Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

The following code uses the SimpleImage library

I have a function that gets a pixel from an image:

function getPixel($x, $y) {

    $colors = imagecolorsforindex($this->image, imagecolorat($this->image, $x, $y));
    $n[0] = $colors['red'];
    $n[1] = $colors['green'];
    $n[2] = $colors['blue'];
    $str = "#";
    for($x=0;$x < 3; $x++){
        $n[$x] = intval($n[$x],10);
        if (is_nan($n[$x])) return "00";
        $n[$x] = max(0, min($n[$x],255));
        $bam = "0123456789ABCDEF";
        $str .= $bam{($n[$x]-$n[$x]%16)/16} . $bam{$n[$x]%16};
    }
    return $str; 
}

To get every pixel in an image, I use this loop:

$arr = [];
for($y = 0;$y < $image->getHeight(); $y++){
    $arr[$y] = [];
    for($x = 0; $x < $image->getWidth(); $x++){
        $arr[$y][$x] = $image->getPixel($x, $y);
    }
}

I'm wondering if there is a faster way to do this with GD and PHP?

EDIT

What I'm thinking of is some way to get the value of every pixel from GD without a PHP loop.

share|improve this question
    
move $bam outside the loop? –  Cole Johnson Dec 9 '12 at 20:03
    
What exactly are you doing with the pixel information? Knowing that will drive the answers. –  Charles Dec 9 '12 at 20:03
    
@charles - I'm using it to set the bgcolor of table cells –  PitaJ Dec 9 '12 at 20:13
    
SEE THE EDIT ^^^ –  PitaJ Dec 9 '12 at 20:15
    
FYI all GD will do is call a loop to get the info. Just sayin –  Cole Johnson Dec 9 '12 at 20:19

1 Answer 1

up vote 1 down vote accepted

There is a faster way, but it's very tricky. What it involves is exporting the image to the GD2 format, then accessing the bytes directly. GD stores the pixels in chunks, so looping through the pixels is not straight forward. When done properly, it does yield much better performance since you're no longer incurring the overhead of calling a function on every pixel.

Here's some code that I have that I had written which capture the alpha channel from an image. As you can see, the loop isn't so terribly obvious because of chunking:

    imagesavealpha($image, true);
    ob_start();
    imagegd2($image);
    $gdRawData = ob_get_clean();

    $array = unpack("Nheader/nversion/nimageWidth/nimageHeight/nchunkSize/ndataFormat/ncolumnCount/nrowCount", $gdRawData);
    $imageWidth = $array['imageWidth'];
    $imageHeight = $array['imageHeight'];

    $chunkWidth = $chunkHeight = $array['chunkSize'];
    $columnCount = $array['columnCount'];
    $rowCount = $array['rowCount'];
    $lastColumnWidth = $imageWidth - ($columnCount - 1) * $chunkWidth;
    $lastRowHeight = $imageHeight - ($rowCount - 1) * $chunkHeight;

    static $transparencyToAlpha = array("\x7f" => "\x00", "\x7f" => "\x01", "\x7e" => "\x02", "\x7e" => "\x03", "\x7d" => "\x04", "\x7d" => "\x05", "\x7c" => "\x06", "\x7c" => "\x07", "\x7b" => "\x08", "\x7b" => "\x09", "\x7a" => "\x0a", "\x7a" => "\x0b", "\x79" => "\x0c", "\x79" => "\x0d", "\x78" => "\x0e", "\x78" => "\x0f", "\x77" => "\x10", "\x77" => "\x11", "\x76" => "\x12", "\x76" => "\x13", "\x75" => "\x14", "\x75" => "\x15", "\x74" => "\x16", "\x74" => "\x17", "\x73" => "\x18", "\x73" => "\x19", "\x72" => "\x1a", "\x72" => "\x1b", "\x71" => "\x1c", "\x71" => "\x1d", "\x70" => "\x1e", "\x70" => "\x1f", "\x6f" => "\x20", "\x6f" => "\x21", "\x6e" => "\x22", "\x6e" => "\x23", "\x6d" => "\x24", "\x6d" => "\x25", "\x6c" => "\x26", "\x6c" => "\x27", "\x6b" => "\x28", "\x6b" => "\x29", "\x6a" => "\x2a", "\x6a" => "\x2b", "\x69" => "\x2c", "\x69" => "\x2d", "\x68" => "\x2e", "\x68" => "\x2f", "\x67" => "\x30", "\x67" => "\x31", "\x66" => "\x32", "\x66" => "\x33", "\x65" => "\x34", "\x65" => "\x35", "\x64" => "\x36", "\x64" => "\x37", "\x63" => "\x38", "\x63" => "\x39", "\x62" => "\x3a", "\x62" => "\x3b", "\x61" => "\x3c", "\x61" => "\x3d", "\x60" => "\x3e", "\x60" => "\x3f", "\x5f" => "\x40", "\x5f" => "\x41", "\x5e" => "\x42", "\x5e" => "\x43", "\x5d" => "\x44", "\x5d" => "\x45", "\x5c" => "\x46", "\x5c" => "\x47", "\x5b" => "\x48", "\x5b" => "\x49", "\x5a" => "\x4a", "\x5a" => "\x4b", "\x59" => "\x4c", "\x59" => "\x4d", "\x58" => "\x4e", "\x58" => "\x4f", "\x57" => "\x50", "\x57" => "\x51", "\x56" => "\x52", "\x56" => "\x53", "\x55" => "\x54", "\x55" => "\x55", "\x54" => "\x56", "\x54" => "\x57", "\x53" => "\x58", "\x53" => "\x59", "\x52" => "\x5a", "\x52" => "\x5b", "\x51" => "\x5c", "\x51" => "\x5d", "\x50" => "\x5e", "\x50" => "\x5f", "\x4f" => "\x60", "\x4f" => "\x61", "\x4e" => "\x62", "\x4e" => "\x63", "\x4d" => "\x64", "\x4d" => "\x65", "\x4c" => "\x66", "\x4c" => "\x67", "\x4b" => "\x68", "\x4b" => "\x69", "\x4a" => "\x6a", "\x4a" => "\x6b", "\x49" => "\x6c", "\x49" => "\x6d", "\x48" => "\x6e", "\x48" => "\x6f", "\x47" => "\x70", "\x47" => "\x71", "\x46" => "\x72", "\x46" => "\x73", "\x45" => "\x74", "\x45" => "\x75", "\x44" => "\x76", "\x44" => "\x77", "\x43" => "\x78", "\x43" => "\x79", "\x42" => "\x7a", "\x42" => "\x7b", "\x41" => "\x7c", "\x41" => "\x7d", "\x40" => "\x7e", "\x40" => "\x7f", "\x3f" => "\x80", "\x3f" => "\x81", "\x3e" => "\x82", "\x3e" => "\x83", "\x3d" => "\x84", "\x3d" => "\x85", "\x3c" => "\x86", "\x3c" => "\x87", "\x3b" => "\x88", "\x3b" => "\x89", "\x3a" => "\x8a", "\x3a" => "\x8b", "\x39" => "\x8c", "\x39" => "\x8d", "\x38" => "\x8e", "\x38" => "\x8f", "\x37" => "\x90", "\x37" => "\x91", "\x36" => "\x92", "\x36" => "\x93", "\x35" => "\x94", "\x35" => "\x95", "\x34" => "\x96", "\x34" => "\x97", "\x33" => "\x98", "\x33" => "\x99", "\x32" => "\x9a", "\x32" => "\x9b", "\x31" => "\x9c", "\x31" => "\x9d", "\x30" => "\x9e", "\x30" => "\x9f", "\x2f" => "\xa0", "\x2f" => "\xa1", "\x2e" => "\xa2", "\x2e" => "\xa3", "\x2d" => "\xa4", "\x2d" => "\xa5", "\x2c" => "\xa6", "\x2c" => "\xa7", "\x2b" => "\xa8", "\x2b" => "\xa9", "\x2a" => "\xaa", "\x2a" => "\xab", "\x29" => "\xac", "\x29" => "\xad", "\x28" => "\xae", "\x28" => "\xaf", "\x27" => "\xb0", "\x27" => "\xb1", "\x26" => "\xb2", "\x26" => "\xb3", "\x25" => "\xb4", "\x25" => "\xb5", "\x24" => "\xb6", "\x24" => "\xb7", "\x23" => "\xb8", "\x23" => "\xb9", "\x22" => "\xba", "\x22" => "\xbb", "\x21" => "\xbc", "\x21" => "\xbd", "\x20" => "\xbe", "\x20" => "\xbf", "\x1f" => "\xc0", "\x1f" => "\xc1", "\x1e" => "\xc2", "\x1e" => "\xc3", "\x1d" => "\xc4", "\x1d" => "\xc5", "\x1c" => "\xc6", "\x1c" => "\xc7", "\x1b" => "\xc8", "\x1b" => "\xc9", "\x1a" => "\xca", "\x1a" => "\xcb", "\x19" => "\xcc", "\x19" => "\xcd", "\x18" => "\xce", "\x18" => "\xcf", "\x17" => "\xd0", "\x17" => "\xd1", "\x16" => "\xd2", "\x16" => "\xd3", "\x15" => "\xd4", "\x15" => "\xd5", "\x14" => "\xd6", "\x14" => "\xd7", "\x13" => "\xd8", "\x13" => "\xd9", "\x12" => "\xda", "\x12" => "\xdb", "\x11" => "\xdc", "\x11" => "\xdd", "\x10" => "\xde", "\x10" => "\xdf", "\x0f" => "\xe0", "\x0f" => "\xe1", "\x0e" => "\xe2", "\x0e" => "\xe3", "\x0d" => "\xe4", "\x0d" => "\xe5", "\x0c" => "\xe6", "\x0c" => "\xe7", "\x0b" => "\xe8", "\x0b" => "\xe9", "\x0a" => "\xea", "\x0a" => "\xeb", "\x09" => "\xec", "\x09" => "\xed", "\x08" => "\xee", "\x08" => "\xef", "\x07" => "\xf0", "\x07" => "\xf1", "\x06" => "\xf2", "\x06" => "\xf3", "\x05" => "\xf4", "\x05" => "\xf5", "\x04" => "\xf6", "\x04" => "\xf7", "\x03" => "\xf8", "\x03" => "\xf9", "\x02" => "\xfa", "\x02" => "\xfb", "\x01" => "\xfc", "\x01" => "\xfd", "\x00" => "\xfe", "\x00" => "\xff");

    $alphaDataSize = $imageWidth * $imageHeight;
    $alphaData = str_repeat("\x00", $alphaDataSize);

    // loop through all rows 
    for($r = 0, $j = 23; $r < $rowCount; $r++) {
        $rowHeight = ($r == $rowCount - 1) ? $lastRowHeight : $chunkHeight;
        // loop through chunks in each row
        for($c = 0; $c < $columnCount; $c++) {
            $columnWidth = ($c == $columnCount - 1) ? $lastColumnWidth : $chunkWidth;
            $firstY = $r * $chunkHeight;
            $lastY = $firstY + $rowHeight;
            // loop through scanlines in each chunk
            for($y = $firstY; $y < $lastY; $y++) {
                $firstX = $c * $chunkWidth;
                $firstAlphaPosition = $y * $imageWidth + $firstX;
                $lastAlphaPosition = $firstAlphaPosition + $columnWidth;
                // loop through each pixel in each chunk scanline
                for($i = $firstAlphaPosition; $i < $lastAlphaPosition; $i++, $j+= 4) {
                    $alphaData[$i] = $transparencyToAlpha[$gdRawData[$j]];
                }
            }
        }
    }

Each pixel consists of four bytes: alpha, red, green, and blue. Here, I'm only capturing the first byte.

share|improve this answer
    
Holy crap! Is there a website I can go to to learn how to do this myself? –  PitaJ Dec 9 '12 at 21:22
    
can you tell me where I can go to find out about this? –  PitaJ Dec 9 '12 at 22:03
    
You'll have to study the GD source code. –  cleong Dec 10 '12 at 15:04
    
OK thanks a lot –  PitaJ Dec 10 '12 at 16:26

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.