } } if (!isset($x0)) { return false; } // Find the mid point $x2 = ($x0 + $x1) / 2; $y2 = ($y0 + $y1) / 2; // Always keep $epsilon < 1 to go with the reduction logic down here $epsilon = 0.1; $denominator = sqrt(pow(($y1 - $y0), 2) + pow(($x0 - $x1), 2)); $pointA = array(); $pointB = array(); while (true) { // Get the points on either sides of the line // with a distance of epsilon to the mid point $pointA['x'] = $x2 + ($epsilon * ($y1 - $y0)) / $denominator; $pointA['y'] = $y2 + ($pointA['x'] - $x2) * ($x0 - $x1) / ($y1 - $y0); $pointB['x'] = $x2 + ($epsilon * ($y1 - $y0)) / (0 - $denominator); $pointB['y'] = $y2 + ($pointB['x'] - $x2) * ($x0 - $x1) / ($y1 - $y0); // One of the points should be inside the polygon, // unless epsilon chosen is too large if (GisPolygon::isPointInsidePolygon($pointA, $ring)) { return $pointA; } if (GisPolygon::isPointInsidePolygon($pointB, $ring)) { return $pointB; } //If both are outside the polygon reduce the epsilon and //recalculate the points(reduce exponentially for faster convergence) $epsilon = pow($epsilon, 2); if ($epsilon == 0) { return false; } } } /** Generate parameters for the GIS data editor from the value of the GIS column. * * @param string $value Value of the GIS column * @param int $index Index of the geometry * * @return array params for the GIS data editor from the value of the GIS column * @access public */ public function generateParams($value, $index = -1) { $params = array(); if ($index == -1) { $index = 0; $data = GisGeometry::generateParams($value); $params['srid'] = $data['srid']; $wkt = $data['wkt']; } else { $params[$index]['gis_type'] = 'POLYGON'; $wkt = $value; } // Trim to remove leading 'POLYGON((' and trailing '))' $polygon = mb_substr( $wkt, 9, mb_strlen($wkt) - 11 ); // Separate each linestring $linerings = explode("),(", $polygon); $params[$index]['POLYGON']['no_of_lines'] = count($linerings); $j = 0; foreach ($linerings as $linering) { $points_arr = $this->extractPoints($linering, null); $no_of_points = count($points_arr); $params[$index]['POLYGON'][$j]['no_of_points'] = $no_of_points; for ($i = 0; $i < $no_of_points; $i++) { $params[$index]['POLYGON'][$j][$i]['x'] = $points_arr[$i][0]; $params[$index]['POLYGON'][$j][$i]['y'] = $points_arr[$i][1]; } $j++; } return $params; } }