MAX_LZW_BITS = 12; unset($this->Next, $this->Vals, $this->Stack, $this->Buf); $this->Next = range(0, (1 << $this->MAX_LZW_BITS) - 1); $this->Vals = range(0, (1 << $this->MAX_LZW_BITS) - 1); $this->Stack = range(0, (1 << ($this->MAX_LZW_BITS + 1)) - 1); $this->Buf = range(0, 279); } public function decompress($data, &$datLen) { $stLen = strlen($data); $datLen = 0; $ret = ''; $this->LZWCommand($data, true); while (($iIndex = $this->LZWCommand($data, false)) >= 0) $ret .= chr($iIndex); $datLen = $stLen - strlen($data); if ($iIndex != -2) return false; return $ret; } public function LZWCommand(&$data, $bInit) { if ($bInit) { $this->SetCodeSize = ord($data[0]); $data = substr($data, 1); $this->CodeSize = $this->SetCodeSize + 1; $this->ClearCode = 1 << $this->SetCodeSize; $this->EndCode = $this->ClearCode + 1; $this->MaxCode = $this->ClearCode + 2; $this->MaxCodeSize = $this->ClearCode << 1; $this->GetCode($data, $bInit); $this->Fresh = 1; for ($i = 0; $i < $this->ClearCode; $i++) { $this->Next[$i] = 0; $this->Vals[$i] = $i; } for (; $i < (1 << $this->MAX_LZW_BITS); $i++) { $this->Next[$i] = 0; $this->Vals[$i] = 0; } $this->sp = 0; return 1; } if ($this->Fresh) { $this->Fresh = 0; do { $this->FirstCode = $this->GetCode($data, $bInit); $this->OldCode = $this->FirstCode; } while ($this->FirstCode == $this->ClearCode); return $this->FirstCode; } if ($this->sp > 0) { $this->sp--; return $this->Stack[$this->sp]; } while (($Code = $this->GetCode($data, $bInit)) >= 0) { if ($Code == $this->ClearCode) { for ($i = 0; $i < $this->ClearCode; $i++) { $this->Next[$i] = 0; $this->Vals[$i] = $i; } for (; $i < (1 << $this->MAX_LZW_BITS); $i++) { $this->Next[$i] = 0; $this->Vals[$i] = 0; } $this->CodeSize = $this->SetCodeSize + 1; $this->MaxCodeSize = $this->ClearCode << 1; $this->MaxCode = $this->ClearCode + 2; $this->sp = 0; $this->FirstCode = $this->GetCode($data, $bInit); $this->OldCode = $this->FirstCode; return $this->FirstCode; } if ($Code == $this->EndCode) return -2; $InCode = $Code; if ($Code >= $this->MaxCode) { $this->Stack[$this->sp] = $this->FirstCode; $this->sp++; $Code = $this->OldCode; } while ($Code >= $this->ClearCode) { $this->Stack[$this->sp] = $this->Vals[$Code]; $this->sp++; if ($Code == $this->Next[$Code]) // Circular table entry, big GIF Error! return -1; $Code = $this->Next[$Code]; } $this->FirstCode = $this->Vals[$Code]; $this->Stack[$this->sp] = $this->FirstCode; $this->sp++; if (($Code = $this->MaxCode) < (1 << $this->MAX_LZW_BITS)) { $this->Next[$Code] = $this->OldCode; $this->Vals[$Code] = $this->FirstCode; $this->MaxCode++; if (($this->MaxCode >= $this->MaxCodeSize) && ($this->MaxCodeSize < (1 << $this->MAX_LZW_BITS))) { $this->MaxCodeSize *= 2; $this->CodeSize++; } } $this->OldCode = $InCode; if ($this->sp > 0) { $this->sp--; return $this->Stack[$this->sp]; } } return $Code; } public function GetCode(&$data, $bInit) { if ($bInit) { $this->CurBit = 0; $this->LastBit = 0; $this->Done = 0; $this->LastByte = 2; return 1; } if (($this->CurBit + $this->CodeSize) >= $this->LastBit) { if ($this->Done) { // Ran off the end of my bits... if ($this->CurBit >= $this->LastBit) return 0; return -1; } $this->Buf[0] = $this->Buf[$this->LastByte - 2]; $this->Buf[1] = $this->Buf[$this->LastByte - 1]; $count = ord($data[0]); $data = substr($data, 1); if ($count) { for ($i = 0; $i < $count; $i++) $this->Buf[2 + $i] = ord($data{$i}); $data = substr($data, $count); } else $this->Done = 1; $this->LastByte = 2 + $count; $this->CurBit = ($this->CurBit - $this->LastBit) + 16; $this->LastBit = (2 + $count) << 3; } $iRet = 0; for ($i = $this->CurBit, $j = 0; $j < $this->CodeSize; $i++, $j++) $iRet |= (($this->Buf[intval($i / 8)] & (1 << ($i % 8))) != 0) << $j; $this->CurBit += $this->CodeSize; return $iRet; } } class gif_color_table { public $m_nColors; public $m_arColors; public function __construct() { unset($this->m_nColors, $this->m_arColors); } public function load($lpData, $num) { $this->m_nColors = 0; $this->m_arColors = array(); for ($i = 0; $i < $num; $i++) { $rgb = substr($lpData, $i * 3, 3); if (strlen($rgb) < 3) return false; $this->m_arColors[] = (ord($rgb[2]) << 16) + (ord($rgb[1]) << 8) + ord($rgb[0]); $this->m_nColors++; } return true; } public function toString() { $ret = ''; for ($i = 0; $i < $this->m_nColors; $i++) { $ret .= chr(($this->m_arColors[$i] & 0x000000FF)) . // R chr(($this->m_arColors[$i] & 0x0000FF00) >> 8) . // G chr(($this->m_arColors[$i] & 0x00FF0000) >> 16); // B } return $ret; } public function colorIndex($rgb) { $rgb = intval($rgb) & 0xFFFFFF; $r1 = ($rgb & 0x0000FF); $g1 = ($rgb & 0x00FF00) >> 8; $b1 = ($rgb & 0xFF0000) >> 16; $idx = -1; for ($i = 0; $i < $this->m_nColors; $i++) { $r2 = ($this->m_arColors[$i] & 0x000000FF); $g2 = ($this->m_arColors[$i] & 0x0000FF00) >> 8; $b2 = ($this->m_arColors[$i] & 0x00FF0000) >> 16; $d = abs($r2 - $r1) + abs($g2 - $g1) + abs($b2 - $b1); if (($idx == -1) || ($d < $dif)) { $idx = $i; $dif = $d; } } return $idx; } } class gif_file_header { public $m_lpVer, $m_nWidth, $m_nHeight, $m_bGlobalClr, $m_nColorRes; public $m_bSorted, $m_nTableSize, $m_nBgColor, $m_nPixelRatio; public $m_colorTable; public function __construct() { unset($this->m_lpVer, $this->m_nWidth, $this->m_nHeight, $this->m_bGlobalClr, $this->m_nColorRes); unset($this->m_bSorted, $this->m_nTableSize, $this->m_nBgColor, $this->m_nPixelRatio, $this->m_colorTable); } public function load($lpData, &$hdrLen) { $hdrLen = 0; $this->m_lpVer = substr($lpData, 0, 6); if (($this->m_lpVer != 'GIF87a') && ($this->m_lpVer != 'GIF89a')) return false; list ($this->m_nWidth, $this->m_nHeight) = array_values(unpack('v2', substr($lpData, 6, 4))); if (!$this->m_nWidth || !$this->m_nHeight) return false; $b = ord(substr($lpData, 10, 1)); $this->m_bGlobalClr = ($b & 0x80) ? true : false; $this->m_nColorRes = ($b & 0x70) >> 4; $this->m_bSorted = ($b & 0x08) ? true : false; $this->m_nTableSize = 2 << ($b & 0x07); $this->m_nBgColor = ord(substr($lpData, 11, 1)); $this->m_nPixelRatio = ord(substr($lpData, 12, 1)); $hdrLen = 13; if ($this->m_bGlobalClr) { $this->m_colorTable = new gif_color_table(); if (!$this->m_colorTable->load(substr($lpData, $hdrLen), $this->m_nTableSize)) return false; $hdrLen += 3 * $this->m_nTableSize; } return true; } } class gif_image_header { public $m_nLeft, $m_nTop, $m_nWidth, $m_nHeight, $m_bLocalClr; public $m_bInterlace, $m_bSorted, $m_nTableSize, $m_colorTable; public function __construct() { unset($this->m_nLeft, $this->m_nTop, $this->m_nWidth, $this->m_nHeight, $this->m_bLocalClr); unset($this->m_bInterlace, $this->m_bSorted, $this->m_nTableSize, $this->m_colorTable); } public function load($lpData, &$hdrLen) { $hdrLen = 0; // Get the width/height/etc. from the header. list ($this->m_nLeft, $this->m_nTop, $this->m_nWidth, $this->m_nHeight) = array_values(unpack('v4', substr($lpData, 0, 8))); if (!$this->m_nWidth || !$this->m_nHeight) return false; $b = ord($lpData[8]); $this->m_bLocalClr = ($b & 0x80) ? true : false; $this->m_bInterlace = ($b & 0x40) ? true : false; $this->m_bSorted = ($b & 0x20) ? true : false; $this->m_nTableSize = 2 << ($b & 0x07); $hdrLen = 9; if ($this->m_bLocalClr) { $this->m_colorTable = new gif_color_table(); if (!$this->m_colorTable->load(substr($lpData, $hdrLen), $this->m_nTableSize)) return false; $hdrLen += 3 * $this->m_nTableSize; } return true; } } class gif_image { public $m_disp, $m_bUser, $m_bTrans, $m_nDelay, $m_nTrans, $m_lpComm; public $m_gih, $m_data, $m_lzw; public function __construct() { unset($this->m_disp, $this->m_bUser, $this->m_nDelay, $this->m_nTrans, $this->m_lpComm, $this->m_data); $this->m_gih = new gif_image_header(); $this->m_lzw = new gif_lzw_compression(); } public function load($data, &$datLen) { $datLen = 0; while (true) { $b = ord($data[0]); $data = substr($data, 1); $datLen++; switch ($b) { // Extension... case 0x21: $len = 0; if (!$this->skipExt($data, $len)) return false; $datLen += $len; break; // Image... case 0x2C: // Load the header and color table. $len = 0; if (!$this->m_gih->load($data, $len)) return false; $data = substr($data, $len); $datLen += $len; // Decompress the data, and ride on home ;). $len = 0; if (!($this->m_data = $this->m_lzw->decompress($data, $len))) return false; $data = substr($data, $len); $datLen += $len; if ($this->m_gih->m_bInterlace) $this->deInterlace(); return true; case 0x3B: // EOF default: return false; } } return false; } public function skipExt(&$data, &$extLen) { $extLen = 0; $b = ord($data[0]); $data = substr($data, 1); $extLen++; switch ($b) { // Graphic Control... case 0xF9: $b = ord($data[1]); $this->m_disp = ($b & 0x1C) >> 2; $this->m_bUser = ($b & 0x02) ? true : false; $this->m_bTrans = ($b & 0x01) ? true : false; list ($this->m_nDelay) = array_values(unpack('v', substr($data, 2, 2))); $this->m_nTrans = ord($data[4]); break; // Comment... case 0xFE: $this->m_lpComm = substr($data, 1, ord($data[0])); break; // Plain text... case 0x01: break; // Application... case 0xFF: break; } // Skip default as defs may change. $b = ord($data[0]); $data = substr($data, 1); $extLen++; while ($b > 0) { $data = substr($data, $b); $extLen += $b; $b = ord($data[0]); $data = substr($data, 1); $extLen++; } return true; } public function deInterlace() { $data = $this->m_data; for ($i = 0; $i < 4; $i++) { switch ($i) { case 0: $s = 8; $y = 0; break; case 1: $s = 8; $y = 4; break; case 2: $s = 4; $y = 2; break; case 3: $s = 2; $y = 1; break; } for (; $y < $this->m_gih->m_nHeight; $y += $s) { $lne = substr($this->m_data, 0, $this->m_gih->m_nWidth); $this->m_data = substr($this->m_data, $this->m_gih->m_nWidth); $data = substr($data, 0, $y * $this->m_gih->m_nWidth) . $lne . substr($data, ($y + 1) * $this->m_gih->m_nWidth); } } $this->m_data = $data; } } class gif_file { public $header, $image, $data, $loaded; public function __construct() { $this->data = ''; $this->loaded = false; $this->header = new gif_file_header(); $this->image = new gif_image(); } public function loadFile($filename, $iIndex) { if ($iIndex < 0) return false; $this->data = @file_get_contents($filename); if ($this->data === false) return false; // Tell the header to load up.... $len = 0; if (!$this->header->load($this->data, $len)) return false; $this->data = substr($this->data, $len); // Keep reading (at least once) so we get to the actual image we're looking for. for ($j = 0; $j <= $iIndex; $j++) { $imgLen = 0; if (!$this->image->load($this->data, $imgLen)) return false; $this->data = substr($this->data, $imgLen); } $this->loaded = true; return true; } public function get_png_data($background_color) { if (!$this->loaded) return false; // Prepare the color table. if ($this->image->m_gih->m_bLocalClr) { $colors = $this->image->m_gih->m_nTableSize; $pal = $this->image->m_gih->m_colorTable->toString(); if ($background_color != -1) $background_color = $this->image->m_gih->m_colorTable->colorIndex($background_color); } elseif ($this->header->m_bGlobalClr) { $colors = $this->header->m_nTableSize; $pal = $this->header->m_colorTable->toString(); if ($background_color != -1) $background_color = $this->header->m_colorTable->colorIndex($background_color); } else { $colors = 0; $background_color = -1; } if ($background_color == -1) $background_color = $this->header->m_nBgColor; $data = &$this->image->m_data; $header = &$this->image->m_gih; $i = 0; $bmp = ''; // Prepare the bitmap itself. for ($y = 0; $y < $this->header->m_nHeight; $y++) { $bmp .= "\x00"; for ($x = 0; $x < $this->header->m_nWidth; $x++, $i++) { // Is this in the proper range? If so, get the specific pixel data... if ($x >= $header->m_nLeft && $y >= $header->m_nTop && $x < ($header->m_nLeft + $header->m_nWidth) && $y < ($header->m_nTop + $header->m_nHeight)) $bmp .= $data{$i}; // Otherwise, this is background... else $bmp .= chr($background_color); } } $bmp = gzcompress($bmp, 9); // Output the basic signature first of all. $out = "\x89\x50\x4E\x47\x0D\x0A\x1A\x0A"; // Now, we want the header... $out .= "\x00\x00\x00\x0D"; $tmp = 'IHDR' . pack('N', (int) $this->header->m_nWidth) . pack('N', (int) $this->header->m_nHeight) . "\x08\x03\x00\x00\x00"; $out .= $tmp . pack('N', smf_crc32($tmp)); // The palette, assuming we have one to speak of... if ($colors > 0) { $out .= pack('N', (int) $colors * 3); $tmp = 'PLTE' . $pal; $out .= $tmp . pack('N', smf_crc32($tmp)); } // Do we have any transparency we want to make available? if ($this->image->m_bTrans && $colors > 0) { $out .= pack('N', (int) $colors); $tmp = 'tRNS'; // Stick each color on - full transparency or none. for ($i = 0; $i < $colors; $i++) $tmp .= $i == $this->image->m_nTrans ? "\x00" : "\xFF"; $out .= $tmp . pack('N', smf_crc32($tmp)); } // Here's the data itself! $out .= pack('N', strlen($bmp)); $tmp = 'IDAT' . $bmp; $out .= $tmp . pack('N', smf_crc32($tmp)); // EOF marker... $out .= "\x00\x00\x00\x00" . 'IEND' . "\xAE\x42\x60\x82"; return $out; } } // crc32 doesn't work as expected on 64-bit functions - make our own. // http://www.php.net/crc32#79567 if (!function_exists('smf_crc32')) { function smf_crc32($number) { $crc = crc32($number); if ($crc & 0x80000000) { $crc ^= 0xffffffff; $crc += 1; $crc = -$crc; } return $crc; } } ?>