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. // // See LICENSE.TXT file for more information. // ------------------------------------------------------------------- // // Description : // Static image methods used by the TCPDF class. // //============================================================+ /** * @file * This is a PHP class that contains static image methods for the TCPDF class.
* @package com.tecnick.tcpdf * @author Nicola Asuni * @version 1.0.005 */ /** * @class TCPDF_IMAGES * Static image methods used by the TCPDF class. * @package com.tecnick.tcpdf * @brief PHP class for generating PDF documents without requiring external extensions. * @version 1.0.005 * @author Nicola Asuni - info@tecnick.com */ class TCPDF_IMAGES { /** * Array of hinheritable SVG properties. * @since 5.0.000 (2010-05-02) * @public static */ public static $svginheritprop = array('clip-rule', 'color', 'color-interpolation', 'color-interpolation-filters', 'color-profile', 'color-rendering', 'cursor', 'direction', 'display', 'fill', 'fill-opacity', 'fill-rule', 'font', 'font-family', 'font-size', 'font-size-adjust', 'font-stretch', 'font-style', 'font-variant', 'font-weight', 'glyph-orientation-horizontal', 'glyph-orientation-vertical', 'image-rendering', 'kerning', 'letter-spacing', 'marker', 'marker-end', 'marker-mid', 'marker-start', 'pointer-events', 'shape-rendering', 'stroke', 'stroke-dasharray', 'stroke-dashoffset', 'stroke-linecap', 'stroke-linejoin', 'stroke-miterlimit', 'stroke-opacity', 'stroke-width', 'text-anchor', 'text-rendering', 'visibility', 'word-spacing', 'writing-mode'); // - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - /** * Return the image type given the file name or array returned by getimagesize() function. * @param $imgfile (string) image file name * @param $iminfo (array) array of image information returned by getimagesize() function. * @return string image type * @since 4.8.017 (2009-11-27) * @public static */ public static function getImageFileType($imgfile, $iminfo=array()) { $type = ''; if (isset($iminfo['mime']) AND !empty($iminfo['mime'])) { $mime = explode('/', $iminfo['mime']); if ((count($mime) > 1) AND ($mime[0] == 'image') AND (!empty($mime[1]))) { $type = strtolower(trim($mime[1])); } } if (empty($type)) { $fileinfo = pathinfo($imgfile); if (isset($fileinfo['extension']) AND (!TCPDF_STATIC::empty_string($fileinfo['extension']))) { $type = strtolower(trim($fileinfo['extension'])); } } if ($type == 'jpg') { $type = 'jpeg'; } return $type; } /** * Set the transparency for the given GD image. * @param $new_image (image) GD image object * @param $image (image) GD image object. * return GD image object. * @since 4.9.016 (2010-04-20) * @public static */ public static function setGDImageTransparency($new_image, $image) { // default transparency color (white) $tcol = array('red' => 255, 'green' => 255, 'blue' => 255); // transparency index $tid = imagecolortransparent($image); $palletsize = imagecolorstotal($image); if (($tid >= 0) AND ($tid < $palletsize)) { // get the colors for the transparency index $tcol = imagecolorsforindex($image, $tid); } $tid = imagecolorallocate($new_image, $tcol['red'], $tcol['green'], $tcol['blue']); imagefill($new_image, 0, 0, $tid); imagecolortransparent($new_image, $tid); return $new_image; } /** * Convert the loaded image to a PNG and then return a structure for the PDF creator. * This function requires GD library and write access to the directory defined on K_PATH_CACHE constant. * @param $image (image) Image object. * @param $tempfile (string) Temporary file name. * return image PNG image object. * @since 4.9.016 (2010-04-20) * @public static */ public static function _toPNG($image, $tempfile) { // turn off interlaced mode imageinterlace($image, 0); // create temporary PNG image imagepng($image, $tempfile); // remove image from memory imagedestroy($image); // get PNG image data $retvars = self::_parsepng($tempfile); // tidy up by removing temporary image unlink($tempfile); return $retvars; } /** * Convert the loaded image to a JPEG and then return a structure for the PDF creator. * This function requires GD library and write access to the directory defined on K_PATH_CACHE constant. * @param $image (image) Image object. * @param $quality (int) JPEG quality. * @param $tempfile (string) Temporary file name. * return image JPEG image object. * @public static */ public static function _toJPEG($image, $quality, $tempfile) { imagejpeg($image, $tempfile, $quality); imagedestroy($image); $retvars = self::_parsejpeg($tempfile); // tidy up by removing temporary image unlink($tempfile); return $retvars; } /** * Extract info from a JPEG file without using the GD library. * @param $file (string) image file to parse * @return array structure containing the image data * @public static */ public static function _parsejpeg($file) { // check if is a local file if (!@TCPDF_STATIC::file_exists($file)) { return false; } $a = getimagesize($file); if (empty($a)) { //Missing or incorrect image file return false; } if ($a[2] != 2) { // Not a JPEG file return false; } // bits per pixel $bpc = isset($a['bits']) ? intval($a['bits']) : 8; // number of image channels if (!isset($a['channels'])) { $channels = 3; } else { $channels = intval($a['channels']); } // default colour space switch ($channels) { case 1: { $colspace = 'DeviceGray'; break; } case 3: { $colspace = 'DeviceRGB'; break; } case 4: { $colspace = 'DeviceCMYK'; break; } default: { $channels = 3; $colspace = 'DeviceRGB'; break; } } // get file content $data = file_get_contents($file); // check for embedded ICC profile $icc = array(); $offset = 0; while (($pos = strpos($data, "ICC_PROFILE\0", $offset)) !== false) { // get ICC sequence length $length = (TCPDF_STATIC::_getUSHORT($data, ($pos - 2)) - 16); // marker sequence number $msn = max(1, ord($data[($pos + 12)])); // number of markers (total of APP2 used) $nom = max(1, ord($data[($pos + 13)])); // get sequence segment $icc[($msn - 1)] = substr($data, ($pos + 14), $length); // move forward to next sequence $offset = ($pos + 14 + $length); } // order and compact ICC segments if (count($icc) > 0) { ksort($icc); $icc = implode('', $icc); if ((ord($icc[36]) != 0x61) OR (ord($icc[37]) != 0x63) OR (ord($icc[38]) != 0x73) OR (ord($icc[39]) != 0x70)) { // invalid ICC profile $icc = false; } } else { $icc = false; } return array('w' => $a[0], 'h' => $a[1], 'ch' => $channels, 'icc' => $icc, 'cs' => $colspace, 'bpc' => $bpc, 'f' => 'DCTDecode', 'data' => $data); } /** * Extract info from a PNG file without using the GD library. * @param $file (string) image file to parse * @return array structure containing the image data * @public static */ public static function _parsepng($file) { $f = @fopen($file, 'rb'); if ($f === false) { // Can't open image file return false; } //Check signature if (fread($f, 8) != chr(137).'PNG'.chr(13).chr(10).chr(26).chr(10)) { // Not a PNG file return false; } //Read header chunk fread($f, 4); if (fread($f, 4) != 'IHDR') { //Incorrect PNG file return false; } $w = TCPDF_STATIC::_freadint($f); $h = TCPDF_STATIC::_freadint($f); $bpc = ord(fread($f, 1)); $ct = ord(fread($f, 1)); if ($ct == 0) { $colspace = 'DeviceGray'; } elseif ($ct == 2) { $colspace = 'DeviceRGB'; } elseif ($ct == 3) { $colspace = 'Indexed'; } else { // alpha channel fclose($f); return 'pngalpha'; } if (ord(fread($f, 1)) != 0) { // Unknown compression method fclose($f); return false; } if (ord(fread($f, 1)) != 0) { // Unknown filter method fclose($f); return false; } if (ord(fread($f, 1)) != 0) { // Interlacing not supported fclose($f); return false; } fread($f, 4); $channels = ($ct == 2 ? 3 : 1); $parms = '/DecodeParms << /Predictor 15 /Colors '.$channels.' /BitsPerComponent '.$bpc.' /Columns '.$w.' >>'; //Scan chunks looking for palette, transparency and image data $pal = ''; $trns = ''; $data = ''; $icc = false; $n = TCPDF_STATIC::_freadint($f); do { $type = fread($f, 4); if ($type == 'PLTE') { // read palette $pal = TCPDF_STATIC::rfread($f, $n); fread($f, 4); } elseif ($type == 'tRNS') { // read transparency info $t = TCPDF_STATIC::rfread($f, $n); if ($ct == 0) { // DeviceGray $trns = array(ord($t[1])); } elseif ($ct == 2) { // DeviceRGB $trns = array(ord($t[1]), ord($t[3]), ord($t[5])); } else { // Indexed if ($n > 0) { $trns = array(); for ($i = 0; $i < $n; ++ $i) { $trns[] = ord($t{$i}); } } } fread($f, 4); } elseif ($type == 'IDAT') { // read image data block $data .= TCPDF_STATIC::rfread($f, $n); fread($f, 4); } elseif ($type == 'iCCP') { // skip profile name $len = 0; while ((ord(fread($f, 1)) != 0) AND ($len < 80)) { ++$len; } // get compression method if (ord(fread($f, 1)) != 0) { // Unknown filter method fclose($f); return false; } // read ICC Color Profile $icc = TCPDF_STATIC::rfread($f, ($n - $len - 2)); // decompress profile $icc = gzuncompress($icc); fread($f, 4); } elseif ($type == 'IEND') { break; } else { TCPDF_STATIC::rfread($f, $n + 4); } $n = TCPDF_STATIC::_freadint($f); } while ($n); if (($colspace == 'Indexed') AND (empty($pal))) { // Missing palette fclose($f); return false; } fclose($f); return array('w' => $w, 'h' => $h, 'ch' => $channels, 'icc' => $icc, 'cs' => $colspace, 'bpc' => $bpc, 'f' => 'FlateDecode', 'parms' => $parms, 'pal' => $pal, 'trns' => $trns, 'data' => $data); } } // END OF TCPDF_IMAGES CLASS //============================================================+ // END OF FILE //============================================================+