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ttrss_ynh/source/lib/jimIcon.php
2013-11-24 11:03:28 +01:00

270 lines
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12 KiB
PHP

<?php
// Simple .ICO parsing. The ICO format is insanely complex and this may
// fail to correctly handle some technically valid files, but it works
// on the majority I've found.
//
// jimIcon was written in 2013 by Jim Paris <jim@jtan.com> and is
// released under the terms of the CC0:
//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any arranty.
//
// You may have received a copy of the CC0 Public Domain Dedication
// along with this software. If not, see
// http://creativecommons.org/publicdomain/zero/1.0/
class jimIcon {
// Get an image color from a string
function get_color($str, $img) {
$b = ord($str[0]);
$g = ord($str[1]);
$r = ord($str[2]);
if (strlen($str) > 3) {
$a = 127 - (ord($str[3]) / 2);
if ($a != 0 && $a != 127)
$this->had_alpha = 1;
} else {
$a = 0;
}
if ($a != 127)
$this->all_transaprent = 0;
return imagecolorallocatealpha($img, $r, $g, $b, $a);
}
// Given a string with the contents of an .ICO,
// return a GD image of the icon, or false on error.
function fromiconstring($ico) {
$this->error = "(unknown error)";
$this->had_alpha = 0;
// Read header
if (strlen($ico) < 6) {
$this->error = "too short";
return false;
}
$h = unpack("vzero/vtype/vnum", $ico);
// Must be ICO format with at least one image
if ($h["zero"] != 0 || $h["type"] != 1 || $h["num"] == 0) {
// See if we can just parse it with GD directly
// if it's not ICO format; maybe it was a mislabeled
// PNG or something.
$i = @imagecreatefromstring($ico);
if ($i) {
imagesavealpha($i, true);
return $i;
}
$this->error = "not ICO or other image";
return false;
}
// Read directory entries to find the biggest image
$most_pixels = 0;
for ($i = 0; $i < $h["num"]; $i++) {
$entry = substr($ico, 6 + 16 * $i, 16);
if (!$entry || strlen($entry) < 16)
continue;
$e = unpack("Cwidth/" .
"Cheight/" .
"Ccolors/" .
"Czero/" .
"vplanes/" .
"vbpp/" .
"Vsize/" .
"Voffset/",
$entry);
if ($e["width"] == 0)
$e["width"] = 256;
if ($e["height"] == 0)
$e["height"] = 256;
if ($e["zero"] != 0) {
$this->error = "nonzero reserved field";
return false;
}
$pixels = $e["width"] * $e["height"];
if ($pixels > $most_pixels) {
$most_pixels = $pixels;
$most = $e;
}
}
if ($most_pixels == 0) {
$this->error = "no pixels";
return false;
}
$e = $most;
// Extract image data
$data = substr($ico, $e["offset"], $e["size"]);
if (!$data || strlen($data) != $e["size"]) {
$this->error = "bad image data";
return false;
}
// See if we can parse it (might be PNG format here)
$i = @imagecreatefromstring($data);
if ($i) {
imagesavealpha($img, true);
return $i;
}
// Must be a BMP. Parse it ourselves.
$img = imagecreatetruecolor($e["width"], $e["height"]);
imagesavealpha($img, true);
$bg = imagecolorallocatealpha($img, 255, 0, 0, 127);
imagefill($img, 0, 0, $bg);
// Skip over the BITMAPCOREHEADER or BITMAPINFOHEADER;
// we'll just assume the palette and pixel data follow
// in the most obvious format as described by the icon
// directory entry.
$bitmapinfo = unpack("Vsize", $data);
if ($bitmapinfo["size"] == 40) {
$info = unpack("Vsize/" .
"Vwidth/" .
"Vheight/" .
"vplanes/" .
"vbpp/" .
"Vcompress/" .
"Vsize/" .
"Vxres/" .
"Vyres/" .
"Vpalcolors/" .
"Vimpcolors/", $data);
if ($e["bpp"] == 0) {
$e["bpp"] = $info["bpp"];
}
}
$data = substr($data, $bitmapinfo["size"]);
$height = $e["height"];
$width = $e["width"];
$bpp = $e["bpp"];
// For indexed images, we only support 1, 4, or 8 BPP
switch ($bpp) {
case 1:
case 4:
case 8:
$indexed = 1;
break;
case 24:
case 32:
$indexed = 0;
break;
default:
$this->error = "bad BPP $bpp";
return false;
}
$offset = 0;
if ($indexed) {
$palette = array();
$this->all_transparent = 1;
for ($i = 0; $i < (1 << $bpp); $i++) {
$entry = substr($data, $i * 4, 4);
$palette[$i] = $this->get_color($entry, $img);
}
$offset = $i * 4;
// Hack for some icons: if everything was transparent,
// discard alpha channel.
if ($this->all_transparent) {
for ($i = 0; $i < (1 << $bpp); $i++) {
$palette[$i] &= 0xffffff;
}
}
}
// Assume image data follows in bottom-up order.
// First the "XOR" image
if ((strlen($data) - $offset) < ($bpp * $height * $width / 8)) {
$this->error = "short data";
return false;
}
$XOR = array();
for ($y = $height - 1; $y >= 0; $y--) {
$x = 0;
while ($x < $width) {
if (!$indexed) {
$bytes = $bpp / 8;
$entry = substr($data, $offset, $bytes);
$pixel = $this->get_color($entry, $img);
$XOR[$y][$x] = $pixel;
$x++;
$offset += $bytes;
} elseif ($bpp == 1) {
$p = ord($data[$offset]);
for ($b = 0x80; $b > 0; $b >>= 1) {
if ($p & $b) {
$pixel = $palette[1];
} else {
$pixel = $palette[0];
}
$XOR[$y][$x] = $pixel;
$x++;
}
$offset++;
} elseif ($bpp == 4) {
$p = ord($data[$offset]);
$pixel1 = $palette[$p >> 4];
$pixel2 = $palette[$p & 0x0f];
$XOR[$y][$x] = $pixel1;
$XOR[$y][$x+1] = $pixel2;
$x += 2;
$offset++;
} elseif ($bpp == 8) {
$pixel = $palette[ord($data[$offset])];
$XOR[$y][$x] = $pixel;
$x += 1;
$offset++;
} else {
$this->error = "bad BPP";
return false;
}
}
// End of row padding
while ($offset & 3)
$offset++;
}
// Now the "AND" image, which is 1 bit per pixel. Ignore
// if some of our image data already had alpha values,
// or if there isn't enough data left.
if ($this->had_alpha ||
((strlen($data) - $offset) < ($height * $width / 8))) {
// Just return what we've got
for ($y = 0; $y < $height; $y++) {
for ($x = 0; $x < $width; $x++) {
imagesetpixel($img, $x, $y,
$XOR[$y][$x]);
}
}
return $img;
}
// Mask what we have with the "AND" image
for ($y = $height - 1; $y >= 0; $y--) {
$x = 0;
while ($x < $width) {
for ($b = 0x80;
$b > 0 && $x < $width; $b >>= 1) {
if (!(ord($data[$offset]) & $b)) {
imagesetpixel($img, $x, $y,
$XOR[$y][$x]);
}
$x++;
}
$offset++;
}
// End of row padding
while ($offset & 3)
$offset++;
}
return $img;
}
}
?>