* $graph = new ezcGraphPieChart(); * $graph->palette = new ezcGraphPaletteEzGreen(); * $graph->title = 'Access statistics'; * $graph->legend = false; * * $graph->driver = new ezcGraphGdDriver(); * $graph->options->font = 'tutorial_font.ttf'; * * // Generate a Jpeg with lower quality. The default settings result in a image * // with better quality. * // * // The reduction of the supersampling to 1 will result in no anti aliasing of * // the image. JPEG is not the optimal format for grapics, PNG is far better for * // this kind of images. * $graph->driver->options->supersampling = 1; * $graph->driver->options->jpegQuality = 100; * $graph->driver->options->imageFormat = IMG_JPEG; * * $graph->data['Access statistics'] = new ezcGraphArrayDataSet( array( * 'Mozilla' => 19113, * 'Explorer' => 10917, * 'Opera' => 1464, * 'Safari' => 652, * 'Konqueror' => 474, * ) ); * * $graph->render( 400, 200, 'tutorial_dirver_gd.jpg' ); * * * @version 1.4beta1 * @package Graph * @mainclass */ class ezcGraphGdDriver extends ezcGraphDriver { /** * Image resource * * @var resource */ protected $image; /** * Array with image files to draw * * @var array */ protected $preProcessImages = array(); /** * List of strings to draw * array ( array( * 'text' => array( 'strings' ), * 'options' => ezcGraphFontOptions, * ) * * @var array */ protected $strings = array(); /** * Contains resources for already loaded ps fonts. * array( * path => resource * ) * * @var array */ protected $psFontResources = array(); /** * Constructor * * @param array $options Default option array * @return void * @ignore */ public function __construct( array $options = array() ) { ezcBase::checkDependency( 'Graph', ezcBase::DEP_PHP_EXTENSION, 'gd' ); $this->options = new ezcGraphGdDriverOptions( $options ); } /** * Returns the image resource to draw on. * * If no resource exists the image will be created. The size of the * returned image depends on the supersampling factor and the size of the * chart. * * @return resource */ protected function getImage() { if ( !isset( $this->image ) ) { $this->image = imagecreatetruecolor( $this->supersample( $this->options->width ), $this->supersample( $this->options->height ) ); // Default to a transparent white background $bgColor = imagecolorallocatealpha( $this->image, 255, 255, 255, 127 ); imagealphablending( $this->image, true ); imagesavealpha( $this->image, true ); imagefill( $this->image, 1, 1, $bgColor ); imagesetthickness( $this->image, $this->options->supersampling ); } return $this->image; } /** * Allocates a color * * This function tries to allocate the requested color. If the color * already exists in the imaga it will be reused. * * @param ezcGraphColor $color * @return int Color index */ protected function allocate( ezcGraphColor $color ) { $image = $this->getImage(); if ( $color->alpha > 0 ) { $fetched = imagecolorexactalpha( $image, $color->red, $color->green, $color->blue, $color->alpha / 2 ); if ( $fetched < 0 ) { $fetched = imagecolorallocatealpha( $image, $color->red, $color->green, $color->blue, $color->alpha / 2 ); } return $fetched; } else { $fetched = imagecolorexact( $image, $color->red, $color->green, $color->blue ); if ( $fetched < 0 ) { $fetched = imagecolorallocate( $image, $color->red, $color->green, $color->blue ); } return $fetched; } } /** * Creates an image resource from an image file * * @param string $file Filename * @return resource Image */ protected function imageCreateFrom( $file ) { $data = getimagesize( $file ); switch ( $data[2] ) { case 1: return array( 'width' => $data[0], 'height' => $data[1], 'image' => imagecreatefromgif( $file ) ); case 2: return array( 'width' => $data[0], 'height' => $data[1], 'image' => imagecreatefromjpeg( $file ) ); case 3: return array( 'width' => $data[0], 'height' => $data[1], 'image' => imagecreatefrompng( $file ) ); default: throw new ezcGraphGdDriverUnsupportedImageTypeException( $data[2] ); } } /** * Supersamples a single coordinate value. * * Applies supersampling to a single coordinate value. * * @param float $value Coordinate value * @return float Supersampled coordinate value */ protected function supersample( $value ) { $mod = (int) floor( $this->options->supersampling / 2 ); return $value * $this->options->supersampling - $mod; } /** * Draws a single polygon. * * @param array $points Point array * @param ezcGraphColor $color Polygon color * @param mixed $filled Filled * @param float $thickness Line thickness * @return void */ public function drawPolygon( array $points, ezcGraphColor $color, $filled = true, $thickness = 1. ) { $image = $this->getImage(); $drawColor = $this->allocate( $color ); // Create point array $pointCount = count( $points ); $pointArray = array(); for ( $i = 0; $i < $pointCount; ++$i ) { $pointArray[] = $this->supersample( $points[$i]->x ); $pointArray[] = $this->supersample( $points[$i]->y ); } // Draw polygon if ( $filled ) { imagefilledpolygon( $image, $pointArray, $pointCount, $drawColor ); } else { imagepolygon( $image, $pointArray, $pointCount, $drawColor ); } return $points; } /** * Draws a line * * @param ezcGraphCoordinate $start Start point * @param ezcGraphCoordinate $end End point * @param ezcGraphColor $color Line color * @param float $thickness Line thickness * @return void */ public function drawLine( ezcGraphCoordinate $start, ezcGraphCoordinate $end, ezcGraphColor $color, $thickness = 1. ) { $image = $this->getImage(); $drawColor = $this->allocate( $color ); imagesetthickness( $this->image, $this->options->supersampling * $thickness ); imageline( $image, $this->supersample( $start->x ), $this->supersample( $start->y ), $this->supersample( $end->x ), $this->supersample( $end->y ), $drawColor ); imagesetthickness( $this->image, $this->options->supersampling ); return array(); } /** * Returns boundings of text depending on the available font extension * * @param float $size Textsize * @param ezcGraphFontOptions $font Font * @param string $text Text * @return ezcGraphBoundings Boundings of text */ protected function getTextBoundings( $size, ezcGraphFontOptions $font, $text ) { switch ( $font->type ) { case ezcGraph::PS_FONT: if ( !isset( $this->psFontResources[$font->path] ) ) { $this->psFontResources[$font->path] = imagePsLoadFont( $font->path ); } $boundings = imagePsBBox( $text, $this->psFontResources[$font->path], $size ); return new ezcGraphBoundings( $boundings[0], $boundings[1], $boundings[2], $boundings[3] ); case ezcGraph::TTF_FONT: switch ( true ) { case ezcBaseFeatures::hasFunction( 'imageftbbox' ) && !$this->options->forceNativeTTF: $boundings = imageFtBBox( $size, 0, $font->path, $text ); return new ezcGraphBoundings( $boundings[0], $boundings[1], $boundings[4], $boundings[5] ); case ezcBaseFeatures::hasFunction( 'imagettfbbox' ): $boundings = imageTtfBBox( $size, 0, $font->path, $text ); return new ezcGraphBoundings( $boundings[0], $boundings[1], $boundings[4], $boundings[5] ); } break; } } /** * Render text depending of font type and available font extensions * * @param resource $image Image resource * @param string $text Text * @param int $type Font type * @param string $path Font path * @param ezcGraphColor $color Font color * @param ezcGraphCoordinate $position Position * @param float $size Textsize * @param ezcGraphRotation $rotation * * @return void */ protected function renderText( $image, $text, $type, $path, ezcGraphColor $color, ezcGraphCoordinate $position, $size, ezcGraphRotation $rotation = null ) { if ( $rotation !== null ) { // Rotation is relative to top left point of text and not relative // to the bounding coordinate system $rotation = new ezcGraphRotation( $rotation->getRotation(), new ezcGraphCoordinate( $rotation->getCenter()->x - $position->x, $rotation->getCenter()->y - $position->y ) ); } switch ( $type ) { case ezcGraph::PS_FONT: imagePsText( $image, $text, $this->psFontResources[$path], $size, $this->allocate( $color ), 1, $position->x + ( $rotation === null ? 0 : $rotation->get( 0, 2 ) ), $position->y + ( $rotation === null ? 0 : $rotation->get( 1, 2 ) ), 0, 0, ( $rotation === null ? 0 : -$rotation->getRotation() ), 4 ); break; case ezcGraph::TTF_FONT: switch ( true ) { case ezcBaseFeatures::hasFunction( 'imagefttext' ) && !$this->options->forceNativeTTF: imageFtText( $image, $size, ( $rotation === null ? 0 : -$rotation->getRotation() ), $position->x + ( $rotation === null ? 0 : $rotation->get( 0, 2 ) ), $position->y + ( $rotation === null ? 0 : $rotation->get( 1, 2 ) ), $this->allocate( $color ), $path, $text ); break; case ezcBaseFeatures::hasFunction( 'imagettftext' ): imageTtfText( $image, $size, ( $rotation === null ? 0 : -$rotation->getRotation() ), $position->x + ( $rotation === null ? 0 : $rotation->get( 0, 2 ) ), $position->y + ( $rotation === null ? 0 : $rotation->get( 1, 2 ) ), $this->allocate( $color ), $path, $text ); break; } break; } } /** * Writes text in a box of desired size * * @param string $string Text * @param ezcGraphCoordinate $position Top left position * @param float $width Width of text box * @param float $height Height of text box * @param int $align Alignement of text * @param ezcGraphRotation $rotation * @return void */ public function drawTextBox( $string, ezcGraphCoordinate $position, $width, $height, $align, ezcGraphRotation $rotation = null ) { $padding = $this->options->font->padding + ( $this->options->font->border !== false ? $this->options->font->borderWidth : 0 ); $width -= $padding * 2; $height -= $padding * 2; $position->x += $padding; $position->y += $padding; // Try to get a font size for the text to fit into the box $maxSize = min( $height, $this->options->font->maxFontSize ); $result = false; for ( $size = $maxSize; $size >= $this->options->font->minFontSize; --$size ) { $result = $this->testFitStringInTextBox( $string, $position, $width, $height, $size ); if ( is_array( $result ) ) { break; } $size = floor( ( $newsize = $size * ( $result ) ) >= $size ? $size - 1 : $newsize ); } if ( !is_array( $result ) ) { if ( ( $height >= $this->options->font->minFontSize ) && ( $this->options->autoShortenString ) ) { $result = $this->tryFitShortenedString( $string, $position, $width, $height, $size = $this->options->font->minFontSize ); } else { throw new ezcGraphFontRenderingException( $string, $this->options->font->minFontSize, $width, $height ); } } $this->options->font->minimalUsedFont = $size; $this->strings[] = array( 'text' => $result, 'position' => $position, 'width' => $width, 'height' => $height, 'align' => $align, 'font' => $this->options->font, 'rotation' => $rotation, ); return array( clone $position, new ezcGraphCoordinate( $position->x + $width, $position->y ), new ezcGraphCoordinate( $position->x + $width, $position->y + $height ), new ezcGraphCoordinate( $position->x, $position->y + $height ), ); } /** * Draw all collected texts * * The texts are collected and their maximum possible font size is * calculated. This function finally draws the texts on the image, this * delayed drawing has two reasons: * * 1) This way the text strings are always on top of the image, what * results in better readable texts * 2) The maximum possible font size can be calculated for a set of texts * with the same font configuration. Strings belonging to one chart * element normally have the same font configuration, so that all texts * belonging to one element will have the same font size. * * @access protected * @return void */ protected function drawAllTexts() { $image = $this->getImage(); foreach ( $this->strings as $text ) { $size = $text['font']->minimalUsedFont; $completeHeight = count( $text['text'] ) * $size + ( count( $text['text'] ) - 1 ) * $this->options->lineSpacing; // Calculate y offset for vertical alignement switch ( true ) { case ( $text['align'] & ezcGraph::BOTTOM ): $yOffset = $text['height'] - $completeHeight; break; case ( $text['align'] & ezcGraph::MIDDLE ): $yOffset = ( $text['height'] - $completeHeight ) / 2; break; case ( $text['align'] & ezcGraph::TOP ): default: $yOffset = 0; break; } $padding = $text['font']->padding + $text['font']->borderWidth / 2; if ( $this->options->font->minimizeBorder === true ) { // Calculate maximum width of text rows $width = false; foreach ( $text['text'] as $line ) { $string = implode( ' ', $line ); $boundings = $this->getTextBoundings( $size, $text['font'], $string ); if ( ( $width === false) || ( $boundings->width > $width ) ) { $width = $boundings->width; } } switch ( true ) { case ( $text['align'] & ezcGraph::LEFT ): $xOffset = 0; break; case ( $text['align'] & ezcGraph::CENTER ): $xOffset = ( $text['width'] - $width ) / 2; break; case ( $text['align'] & ezcGraph::RIGHT ): $xOffset = $text['width'] - $width; break; } $borderPolygonArray = array( new ezcGraphCoordinate( $text['position']->x - $padding + $xOffset, $text['position']->y - $padding + $yOffset ), new ezcGraphCoordinate( $text['position']->x + $padding * 2 + $xOffset + $width, $text['position']->y - $padding + $yOffset ), new ezcGraphCoordinate( $text['position']->x + $padding * 2 + $xOffset + $width, $text['position']->y + $padding * 2 + $yOffset + $completeHeight ), new ezcGraphCoordinate( $text['position']->x - $padding + $xOffset, $text['position']->y + $padding * 2 + $yOffset + $completeHeight ), ); } else { $borderPolygonArray = array( new ezcGraphCoordinate( $text['position']->x - $padding, $text['position']->y - $padding ), new ezcGraphCoordinate( $text['position']->x + $padding * 2 + $text['width'], $text['position']->y - $padding ), new ezcGraphCoordinate( $text['position']->x + $padding * 2 + $text['width'], $text['position']->y + $padding * 2 + $text['height'] ), new ezcGraphCoordinate( $text['position']->x - $padding, $text['position']->y + $padding * 2 + $text['height'] ), ); } if ( $text['rotation'] !== null ) { foreach ( $borderPolygonArray as $nr => $point ) { $borderPolygonArray[$nr] = $text['rotation']->transformCoordinate( $point ); } } if ( $text['font']->background !== false ) { $this->drawPolygon( $borderPolygonArray, $text['font']->background, true ); } if ( $text['font']->border !== false ) { $this->drawPolygon( $borderPolygonArray, $text['font']->border, false, $text['font']->borderWidth ); } // Render text with evaluated font size foreach ( $text['text'] as $line ) { $string = implode( ' ', $line ); $boundings = $this->getTextBoundings( $size, $text['font'], $string ); $text['position']->y += $size; switch ( true ) { case ( $text['align'] & ezcGraph::LEFT ): $position = new ezcGraphCoordinate( $text['position']->x, $text['position']->y + $yOffset ); break; case ( $text['align'] & ezcGraph::RIGHT ): $position = new ezcGraphCoordinate( $text['position']->x + ( $text['width'] - $boundings->width ), $text['position']->y + $yOffset ); break; case ( $text['align'] & ezcGraph::CENTER ): $position = new ezcGraphCoordinate( $text['position']->x + ( ( $text['width'] - $boundings->width ) / 2 ), $text['position']->y + $yOffset ); break; } // Calculate relative modification of rotation center point if ( $text['rotation'] !== null ) { $rotation = new ezcGraphRotation( $text['rotation']->getRotation(), new ezcGraphCoordinate( $text['rotation']->getCenter()->x + $position->x - $text['position']->x, $text['rotation']->getCenter()->y + $position->y - $text['position']->y ) ); $rotation = $text['rotation']; } else { $rotation = null; } // Optionally draw text shadow if ( $text['font']->textShadow === true ) { $this->renderText( $image, $string, $text['font']->type, $text['font']->path, $text['font']->textShadowColor, new ezcGraphCoordinate( $position->x + $text['font']->textShadowOffset, $position->y + $text['font']->textShadowOffset ), $size, $rotation ); } // Finally draw text $this->renderText( $image, $string, $text['font']->type, $text['font']->path, $text['font']->color, $position, $size, $rotation ); $text['position']->y += $size * $this->options->lineSpacing; } } } /** * Draws a sector of cirlce * * @param ezcGraphCoordinate $center Center of circle * @param mixed $width Width * @param mixed $height Height * @param mixed $startAngle Start angle of circle sector * @param mixed $endAngle End angle of circle sector * @param ezcGraphColor $color Color * @param mixed $filled Filled * @return void */ public function drawCircleSector( ezcGraphCoordinate $center, $width, $height, $startAngle, $endAngle, ezcGraphColor $color, $filled = true ) { $image = $this->getImage(); $drawColor = $this->allocate( $color ); // Normalize angles if ( $startAngle > $endAngle ) { $tmp = $startAngle; $startAngle = $endAngle; $endAngle = $tmp; } // Because of bug #45552 in PHPs ext/GD we check for a minimal distance // on the outer border of the circle sector, and skip the drawing if // the distance is lower then 1. // // See also: http://bugs.php.net/45552 $startPoint = new ezcGraphVector( $center->x + ( ( cos( deg2rad( $startAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $startAngle ) ) * $height ) / 2 ) ); if ( $startPoint->sub( new ezcGraphVector( $center->x + ( ( cos( deg2rad( $endAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $endAngle ) ) * $height ) / 2 ) ) )->length() < 1 ) { // Skip this circle sector return array(); } if ( $filled ) { imagefilledarc( $image, $this->supersample( $center->x ), $this->supersample( $center->y ), $this->supersample( $width ), $this->supersample( $height ), $startAngle, $endAngle, $drawColor, IMG_ARC_PIE ); } else { imagefilledarc( $image, $this->supersample( $center->x ), $this->supersample( $center->y ), $this->supersample( $width ), $this->supersample( $height ), $startAngle, $endAngle, $drawColor, IMG_ARC_PIE | IMG_ARC_NOFILL | IMG_ARC_EDGED ); } // Create polygon array to return $polygonArray = array( $center ); for ( $angle = $startAngle; $angle < $endAngle; $angle += $this->options->imageMapResolution ) { $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $angle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $angle ) ) * $height ) / 2 ) ); } $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $endAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $endAngle ) ) * $height ) / 2 ) ); return $polygonArray; } /** * Draws a single element of a circular arc * * ext/gd itself does not support something like circular arcs, so that * this functions draws rectangular polygons as a part of circular arcs * to interpolate them. This way it is possible to apply a linear gradient * to the circular arc, because we draw single steps anyway. * * @param ezcGraphCoordinate $center Center of ellipse * @param integer $width Width of ellipse * @param integer $height Height of ellipse * @param integer $size Height of border * @param float $startAngle Starting angle of circle sector * @param float $endAngle Ending angle of circle sector * @param ezcGraphColor $color Color of Border * @return void */ protected function drawCircularArcStep( ezcGraphCoordinate $center, $width, $height, $size, $startAngle, $endAngle, ezcGraphColor $color ) { $this->drawPolygon( array( new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $startAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $startAngle ) ) * $height ) / 2 ) ), new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $startAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $startAngle ) ) * $height ) / 2 ) + $size ), new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $endAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $endAngle ) ) * $height ) / 2 ) + $size ), new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $endAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $endAngle ) ) * $height ) / 2 ) ), ), $color->darken( $this->options->shadeCircularArc * ( 1 + cos ( deg2rad( $startAngle ) ) ) / 2 ), true ); } /** * Draws a circular arc * * @param ezcGraphCoordinate $center Center of ellipse * @param integer $width Width of ellipse * @param integer $height Height of ellipse * @param integer $size Height of border * @param float $startAngle Starting angle of circle sector * @param float $endAngle Ending angle of circle sector * @param ezcGraphColor $color Color of Border * @param bool $filled * @return void */ public function drawCircularArc( ezcGraphCoordinate $center, $width, $height, $size, $startAngle, $endAngle, ezcGraphColor $color, $filled = true ) { $image = $this->getImage(); $drawColor = $this->allocate( $color ); // Normalize angles if ( $startAngle > $endAngle ) { $tmp = $startAngle; $startAngle = $endAngle; $endAngle = $tmp; } if ( $filled === true ) { $startIteration = ceil( $startAngle / $this->options->detail ) * $this->options->detail; $endIteration = floor( $endAngle / $this->options->detail ) * $this->options->detail; if ( $startAngle < $startIteration ) { // Draw initial step $this->drawCircularArcStep( $center, $width, $height, $size, $startAngle, $startIteration, $color ); } // Draw all steps for ( ; $startIteration < $endIteration; $startIteration += $this->options->detail ) { $this->drawCircularArcStep( $center, $width, $height, $size, $startIteration, $startIteration + $this->options->detail, $color ); } if ( $endIteration < $endAngle ) { // Draw closing step $this->drawCircularArcStep( $center, $width, $height, $size, $endIteration, $endAngle, $color ); } } else { imagefilledarc( $image, $this->supersample( $center->x ), $this->supersample( $center->y ), $this->supersample( $width ), $this->supersample( $height ), $startAngle, $endAngle, $drawColor, IMG_ARC_PIE | IMG_ARC_NOFILL ); } // Create polygon array to return $polygonArray = array(); for ( $angle = $startAngle; $angle < $endAngle; $angle += $this->options->imageMapResolution ) { $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $angle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $angle ) ) * $height ) / 2 ) ); } $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $endAngle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $endAngle ) ) * $height ) / 2 ) ); for ( $angle = $endAngle; $angle > $startAngle; $angle -= $this->options->imageMapResolution ) { $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $angle ) ) * $width ) / 2 ) + $size, $center->y + ( ( sin( deg2rad( $angle ) ) * $height ) / 2 ) ); } $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $startAngle ) ) * $width ) / 2 ) + $size, $center->y + ( ( sin( deg2rad( $startAngle ) ) * $height ) / 2 ) ); return $polygonArray; } /** * Draw circle * * @param ezcGraphCoordinate $center Center of ellipse * @param mixed $width Width of ellipse * @param mixed $height height of ellipse * @param ezcGraphColor $color Color * @param mixed $filled Filled * @return void */ public function drawCircle( ezcGraphCoordinate $center, $width, $height, ezcGraphColor $color, $filled = true ) { $image = $this->getImage(); $drawColor = $this->allocate( $color ); if ( $filled ) { imagefilledellipse( $image, $this->supersample( $center->x ), $this->supersample( $center->y ), $this->supersample( $width ), $this->supersample( $height ), $drawColor ); } else { imageellipse( $image, $this->supersample( $center->x ), $this->supersample( $center->y ), $this->supersample( $width ), $this->supersample( $height ), $drawColor ); } $polygonArray = array(); for ( $angle = 0; $angle < 360; $angle += $this->options->imageMapResolution ) { $polygonArray[] = new ezcGraphCoordinate( $center->x + ( ( cos( deg2rad( $angle ) ) * $width ) / 2 ), $center->y + ( ( sin( deg2rad( $angle ) ) * $height ) / 2 ) ); } return $polygonArray; } /** * Draw an image * * The actual drawing of the image is delayed, to not apply supersampling * to the image. The image will normally be resized using the gd function * imagecopyresampled, which provides nice antialiased scaling, so that * additional supersampling would make the image look blurred. The delayed * images will be pre-processed, so that they are draw in the back of * everything else. * * @param mixed $file Image file * @param ezcGraphCoordinate $position Top left position * @param mixed $width Width of image in destination image * @param mixed $height Height of image in destination image * @return void */ public function drawImage( $file, ezcGraphCoordinate $position, $width, $height ) { $this->preProcessImages[] = array( 'file' => $file, 'position' => clone $position, 'width' => $width, 'height' => $height, ); return array( $position, new ezcGraphCoordinate( $position->x + $width, $position->y ), new ezcGraphCoordinate( $position->x + $width, $position->y + $height ), new ezcGraphCoordinate( $position->x, $position->y + $height ), ); } /** * Draw all images to image resource handler * * @param resource $image Image to draw on * @return resource Updated image resource */ protected function addImages( $image ) { foreach ( $this->preProcessImages as $preImage ) { $preImageData = $this->imageCreateFrom( $preImage['file'] ); call_user_func_array( $this->options->resampleFunction, array( $image, $preImageData['image'], $preImage['position']->x, $preImage['position']->y, 0, 0, $preImage['width'], $preImage['height'], $preImageData['width'], $preImageData['height'], ) ); } return $image; } /** * Return mime type for current image format * * @return string */ public function getMimeType() { switch ( $this->options->imageFormat ) { case IMG_PNG: return 'image/png'; case IMG_JPEG: return 'image/jpeg'; } } /** * Render image directly to output * * The method renders the image directly to the standard output. You * normally do not want to use this function, because it makes it harder * to proper cache the generated graphs. * * @return void */ public function renderToOutput() { header( 'Content-Type: ' . $this->getMimeType() ); $this->render( null ); } /** * Finally save image * * @param string $file Destination filename * @return void */ public function render( $file ) { $destination = imagecreatetruecolor( $this->options->width, $this->options->height ); // Default to a transparent white background $bgColor = imagecolorallocatealpha( $destination, 255, 255, 255, 127 ); imagealphablending( $destination, true ); imagesavealpha( $destination, true ); imagefill( $destination, 1, 1, $bgColor ); // Apply background if one is defined if ( $this->options->background !== false ) { $background = $this->imageCreateFrom( $this->options->background ); call_user_func_array( $this->options->resampleFunction, array( $destination, $background['image'], 0, 0, 0, 0, $this->options->width, $this->options->height, $background['width'], $background['height'], ) ); } // Draw all images to exclude them from supersampling $destination = $this->addImages( $destination ); // Finally merge with graph $image = $this->getImage(); call_user_func_array( $this->options->resampleFunction, array( $destination, $image, 0, 0, 0, 0, $this->options->width, $this->options->height, $this->supersample( $this->options->width ), $this->supersample( $this->options->height ) ) ); $this->image = $destination; imagedestroy( $image ); // Draw all texts // Reset supersampling during text rendering $supersampling = $this->options->supersampling; $this->options->supersampling = 1; $this->drawAllTexts(); $this->options->supersampling = $supersampling; $image = $this->getImage(); switch ( $this->options->imageFormat ) { case IMG_PNG: if ( $file === null ) { imagepng( $image ); } else { imagepng( $image, $file ); } break; case IMG_JPEG: imagejpeg( $image, $file, $this->options->jpegQuality ); break; default: throw new ezcGraphGdDriverUnsupportedImageTypeException( $this->options->imageFormat ); } } /** * Get resource of rendered result * * Return the resource of the rendered result. You should not use this * method before you called either renderToOutput() or render(), as the * image may not be completely rendered until then. * * @return resource */ public function getResource() { return $this->image; } } ?>