mirror of
https://github.com/pixelfed/pixelfed.git
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139 lines
4.9 KiB
PHP
139 lines
4.9 KiB
PHP
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<?php
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namespace App\Util\Blurhash;
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use InvalidArgumentException;
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class Blurhash {
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public static function encode(array $image, int $components_x = 4, int $components_y = 4, bool $linear = false): string {
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if (($components_x < 1 || $components_x > 9) || ($components_y < 1 || $components_y > 9)) {
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throw new InvalidArgumentException("x and y component counts must be between 1 and 9 inclusive.");
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}
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$height = count($image);
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$width = count($image[0]);
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$image_linear = $image;
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if (!$linear) {
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$image_linear = [];
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for ($y = 0; $y < $height; $y++) {
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$line = [];
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for ($x = 0; $x < $width; $x++) {
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$pixel = $image[$y][$x];
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$line[] = [
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Color::toLinear($pixel[0]),
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Color::toLinear($pixel[1]),
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Color::toLinear($pixel[2])
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];
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}
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$image_linear[] = $line;
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}
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}
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$components = [];
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$scale = 1 / ($width * $height);
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for ($y = 0; $y < $components_y; $y++) {
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for ($x = 0; $x < $components_x; $x++) {
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$normalisation = $x == 0 && $y == 0 ? 1 : 2;
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$r = $g = $b = 0;
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for ($i = 0; $i < $width; $i++) {
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for ($j = 0; $j < $height; $j++) {
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$color = $image_linear[$j][$i];
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$basis = $normalisation
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* cos(M_PI * $i * $x / $width)
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* cos(M_PI * $j * $y / $height);
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$r += $basis * $color[0];
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$g += $basis * $color[1];
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$b += $basis * $color[2];
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}
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}
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$components[] = [
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$r * $scale,
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$g * $scale,
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$b * $scale
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];
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}
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}
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$dc_value = DC::encode(array_shift($components) ?: []);
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$max_ac_component = 0;
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foreach ($components as $component) {
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$component[] = $max_ac_component;
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$max_ac_component = max ($component);
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}
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$quant_max_ac_component = (int) max(0, min(82, floor($max_ac_component * 166 - 0.5)));
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$ac_component_norm_factor = ($quant_max_ac_component + 1) / 166;
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$ac_values = [];
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foreach ($components as $component) {
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$ac_values[] = AC::encode($component, $ac_component_norm_factor);
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}
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$blurhash = Base83::encode($components_x - 1 + ($components_y - 1) * 9, 1);
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$blurhash .= Base83::encode($quant_max_ac_component, 1);
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$blurhash .= Base83::encode($dc_value, 4);
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foreach ($ac_values as $ac_value) {
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$blurhash .= Base83::encode((int) $ac_value, 2);
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}
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return $blurhash;
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}
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public static function decode (string $blurhash, int $width, int $height, float $punch = 1.0, bool $linear = false): array {
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if (empty($blurhash) || strlen($blurhash) < 6) {
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throw new InvalidArgumentException("Blurhash string must be at least 6 characters");
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}
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$size_info = Base83::decode($blurhash[0]);
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$size_y = floor($size_info / 9) + 1;
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$size_x = ($size_info % 9) + 1;
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$length = (int) strlen($blurhash);
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$expected_length = (int) (4 + (2 * $size_y * $size_x));
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if ($length !== $expected_length) {
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throw new InvalidArgumentException("Blurhash length mismatch: length is {$length} but it should be {$expected_length}");
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}
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$colors = [DC::decode(Base83::decode(substr($blurhash, 2, 4)))];
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$quant_max_ac_component = Base83::decode($blurhash[1]);
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$max_value = ($quant_max_ac_component + 1) / 166;
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for ($i = 1; $i < $size_x * $size_y; $i++) {
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$value = Base83::decode(substr($blurhash, 4 + $i * 2, 2));
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$colors[$i] = AC::decode($value, $max_value * $punch);
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}
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$pixels = [];
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for ($y = 0; $y < $height; $y++) {
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$row = [];
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for ($x = 0; $x < $width; $x++) {
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$r = $g = $b = 0;
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for ($j = 0; $j < $size_y; $j++) {
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for ($i = 0; $i < $size_x; $i++) {
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$color = $colors[$i + $j * $size_x];
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$basis =
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cos((M_PI * $x * $i) / $width) *
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cos((M_PI * $y * $j) / $height);
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$r += $color[0] * $basis;
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$g += $color[1] * $basis;
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$b += $color[2] * $basis;
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}
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}
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$row[] = $linear ? [$r, $g, $b] : [
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Color::toSRGB($r),
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Color::toSRGB($g),
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Color::toSRGB($b)
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];
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}
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$pixels[] = $row;
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}
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return $pixels;
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}
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}
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