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khosb/includes/pear/Image/Canvas/GD.php

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<?php
/* vim: set expandtab tabstop=4 shiftwidth=4 softtabstop=4: */
/**
* Image_Canvas
*
* Class for handling output in GD compatible format.
*
* Supported formats are PNG, JPEG, GIF and WBMP.
*
* Requires PHP extension GD
*
* PHP versions 4 and 5
*
* LICENSE: This library is free software; you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation; either version 2.1 of the License, or (at your
* option) any later version. This library is distributed in the hope that it
* will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser
* General Public License for more details. You should have received a copy of
* the GNU Lesser General Public License along with this library; if not, write
* to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
* 02111-1307 USA
*
* @category Images
* @package Image_Canvas
* @author Jesper Veggerby <pear.nosey@veggerby.dk>
* @copyright Copyright (C) 2003, 2004 Jesper Veggerby Hansen
* @license http://www.gnu.org/copyleft/lesser.html LGPL License 2.1
* @version CVS: $Id: GD.php,v 1.16 2007/06/22 20:19:54 nosey Exp $
* @link http://pear.php.net/pepr/pepr-proposal-show.php?id=212
*/
/**
* Include file Image/Canvas.php
*/
require_once 'Image/Canvas/WithMap.php';
/**
* Include file Image/Canvas/Color.php
*/
require_once 'Image/Canvas/Color.php';
/**
* Canvas class to output using PHP GD support.
*
* @category Images
* @package Image_Canvas
* @author Jesper Veggerby <pear.nosey@veggerby.dk>
* @copyright Copyright (C) 2003, 2004 Jesper Veggerby Hansen
* @license http://www.gnu.org/copyleft/lesser.html LGPL License 2.1
* @version Release: @package_version@
* @link http://pear.php.net/pepr/pepr-proposal-show.php?id=212
* @abstract
*/
class Image_Canvas_GD extends Image_Canvas_WithMap
{
/**
* The canvas of the graph
* @var resource
* @access private
*/
var $_canvas;
/**
* The canvas to use for tiled filling
* @var resource
* @access private
*/
var $_tileImage = null;
/**
* Is version GD2 installed?
* @var bool
* @access private
*/
var $_gd2 = true;
/**
* Antialiasing?
*
* Possible values 'off', 'driver' and 'native'
*
* @var string
* @access private
*/
var $_antialias = 'off';
var $_alpha = false;
var $_clipping = array();
/**
* Create the GD canvas.
*
* Parameters available:
*
* 'width' The width of the graph on the canvas
*
* 'height' The height of the graph on the canvas
*
* 'left' The left offset of the graph on the canvas
*
* 'top' The top offset of the graph on the canvas
*
* 'antialias' = 'native' enables native GD antialiasing - this
* method has no severe impact on performance (approx +5%). Requires PHP
* 4.3.2 (with bundled GD2)
*
* 'antialias' = {true|'driver'} Image_Graph implemented method. This method
* has a severe impact on performance, drawing an antialiased line this
* way is about XX times slower, with an overall performance impact of
* about +40%. The justification for this method is that if native support
* is not available this can be used, it is also a future feature that this
* method for antialiasing will support line styles.
*
* Use antialiased for best results with a line/area chart having just a few
* datapoints. Native antialiasing does not provide a good appearance with
* short lines, as for example with smoothed charts. Antialiasing does not
* (currently) work with linestyles, neither native nor driver method!
*
* 'noalpha' = true If alpha blending is to be disabled
*
* 'filename' An image to open, on which the graph is created on
*
* 'gd' A GD resource to add the image to, use this option to continue
* working on an already existing GD resource. Make sure this is passed 'by-
* reference' (using &amp;)
*
* 'usemap' Initialize an image map
*
* 'gd' and 'filename' are mutually exclusive with 'gd' as preference
*
* 'width' and 'height' are required unless 'filename' or 'gd' are
* specified, in which case the width and height are taken as the actual
* image width/height. If the latter is the case and 'left' and/or 'top' was
* also specified, the actual 'width'/'height' are altered so that the graph
* fits inside the canvas (i.e 'height' = actual height - top, etc.)
*
* @param array $param Parameter array
*/
function Image_Canvas_GD($param)
{
include_once 'Image/Canvas/Color.php';
parent::Image_Canvas_WithMap($param);
$this->_gd2 = ($this->_version() == 2);
$this->_font = array('font' => 1, 'color' => 'black');
if ((isset($param['gd'])) && (is_resource($param['gd']))) {
$this->_canvas =& $param['gd'];
} elseif (isset($param['filename'])) {
$this->_canvas =& $this->_getGD($param['filename']);
} else {
if ($this->_gd2) {
$this->_canvas = ImageCreateTrueColor(
$this->_width,
$this->_height
);
if ((!isset($param['noalpha'])) || ($param['noalpha'] !== true)) {
ImageAlphaBlending($this->_canvas, true);
$this->_alpha = true;
}
} else {
$this->_canvas = ImageCreate($this->_width, $this->_height);
}
}
if (isset($param['antialias'])) {
$this->_antialias = $param['antialias'];
}
if ($this->_antialias === true) {
$this->_antialias = 'driver';
}
if (($this->_gd2) && ($this->_antialias === 'native') && (function_exists('ImageAntialias'))) {
ImageAntialias($this->_canvas, true);
}
}
/**
* Get an GD image resource from a file
*
* @param string $filename
* @return mixed The GD image resource
* @access private
*/
function &_getGD($filename)
{
$info = getimagesize($filename);
$result = null;
switch($info[2]) {
case IMG_PNG:
$result =& ImageCreateFromPNG($filename);
break;
case IMG_JPG:
$result =& ImageCreateFromJPEG($filename);
break;
case IMG_GIF:
$result =& ImageCreateFromGIF($filename);
break;
}
return $result;
}
/**
* Get the color index for the RGB color
*
* @param int $color The color
* @return int The GD image index of the color
* @access private
*/
function _color($color = false)
{
if (($color === false) || ($color === 'opague') || ($color === 'transparent')) {
return ImageColorTransparent($this->_canvas);
} else {
return Image_Canvas_Color::allocateColor($this->_canvas, $color);
}
}
/**
* Get the GD applicable linestyle
*
* @param mixed $lineStyle The line style to return, false if the one
* explicitly set
* @return mixed A GD compatible linestyle
* @access private
*/
function _getLineStyle($lineStyle = false)
{
if ($this->_gd2) {
ImageSetThickness($this->_canvas, $this->_thickness);
}
if ($lineStyle == 'transparent') {
return false;
} elseif ($lineStyle === false) {
if (is_array($this->_lineStyle)) {
$colors = array();
foreach ($this->_lineStyle as $color) {
if ($color === 'transparent') {
$color = false;
}
$colors[] = $this->_color($color);
}
ImageSetStyle($this->_canvas, $colors);
return IMG_COLOR_STYLED;
} else {
return $this->_color($this->_lineStyle);
}
} else {
return $this->_color($lineStyle);
}
}
/**
* Get the GD applicable fillstyle
*
* @param mixed $fillStyle The fillstyle to return, false if the one
* explicitly set
* @return mixed A GD compatible fillstyle
* @access private
*/
function _getFillStyle($fillStyle = false, $x0 = 0, $y0 = 0, $x1 = 0, $y1 = 0)
{
if ($this->_tileImage != null) {
ImageDestroy($this->_tileImage);
$this->_tileImage = null;
}
if ($fillStyle == 'transparent') {
return false;
} elseif ($fillStyle === false) {
if (is_resource($this->_fillStyle)) {
$x = min($x0, $x1);
$y = min($y0, $y1);
$w = abs($x1 - $x0) + 1;
$h = abs($y1 - $y0) + 1;
if ($this->_gd2) {
$this->_tileImage = ImageCreateTrueColor(
$this->getWidth(),
$this->getHeight()
);
ImageCopyResampled(
$this->_tileImage,
$this->_fillStyle,
$x,
$y,
0,
0,
$w,
$h,
ImageSX($this->_fillStyle),
ImageSY($this->_fillStyle)
);
} else {
$this->_tileImage = ImageCreate(
$this->getWidth(),
$this->getHeight()
);
ImageCopyResized(
$this->_tileImage,
$this->_fillStyle,
$x,
$y,
0,
0,
$w,
$h,
ImageSX($this->_fillStyle),
ImageSY($this->_fillStyle)
);
}
ImageSetTile($this->_canvas, $this->_tileImage);
return IMG_COLOR_TILED;
} elseif ((is_array($this->_fillStyle)) && (isset($this->_fillStyle['direction']))) {
$width = abs($x1 - $x0) + 1;
$height = abs($y1 - $y0) + 1;
switch ($this->_fillStyle['direction']) {
case 'horizontal':
$count = $width;
break;
case 'vertical':
$count = $height;
break;
case 'horizontal_mirror':
$count = $width / 2;
break;
case 'vertical_mirror':
$count = $height / 2;
break;
case 'diagonal_tl_br':
case 'diagonal_bl_tr':
$count = sqrt($width * $width + $height * $height);
break;
case 'radial':
$count = max($width, $height, sqrt($width * $width + $height * $height)) + 1;
break;
}
$count = round($count);
if ($this->_gd2) {
$this->_tileImage = ImageCreateTrueColor(
$this->getWidth(),
$this->getHeight()
);
} else {
$this->_tileImage = ImageCreate(
$this->getWidth(),
$this->getHeight()
);
}
$startColor = Image_Canvas_Color::color2RGB(
($this->_fillStyle['direction'] == 'radial' ?
$this->_fillStyle['end'] :
$this->_fillStyle['start']
)
);
$endColor = Image_Canvas_Color::color2RGB(
($this->_fillStyle['direction'] == 'radial' ?
$this->_fillStyle['start'] :
$this->_fillStyle['end']
)
);
$redIncrement = ($endColor[0] - $startColor[0]) / $count;
$greenIncrement = ($endColor[1] - $startColor[1]) / $count;
$blueIncrement = ($endColor[2] - $startColor[2]) / $count;
$color = false;
for ($i = 0; $i < $count; $i ++) {
unset($color);
if ($i == 0) {
$color = $startColor;
unset($color[3]);
} else {
$color[0] = round(($redIncrement * $i) +
$redIncrement + $startColor[0]);
$color[1] = round(($greenIncrement * $i) +
$greenIncrement + $startColor[1]);
$color[2] = round(($blueIncrement * $i) +
$blueIncrement + $startColor[2]);
}
$color = Image_Canvas_Color::allocateColor(
$this->_tileImage,
$color
);
switch ($this->_fillStyle['direction']) {
case 'horizontal':
ImageLine($this->_tileImage,
$x0 + $i,
$y0,
$x0 + $i,
$y1, $color);
break;
case 'vertical':
ImageLine($this->_tileImage,
$x0,
$y1 - $i,
$x1,
$y1 - $i, $color);
break;
case 'horizontal_mirror':
if (($x0 + $i) <= ($x1 - $i)) {
ImageLine($this->_tileImage,
$x0 + $i,
$y0,
$x0 + $i,
$y1, $color);
ImageLine($this->_tileImage,
$x1 - $i,
$y0,
$x1 - $i,
$y1, $color);
}
break;
case 'vertical_mirror':
if (($y0 + $i) <= ($y1 - $i)) {
ImageLine($this->_tileImage,
$x0,
$y0 + $i,
$x1,
$y0 + $i, $color);
ImageLine($this->_tileImage,
$x0,
$y1 - $i,
$x1,
$y1 - $i, $color);
}
break;
case 'diagonal_tl_br':
if (($i > $width) && ($i > $height)) {
$polygon = array (
$x1, $y0 + $i - $width - 1,
$x1, $y1,
$x0 + $i - $height - 1, $y1);
} elseif ($i > $width) {
$polygon = array (
$x0, $y0 + $i,
$x0, $y1,
$x1, $y1,
$x1, $y0 + $i - $width - 1);
} elseif ($i > $height) {
$polygon = array (
$x0 + $i - $height - 1, $y1,
$x1, $y1,
$x1, $y0,
$x0 + $i, $y0);
} else {
$polygon = array (
$x0, $y0 + $i,
$x0, $y1,
$x1, $y1,
$x1, $y0,
$x0 + $i, $y0);
}
ImageFilledPolygon(
$this->_tileImage,
$polygon,
count($polygon) / 2,
$color
);
break;
case 'diagonal_bl_tr':
if (($i > $width) && ($i > $height)) {
$polygon = array (
$x1, $y1 - $i + $width - 1,
$x1, $y0,
$x0 + $i - $height - 1, $y0);
} elseif ($i > $width) {
$polygon = array (
$x0, $y1 - $i,
$x0, $y0,
$x1, $y0,
$x1, $y1 - $i + $width - 1);
} elseif ($i > $height) {
$polygon = array (
$x0 + $i - $height - 1, $y0,
$x1, $y0,
$x1, $y1,
$x0 + $i, $y1);
} else {
$polygon = array (
$x0, $y1 - $i,
$x0, $y0,
$x1, $y0,
$x1, $y1,
$x0 + $i, $y1);
}
ImageFilledPolygon(
$this->_tileImage,
$polygon,
count($polygon) / 2,
$color
);
break;
case 'radial':
if (($this->_gd2) && ($i < $count)) {
ImageFilledEllipse(
$this->_tileImage,
$x0 + $width / 2,
$y0 + $height / 2,
$count - $i,
$count - $i,
$color
);
}
break;
}
}
ImageSetTile($this->_canvas, $this->_tileImage);
return IMG_COLOR_TILED;
} else {
return $this->_color($this->_fillStyle);
}
} else {
return $this->_color($fillStyle);
}
}
/**
* Sets an image that should be used for filling
*
* @param string $filename The filename of the image to fill with
*/
function setFillImage($filename)
{
$this->_fillStyle =& $this->_getGD($filename);
}
/**
* Sets the font options.
*
* The $font array may have the following entries:
*
* 'ttf' = the .ttf file (either the basename, filename or full path)
* If 'ttf' is specified, then the following can be specified
*
* 'size' = size in pixels
*
* 'angle' = the angle with which to write the text
*
* @param array $font The font options.
*/
function setFont($fontOptions)
{
parent::setFont($fontOptions);
if (isset($this->_font['ttf'])) {
$this->_font['file'] = str_replace('\\', '/', Image_Canvas_Tool::fontMap($this->_font['ttf']));
} elseif (!isset($this->_font['font'])) {
$this->_font['font'] = 1;
}
if (!isset($this->_font['color'])) {
$this->_font['color'] = 'black';
}
if ((isset($this->_font['angle'])) && ($this->_font['angle'] === false)) {
$this->_font['angle'] = 0;
}
}
/**
* Calculate pixels on a line
*
* @param int $x0 X start point
* @param int $y0 X start point
* @param int $x1 X end point
* @param int $y1 Y end point
* @return array An associated array of x,y points with all pixels on the
* line
* @access private
*/
function &_linePixels($x0, $y0, $x1, $y1)
{
$pixels = array();
if (abs($x0 - $x1) > abs($y0 - $y1)) {
if ($x1 != $x0) {
$m = ($y1 - $y0) / ($x1 - $x0);
} else {
$m = 0;
}
$b = $y0 - $m * $x0;
$strx = min($x0, $x1);
$endx = max($x0, $x1);
for ($x = $strx; $x <= $endx; $x++) {
$pixels[] = array('X' => $x, 'Y' => ($m * $x + $b));
}
} else {
if ($y1 != $y0) {
$m = ($x1 - $x0) / ($y1 - $y0);
} else {
$m = 0;
}
$b = $x0 - $m * $y0;
$stry = min($y0, $y1);
$endy = max($y0, $y1);
for ($y = $stry; $y <= $endy; $y++) {
$pixels[] = array('X' => ($m * $y + $b), 'Y' => $y);
}
}
return $pixels;
}
/**
* Draws an antialiased line
*
* @param int $x0 X start point
* @param int $y0 X start point
* @param int $x1 X end point
* @param int $y1 Y end point
* @param mixed $color The line color, can be omitted
* @access private
*/
function _antialiasedLine($x0, $y0, $x1, $y1, $color = false)
{
if (($line = $this->_getLineStyle($color)) !== false) {
if ($line >= 0) {
$line = ImageColorsForIndex($this->_canvas, $line);
$pixels = &$this->_linePixels($x0, $y0, $x1, $y1);
foreach ($pixels as $point) {
$this->_antialiasedPixel($point['X'], $point['Y'], $line);
}
unset($pixels);
}
}
}
/**
* Draws an antialiased pixel
*
* @param int $x X point
* @param int $y Y point
* @param mixed $color The pixel color
* @access private
*/
function _antialiasedPixel($x, $y, $color)
{
$fx = floor($x);
$fy = floor($y);
$cx = ceil($x);
$cy = ceil($y);
$xa = $x - $fx;
$xb = $cx - $x;
$ya = $y - $fy;
$yb = $cy - $y;
if (($cx == $fx) && ($cy == $fy)) {
$this->_antialisedSubPixel($fx, $fy, 0.0, 1.0, $color);
} else {
$this->_antialisedSubPixel($fx, $fy, $xa + $ya, $xb + $yb, $color);
if ($cy != $fy) {
$this->_antialisedSubPixel($fx, $cy, $xa + $yb, $xb + $ya, $color);
}
if ($cx != $fx) {
$this->_antialisedSubPixel($cx, $fy, $xb + $ya, $xa + $yb, $color);
if ($cy != $fy) {
$this->_antialisedSubPixel($cx, $cy, $xb + $yb, $xa + $ya, $color);
}
}
}
}
/**
* Antialias'es the pixel around x,y with weights a,b
*
* @param int $x X point
* @param int $y Y point
* @param int $a The weight of the current color
* @param int $b The weight of the applied/wanted color
* @param mixed $color The pixel color
* @access private
*/
function _antialisedSubPixel($x, $y, $a, $b, $color)
{
$x = $this->_getX($x);
$y = $this->_getX($y);
if (($x >=0 ) && ($y >= 0) && ($x < $this->getWidth()) && ($y < $this->getHeight())) {
$tempColor = ImageColorsForIndex($this->_canvas, ImageColorAt($this->_canvas, $x, $y));
$newColor[0] = min(255, round($tempColor['red'] * $a + $color['red'] * $b));
$newColor[1] = min(255, round($tempColor['green'] * $a + $color['green'] * $b));
$newColor[2] = min(255, round($tempColor['blue'] * $a + $color['blue'] * $b));
//$newColor[3] = 0;
$color = '#';
foreach ($newColor as $acolor) {
$color .= sprintf('%02s', dechex($acolor));
}
$newColor = $this->_color($color);//,'rgb(' . $newColor[0] . ',' . $newColor[1] . ',' . $newColor[2] .')';
ImageSetPixel($this->_canvas, $x, $y, $newColor);
}
}
/**
* Draw a line end
*
* Parameter array:
*
* 'x': int X point
*
* 'y': int Y point
*
* 'end': string The end type of the end
*
* 'size': int The size of the end
*
* 'color': string The color of the end
*
* 'angle': int [optional] The angle with which to draw the end
*
* @param array $params Parameter array
*/
function drawEnd($params)
{
$x = $this->_getX($params['x']);
$y = $this->_getY($params['y']);
$size = $params['size'];
//var_dump($params);
$angle = deg2rad((isset($params['angle']) ? $params['angle'] : 0));
$pi2 = pi() / 2;
switch ($params['end']) {
case 'lollipop':
case 'circle':
$this->ellipse(
array(
'x' => $x,
'y' => $y,
'rx' => $size / 2,
'ry' => $size / 2,
'fill' => $params['color'],
'line' => $params['color']
)
);
break;
case 'diamond':
$x0 = round($params['x'] + cos($angle) * $size * 0.65);
$y0 = round($params['y'] - sin($angle) * $size * 0.65);
$shape = array(
$x0 + round(cos($angle) * $size * 0.65),
$y0 - round(sin($angle) * $size * 0.65),
$x0 + round(cos($angle + $pi2) * $size * 0.65),
$y0 - round(sin($angle + $pi2) * $size * 0.65),
$x0 + round(cos($angle + pi()) * $size * 0.65),
$y0 - round(sin($angle + pi()) * $size * 0.65),
$x0 + round(cos($angle + 3 * $pi2) * $size * 0.65),
$y0 - round(sin($angle + 3 * $pi2) * $size * 0.65)
);
break;
case 'line':
$this->line(
array(
'x0' => $x + round(cos($angle + $pi2) * $size / 2),
'y0' => $y - round(sin($angle + $pi2) * $size / 2),
'x1' => $x + round(cos($angle + 3 * $pi2) * $size / 2),
'y1' => $y - round(sin($angle + 3 * $pi2) * $size / 2),
'color' => $params['color']
)
);
break;
case 'box':
case 'rectangle':
$x0 = round($params['x'] + cos($angle) * $size / 2);
$y0 = round($params['y'] - sin($angle) * $size / 2);
$pi4 = pi() / 4;
$shape = array(
$x0 + round(cos($angle + $pi4) * $size / 2),
$y0 - round(sin($angle + $pi4) * $size / 2),
$x0 + round(cos($angle + $pi2 + $pi4) * $size / 2),
$y0 - round(sin($angle + $pi2 + $pi4) * $size / 2),
$x0 + round(cos($angle + pi() + $pi4) * $size / 2),
$y0 - round(sin($angle + pi() + $pi4) * $size / 2),
$x0 + round(cos($angle + 3 * $pi2 + $pi4) * $size / 2),
$y0 - round(sin($angle + 3 * $pi2 + $pi4) * $size / 2)
);
break;
case 'arrow':
$shape = array(
$x + cos($angle) * $size,
$y - sin($angle) * $size,
$x + cos($angle + $pi2) * $size * 0.4,
$y - sin($angle + $pi2) * $size * 0.4,
$x + cos($angle + 3 * $pi2) * $size * 0.4,
$y - sin($angle + 3 * $pi2) * $size * 0.4,
);
break;
case 'arrow2':
$shape = array(
$x + round(cos($angle) * $size),
$y - round(sin($angle) * $size),
$x + round(cos($angle + $pi2 + deg2rad(45)) * $size),
$y - round(sin($angle + $pi2 + deg2rad(45)) * $size),
$x,
$y,
$x + round(cos($angle + 3 * $pi2 - deg2rad(45)) * $size),
$y - round(sin($angle + 3 * $pi2 - deg2rad(45)) * $size),
);
break;
}
if (isset($shape)) {
// output the shape
if (($fill = $this->_getFillStyle($params['color'])) !== false) {
ImageFilledPolygon($this->_canvas, $shape, count($shape)/2, $fill);
}
}
parent::drawEnd($params);
}
/**
* Draw a line
*
* Parameter array:
*
* 'x0': int X start point
*
* 'y0': int Y start point
*
* 'x1': int X end point
*
* 'y1': int Y end point
*
* 'color': mixed [optional] The line color
*
* @param array $params Parameter array
*/
function line($params)
{
$x0 = $this->_getX($params['x0']);
$y0 = $this->_getY($params['y0']);
$x1 = $this->_getX($params['x1']);
$y1 = $this->_getY($params['y1']);
$color = (isset($params['color']) ? $params['color'] : false);
$x0 = $this->_getX($x0);
$y0 = $this->_getY($y0);
$x1 = $this->_getX($x1);
$y1 = $this->_getY($y1);
if (($this->_antialias === 'driver') && ($x0 != $x1) && ($y0 != $y1)) {
$this->_antialiasedLine($x0, $y0, $x1, $y1, $color);
} elseif (($line = $this->_getLineStyle($color)) !== false) {
ImageLine($this->_canvas, $x0, $y0, $x1, $y1, $line);
}
parent::line($params);
}
/**
* Parameter array:
*
* 'connect': bool [optional] Specifies whether the start point should be
* connected to the endpoint (closed polygon) or not (connected line)
*
* 'fill': mixed [optional] The fill color
*
* 'line': mixed [optional] The line color
* @param array $params Parameter array
*/
function polygon($params)
{
include_once 'Image/Canvas/Tool.php';
$connectEnds = (isset($params['connect']) ? $params['connect'] : false);
$fillColor = (isset($params['fill']) ? $params['fill'] : false);
$lineColor = (isset($params['line']) ? $params['line'] : false);
if (!$connectEnds) {
$fillColor = 'transparent';
}
$style = $this->_getLineStyle($lineColor) . $this->_getFillStyle($fillColor);
$lastPoint = false;
foreach ($this->_polygon as $point) {
if (($lastPoint) && (isset($lastPoint['P1X'])) &&
(isset($lastPoint['P1Y'])) && (isset($lastPoint['P2X'])) &&
(isset($lastPoint['P2Y'])))
{
$dx = abs($point['X'] - $lastPoint['X']);
$dy = abs($point['Y'] - $lastPoint['Y']);
$d = sqrt($dx * $dx + $dy * $dy);
if ($d > 0) {
$interval = 1 / $d;
for ($t = 0; $t <= 1; $t = $t + $interval) {
$x = Image_Canvas_Tool::bezier(
$t,
$lastPoint['X'],
$lastPoint['P1X'],
$lastPoint['P2X'],
$point['X']
);
$y = Image_Canvas_Tool::bezier(
$t,
$lastPoint['Y'],
$lastPoint['P1Y'],
$lastPoint['P2Y'],
$point['Y']
);
if (!isset($low['X'])) {
$low['X'] = $x;
} else {
$low['X'] = min($x, $low['X']);
}
if (!isset($high['X'])) {
$high['X'] = $x;
} else {
$high['X'] = max($x, $high['X']);
}
if (!isset($low['Y'])) {
$low['Y'] = $y;
} else {
$low['Y'] = min($y, $low['Y']);
}
if (!isset($high['Y'])) {
$high['Y'] = $y;
} else {
$high['Y'] = max($y, $high['Y']);
}
$polygon[] = $x;
$polygon[] = $y;
}
if (($t - $interval) < 1) {
$x = Image_Canvas_Tool::bezier(
1,
$lastPoint['X'],
$lastPoint['P1X'],
$lastPoint['P2X'],
$point['X']
);
$y = Image_Canvas_Tool::bezier(
1,
$lastPoint['Y'],
$lastPoint['P1Y'],
$lastPoint['P2Y'],
$point['Y']
);
$polygon[] = $x;
$polygon[] = $y;
}
}
} else {
if (!isset($low['X'])) {
$low['X'] = $point['X'];
} else {
$low['X'] = min($point['X'], $low['X']);
}
if (!isset($high['X'])) {
$high['X'] = $point['X'];
} else {
$high['X'] = max($point['X'], $high['X']);
}
if (!isset($low['Y'])) {
$low['Y'] = $point['Y'];
} else {
$low['Y'] = min($point['Y'], $low['Y']);
}
if (!isset($high['Y'])) {
$high['Y'] = $point['Y'];
} else {
$high['Y'] = max($point['Y'], $high['Y']);
}
$polygon[] = $point['X'];
$polygon[] = $point['Y'];
}
$lastPoint = $point;
}
if ((isset($polygon)) && (is_array($polygon))) {
if ($connectEnds) {
if (($fill = $this->_getFillStyle($fillColor, $low['X'], $low['Y'], $high['X'], $high['Y'])) !== false) {
ImageFilledPolygon($this->_canvas, $polygon, count($polygon)/2, $fill);
}
if ($this->_antialias === 'driver') {
$pfirst = $p0 = false;
reset($polygon);
while (list(, $x) = each($polygon)) {
list(, $y) = each($polygon);
if ($p0 !== false) {
$this->_antialiasedLine($p0['X'], $p0['Y'], $x, $y, $lineColor);
}
if ($pfirst === false) {
$pfirst = array('X' => $x, 'Y' => $y);
}
$p0 = array('X' => $x, 'Y' => $y);;
}
$this->_antialiasedLine($p0['X'], $p0['Y'], $pfirst['X'], $pfirst['Y'], $lineColor);
} elseif (($line = $this->_getLineStyle($lineColor)) !== false) {
ImagePolygon($this->_canvas, $polygon, count($polygon)/2, $line);
}
} else {
$prev_point = false;
if ($this->_antialias === 'driver') {
reset($polygon);
while (list(, $x) = each($polygon)) {
list(, $y) = each($polygon);
if ($prev_point) {
$this->_antialiasedLine(
$prev_point['X'],
$prev_point['Y'],
$x,
$y,
$lineColor
);
}
$prev_point = array('X' => $x, 'Y' => $y);;
}
} elseif (($line = $this->_getLineStyle($lineColor)) !== false) {
reset($polygon);
while (list(, $x) = each($polygon)) {
list(, $y) = each($polygon);
if ($prev_point) {
ImageLine(
$this->_canvas,
$prev_point['X'],
$prev_point['Y'],
$x,
$y,
$line
);
}
$prev_point = array('X' => $x, 'Y' => $y);;
}
}
}
}
parent::polygon($params);
}
/**
* Draw a rectangle
*
* Parameter array:
*
* 'x0': int X start point
*
* 'y0': int Y start point
*
* 'x1': int X end point
*
* 'y1': int Y end point
*
* 'fill': mixed [optional] The fill color
*
* 'line': mixed [optional] The line color
*
* @param array $params Parameter array
*/
function rectangle($params)
{
$x0 = $this->_getX($params['x0']);
$y0 = $this->_getY($params['y0']);
$x1 = $this->_getX($params['x1']);
$y1 = $this->_getY($params['y1']);
$fillColor = (isset($params['fill']) ? $params['fill'] : false);
$lineColor = (isset($params['line']) ? $params['line'] : false);
if (($fill = $this->_getFillStyle($fillColor, $x0, $y0, $x1, $y1)) !== false) {
ImageFilledRectangle($this->_canvas, $x0, $y0, $x1, $y1, $fill);
}
if (($line = $this->_getLineStyle($lineColor)) !== false) {
ImageRectangle($this->_canvas, $x0, $y0, $x1, $y1, $line);
}
parent::rectangle($params);
}
/**
* Draw an ellipse
*
* Parameter array:
*
* 'x': int X center point
*
* 'y': int Y center point
*
* 'rx': int X radius
*
* 'ry': int Y radius
*
* 'fill': mixed [optional] The fill color
*
* 'line': mixed [optional] The line color
*
* @param array $params Parameter array
*/
function ellipse($params)
{
$x = $this->_getX($params['x']);
$y = $this->_getY($params['y']);
$rx = $this->_getX($params['rx']);
$ry = $this->_getY($params['ry']);
$fillColor = (isset($params['fill']) ? $params['fill'] : false);
$lineColor = (isset($params['line']) ? $params['line'] : false);
if (($fill = $this->_getFillStyle($fillColor, $x - $rx, $y - $ry, $x + $rx, $y + $ry)) !== false) {
ImageFilledEllipse($this->_canvas, $x, $y, $rx * 2, $ry * 2, $fill);
}
if (($line = $this->_getLineStyle($lineColor)) !== false) {
ImageEllipse($this->_canvas, $x, $y, $rx * 2, $ry * 2, $line);
}
parent::ellipse($params);
}
/**
* Draw a pie slice
*
* Parameter array:
*
* 'x': int X center point
*
* 'y': int Y center point
*
* 'rx': int X radius
*
* 'ry': int Y radius
*
* 'v1': int The starting angle (in degrees)
*
* 'v2': int The end angle (in degrees)
*
* 'srx': int [optional] Starting X-radius of the pie slice (i.e. for a doughnut)
*
* 'sry': int [optional] Starting Y-radius of the pie slice (i.e. for a doughnut)
*
* 'fill': mixed [optional] The fill color
*
* 'line': mixed [optional] The line color
*
* @param array $params Parameter array
*/
function pieslice($params)
{
$x = $this->_getX($params['x']);
$y = $this->_getY($params['y']);
$rx = $params['rx'];
$ry = $params['ry'];
$v1 = $params['v1'];
$v2 = $params['v2'];
$srx = (isset($params['srx']) ? $params['srx'] : 0);
$sry = (isset($params['sry']) ? $params['sry'] : 0);
$fillColor = (isset($params['fill']) ? $params['fill'] : false);
$lineColor = (isset($params['line']) ? $params['line'] : false);
$dA = 0.1;
if (($srx !== false) && ($sry !== false)) {
$angle = max($v1, $v2);
while ($angle >= min($v1, $v2)) {
$polygon[] = ($x + $srx * cos(deg2rad($angle % 360)));
$polygon[] = ($y + $sry * sin(deg2rad($angle % 360)));
$angle -= $dA;
}
if (($angle + $dA) > min($v1, $v2)) {
$polygon[] = ($x + $srx * cos(deg2rad(min($v1, $v2) % 360)));
$polygon[] = ($y + $sry * sin(deg2rad(min($v1, $v2) % 360)));
}
} else {
$polygon[] = $x;
$polygon[] = $y;
}
$angle = min($v1, $v2);
while ($angle <= max($v1, $v2)) {
$polygon[] = ($x + $rx * cos(deg2rad($angle % 360)));
$polygon[] = ($y + $ry * sin(deg2rad($angle % 360)));
$angle += $dA;
}
if (($angle - $dA) < max($v1, $v2)) {
$polygon[] = ($x + $rx * cos(deg2rad(max($v1, $v2) % 360)));
$polygon[] = ($y + $ry * sin(deg2rad(max($v1, $v2) % 360)));
}
if ((($fill = $this->_getFillStyle($fillColor, $x - $rx - 1, $y - $ry - 1, $x + $rx + 1, $y + $ry + 1)) !== false) && (count($polygon) > 2)) {
ImageFilledPolygon($this->_canvas, $polygon, count($polygon) / 2, $fill);
}
if (($line = $this->_getLineStyle($lineColor)) !== false) {
ImagePolygon($this->_canvas, $polygon, count($polygon) / 2, $line);
}
parent::pieSlice($params);
}
/**
* Get the width of a text,
*
* @param string $text The text to get the width of
* @return int The width of the text
*/
function textWidth($text)
{
if (isset($this->_font['file'])) {
$angle = 0;
if (isset($this->_font['angle'])) {
$angle = $this->_font['angle'];
}
$width = 0;
$lines = explode("\n", $text);
foreach ($lines as $line) {
$bounds = ImageTTFBBox(
$this->_font['size'],
$angle,
$this->_font['file'],
$text
);
$x0 = min($bounds[0], $bounds[2], $bounds[4], $bounds[6]);
$x1 = max($bounds[0], $bounds[2], $bounds[4], $bounds[6]);
$width = max(abs($x0 - $x1), $width);
}
return $width;
} else {
if ((isset($this->_font['vertical'])) && ($this->_font['vertical'])) {
return ImageFontHeight($this->_font['font']) * (substr_count($text, "\n") + 1);
} else {
$width = 0;
$lines = explode("\n", $text);
foreach ($lines as $line) {
$width = max($width, ImageFontWidth($this->_font['font']) * strlen($line));
}
return $width;
}
}
}
/**
* Get the height of a text.
*
* Note! This method can give some peculiar results, since ImageTTFBBox() returns the total
* bounding box of a text, where ImageTTF() writes the text on the baseline of the text, that
* is 'g', 'p', 'q' and other letters that dig under the baseline will appear to have a larger
* height than they actually do. Have a look at the tests/text.php test case - the first two
* columns, 'left and 'center', both look alright, whereas the last column, 'right', appear
* with a larger space between the first text and the second. This is because the total height
* is actually smaller by exactly the number of pixels that the 'g' digs under the baseline.
* Remove the 'g' from the text and they appear correct.
*
* @param string $text The text to get the height of
* @param bool $force Force the method to calculate the size
* @return int The height of the text
*/
function textHeight($text, $force = false)
{
if (isset($this->_font['file'])) {
$angle = 0;
if (isset($this->_font['angle'])) {
$angle = $this->_font['angle'];
}
$linebreaks = substr_count($text, "\n");
if (($angle == 0) && ($force === false)) {
/*
* if the angle is 0 simply return the size, due to different
* heights for example for x-axis labels, making the labels
* _not_ appear as written on the same baseline
*/
return $this->_font['size'] + ($this->_font['size'] + 2) * $linebreaks;
}
$height = 0;
$lines = explode("\n", $text);
foreach ($lines as $line) {
$bounds = ImageTTFBBox(
$this->_font['size'],
$angle,
$this->_font['file'],
$line
);
$y0 = min($bounds[1], $bounds[3], $bounds[5], $bounds[7]);
$y1 = max($bounds[1], $bounds[3], $bounds[5], $bounds[7]);
$height += abs($y0 - $y1);
}
return $height + $linebreaks * 2;
} else {
if ((isset($this->_font['vertical'])) && ($this->_font['vertical'])) {
$width = 0;
$lines = explode("\n", $text);
foreach ($lines as $line) {
$width = max($width, ImageFontWidth($this->_font['font']) * strlen($line));
}
return $width;
} else {
return ImageFontHeight($this->_font['font']) * (substr_count($text, "\n") + 1);
}
}
}
/**
* Calculated the absolute bottom-left position of the text, by simulating
* the calculation of the baseline drop.
* @param int $x The relative x position to write the text
* @param int $y The relative y position to write the text
* @param string $text The text to write
* @param array $align The alignment of the text relative to (x, y)
* @returns array An array containing the absolute x and y positions
* @access private
*/
function _getAbsolutePosition($x, $y, $text, $align)
{
if ($this->_font['angle'] > 0) {
$w0 = $this->textWidth($text);
$h0 = $this->textHeight($text);
if ($align['vertical'] == 'bottom') {
$dy = $y - $h0;
}
else if ($align['vertical'] == 'center') {
$dy = $y - $h0 / 2;
}
else if ($align['vertical'] == 'top') {
$dy = $y;
}
if ($align['horizontal'] == 'right') {
$dx = $x - $w0;
}
else if ($align['horizontal'] == 'center') {
$dx = $x - $w0 / 2;
}
else if ($align['horizontal'] == 'left') {
$dx = $x;
}
if (($this->_font['angle'] < 180) && ($this->_font['angle'] >= 0)) {
$dy += $h0;
}
if (($this->_font['angle'] >= 90) && ($this->_font['angle'] < 270)) {
$dx += $w0;
}
}
else {
// get the maximum size of normal text above base line - sampled by 'Al'
$size1 = imagettfbbox($this->_font['size'], 0, $this->_font['file'], 'Al');
$height1 = abs($size1[7] - $size1[1]);
// get the maximum size of all text above base and below line - sampled by 'AlgjpqyQ'
$size2 = imagettfbbox($this->_font['size'], 0, $this->_font['file'], 'AlgjpqyQ');
$height2 = abs($size2[7] - $size2[1]);
// get the size of the text, simulating height above baseline beinh max, by sampling using 'Al'
$size = imagettfbbox($this->_font['size'], 0, $this->_font['file'], 'Al' . $text);
$height = abs($size[7] - $size[1]);
// if all text is above baseline, i.e. height of text compares to max height above (within 10%)
if (abs($height - $height1)/$height1 < 0.1) {
$dHeight = 0;
}
else {
$dHeight = abs($height2 - $height1);
}
// specifies the bottom-left corner!
$dx = $x + sin(deg2rad($this->_font['angle'])) * $dHeight;
$dy = $y - cos(deg2rad($this->_font['angle'])) * $dHeight;
if ($align['vertical'] == 'top') {
$dy += $height;
}
else if ($align['vertical'] == 'center') {
$dy += ($height + $dHeight) / 2;
}
else if ($align['vertical'] == 'bottom') {
$dy += $dHeight;
}
if ($align['horizontal'] == 'center') {
$factor = 0.5;
}
else if ($align['horizontal'] == 'right') {
$factor = 1;
}
else {
$factor = 0;
}
if ($factor != 0) {
$size = imagettfbbox($this->_font['size'], 0, $this->_font['file'], $text);
$w0 = abs($size[2] - $size[0]);
$dx -= cos(deg2rad($this->_font['angle'])) * $w0 * $factor;
$dy += sin(deg2rad($this->_font['angle'])) * $w0 * $factor;
}
}
return array('x' => $dx, 'y' => $dy);
}
/**
* Writes text
*
* Parameter array:
*
* 'x': int X-point of text
*
* 'y': int Y-point of text
*
* 'text': string The text to add
*
* 'alignment': array [optional] Alignment
*
* 'color': mixed [optional] The color of the text
*/
function addText($params)
{
$x0 = $this->_getX($params['x']);
$y0 = $this->_getY($params['y']);
$text = $params['text'];
$color = (isset($params['color']) ? $params['color'] : false);
$alignment = (isset($params['alignment']) ? $params['alignment'] : false);
$text = str_replace("\r", '', $text);
if (!is_array($alignment)) {
$alignment = array('vertical' => 'top', 'horizontal' => 'left');
}
if (!isset($alignment['vertical'])) {
$alignment['vertical'] = 'top';
}
if (!isset($alignment['horizontal'])) {
$alignment['horizontal'] = 'left';
}
if (isset($this->_font['size'])) {
$textHeight = $this->_font['size'] + 2;
}
else {
$textHeight = $this->textHeight('A');
}
$lines = explode("\n", $text);
foreach ($lines as $line) {
$x = $x0;
$y = $y0;
$y0 += $textHeight + 2;
if (($color === false) && (isset($this->_font['color']))) {
$color = $this->_font['color'];
}
if ($color != 'transparent') {
if (isset($this->_font['file'])) {
$result = $this->_getAbsolutePosition($x, $y, $line, $alignment);
ImageTTFText(
$this->_canvas,
$this->_font['size'],
$this->_font['angle'],
$result['x'],
$result['y'],
$this->_color($color),
$this->_font['file'],
$line
);
} else {
$width = $this->textWidth($line);
$height = $this->textHeight($line);
if ($alignment['horizontal'] == 'right') {
$x -= $width;
}
else if ($alignment['horizontal'] == 'center') {
$x -= $width / 2;
}
if ($alignment['vertical'] == 'bottom') {
$y -= $height;
}
else if ($alignment['vertical'] == 'center') {
$y -= $height / 2;
}
if ((isset($this->_font['vertical'])) && ($this->_font['vertical'])) {
ImageStringUp(
$this->_canvas,
$this->_font['font'],
$x,
$y + $this->textHeight($text),
$line,
$this->_color($color)
);
} else {
ImageString(
$this->_canvas,
$this->_font['font'],
$x,
$y,
$line,
$this->_color($color)
);
}
}
}
}
parent::addText($params);
}
/**
* Overlay image
*
* Parameter array:
*
* 'x': int X-point of overlayed image
*
* 'y': int Y-point of overlayed image
*
* 'filename': string The filename of the image to overlay
*
* 'width': int [optional] The width of the overlayed image (resizing if possible)
*
* 'height': int [optional] The height of the overlayed image (resizing if possible)
*
* 'alignment': array [optional] Alignment
*/
function image($params)
{
$x = $this->_getX($params['x']);
$y = $this->_getY($params['y']);
$filename = $params['filename'];
$width = (isset($params['width']) ? $params['width'] : false);
$height = (isset($params['height']) ? $params['height'] : false);
$alignment = (isset($params['alignment']) ? $params['alignment'] : false);
if (!is_array($alignment)) {
$alignment = array('vertical' => 'top', 'horizontal' => 'left');
}
if (!isset($alignment['vertical'])) {
$alignment['vertical'] = 'top';
}
if (!isset($alignment['horizontal'])) {
$alignment['horizontal'] = 'left';
}
if (file_exists($filename)) {
if (strtolower(substr($filename, -4)) == '.png') {
$image = ImageCreateFromPNG($filename);
} elseif (strtolower(substr($filename, -4)) == '.gif') {
$image = ImageCreateFromGIF($filename);
} else {
$image = ImageCreateFromJPEG($filename);
}
$imgWidth = ImageSX($image);
$imgHeight = ImageSY($image);
$outputWidth = ($width !== false ? $width : $imgWidth);
$outputHeight = ($height !== false ? $height : $imgHeight);
if ($alignment['horizontal'] == 'right') {
$x -= $outputWidth;
} elseif ($alignment['horizontal'] == 'center') {
$x -= $outputWidth / 2;
}
if ($alignment['vertical'] == 'bottom') {
$y -= $outputHeight;
} elseif ($alignment['vertical'] == 'center') {
$y -= $outputHeight / 2;
}
if ((($width !== false) && ($width != $imgWidth)) ||
(($height !== false) && ($height != $imgHeight)))
{
if ($this->_gd2) {
ImageCopyResampled(
$this->_canvas,
$image,
$x,
$y,
0,
0,
$width,
$height,
$imgWidth,
$imgHeight
);
} else {
ImageCopyResized(
$this->_canvas,
$image,
$x,
$y,
0,
0,
$width,
$height,
$imgWidth,
$imgHeight
);
}
} else {
ImageCopy(
$this->_canvas,
$image,
$x,
$y,
0,
0,
$imgWidth,
$imgHeight
);
}
ImageDestroy($image);
}
parent::image($params);
}
/**
* Set clipping to occur
*
* Parameter array:
*
* 'x0': int X point of Upper-left corner
* 'y0': int X point of Upper-left corner
* 'x1': int X point of lower-right corner
* 'y1': int Y point of lower-right corner
*/
function setClipping($params = false)
{
if ($params === false) {
$index = count($this->_clipping) - 1;
if (isset($this->_clipping[$index])) {
$params = $this->_clipping[$index];
$canvas = $params['canvas'];
ImageCopy(
$canvas,
$this->_canvas,
min($params['x0'], $params['x1']),
min($params['y0'], $params['y1']),
min($params['x0'], $params['x1']),
min($params['y0'], $params['y1']),
abs($params['x1'] - $params['x0'] + 1),
abs($params['y1'] - $params['y0'] + 1)
);
$this->_canvas = $canvas;
unset($this->_clipping[$index]);
}
}
else {
$params['canvas'] = $this->_canvas;
if ($this->_gd2) {
$this->_canvas = ImageCreateTrueColor(
$this->_width,
$this->_height
);
if ($this->_alpha) {
ImageAlphaBlending($this->_canvas, true);
}
} else {
$this->_canvas = ImageCreate($this->_width, $this->_height);
}
if (($this->_gd2) && ($this->_antialias === 'native')) {
ImageAntialias($this->_canvas, true);
}
ImageCopy($this->_canvas, $params['canvas'], 0, 0, 0, 0, $this->_width, $this->_height);
$this->_clipping[count($this->_clipping)] = $params;
}
}
/**
* Get a canvas specific HTML tag.
*
* This method implicitly saves the canvas to the filename in the
* filesystem path specified and parses it as URL specified by URL path
*
* Parameter array:
*
* 'filename' string
*
* 'filepath': string Path to the file on the file system. Remember the final slash
*
* 'urlpath': string Path to the file available through an URL. Remember the final slash
*
* 'alt': string [optional] Alternative text on image
*
* 'cssclass': string [optional] The CSS Stylesheet class
*
* 'border': int [optional] The border width on the image
*/
function toHtml($params)
{
parent::toHtml($params);
return '<img src="' . $params['urlpath'] . $params['filename'] . '"' .
(isset($params['alt']) ? ' alt="' . $params['alt'] . '"' : '') .
(isset($params['cssclass']) ? ' class="' . $params['cssclass'] . '"' : '') .
(isset($params['border']) ? ' border="' . $params['border'] . '"' : '') .
(isset($this->_imageMap) ? ' usemap="#' . $params['filename'] . '"' : '') . '>' .
(isset($this->_imageMap) ? "\n" . $this->_imageMap->toHtml(array('name' => $params['filename'])) : '');
}
/**
* Resets the canvas.
*
* Include fillstyle, linestyle, thickness and polygon
* @access private
*/
function _reset()
{
if ($this->_gd2) {
ImageSetThickness($this->_canvas, 1);
}
if ($this->_tileImage != null) {
ImageDestroy($this->_tileImage);
$this->_tileImage = null;
}
parent::_reset();
$this->_font = array('font' => 1, 'color' => 'black');
}
/**
* Check which version of GD is installed
*
* @return int 0 if GD isn't installed, 1 if GD 1.x is installed and 2 if GD
* 2.x is installed
* @access private
*/
function _version()
{
$result = false;
if (function_exists('gd_info')) {
$info = gd_info();
$version = $info['GD Version'];
} else {
ob_start();
phpinfo(8);
$php_info = ob_get_contents();
ob_end_clean();
if (ereg("<td[^>]*>GD Version *<\/td><td[^>]*>([^<]*)<\/td>",
$php_info, $result))
{
$version = $result[1];
} else {
$version = null;
}
}
if (ereg('1\.[0-9]{1,2}', $version)) {
return 1;
} elseif (ereg('2\.[0-9]{1,2}', $version)) {
return 2;
} else {
return 0;
}
}
}
?>