forked from external-repos/squoosh
e217740e53
* Update libavif (v1.0.0-main) * Update libavif for improved compression and speed * v1.0.0 deprecates usage of min and max-quantizers; we use `quality` and `qualityAlpha` instead * Renamed `maxSpeed` to `MAX_EFFORT` for better readability * Update libavif (v1.0.1-main) * Refactor variable names for clarity * Update libaom (v3.7.0) * Add checks for API return values * Rename variables for readability Changes `cqlevel` to `quality`, and `cqAlphaLevel` to `qualityAlpha` * Minor patches in logic * Minor patches in lossless calculation * Add chroma subsampling options to AVIF * Add skeleton for sharp downsampling param * Try to use libsharpyuv * Encoder working, decoder isnt * Make sure sharpyuv is disabled for decoder * Add AVIF_LOCAL flags for sharp yuv * Get AVIF sharp YUV working * Clean up AVIF makefiles * AVIF: Make sharpyuv conditional on subsample * AVIF: Flags to speed up sharpyuv build * AVIF: Minor refactoring in enc.cpp * AVIF: Minor refactoring & renaming * AVIF: Use smart pointers to prevent memory leaks * AVIF: Minor refactoring * AVIF: Revert defaultoptions logic change --------- Co-authored-by: Surma <surma@surma.dev> Co-authored-by: Jake Archibald <jaffathecake@gmail.com>
170 lines
5.1 KiB
C++
170 lines
5.1 KiB
C++
#include <emscripten/bind.h>
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#include <emscripten/threading.h>
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#include <emscripten/val.h>
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#include "avif/avif.h"
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#include <memory>
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#include <string>
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#define RETURN_NULL_IF(expression) \
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do { \
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if (expression) \
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return val::null(); \
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} while (false)
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using namespace emscripten;
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using AvifImagePtr = std::unique_ptr<avifImage, decltype(&avifImageDestroy)>;
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using AvifEncoderPtr = std::unique_ptr<avifEncoder, decltype(&avifEncoderDestroy)>;
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struct AvifOptions {
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// [0 - 100]
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// 0 = worst quality
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// 100 = lossless
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int quality;
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// As above, but -1 means 'use quality'
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int qualityAlpha;
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// [0 - 6]
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// Creates 2^n tiles in that dimension
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int tileRowsLog2;
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int tileColsLog2;
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// [0 - 10]
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// 0 = slowest
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// 10 = fastest
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int speed;
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// 0 = 4:0:0
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// 1 = 4:2:0
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// 2 = 4:2:2
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// 3 = 4:4:4
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int subsample;
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// Extra chroma compression
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bool chromaDeltaQ;
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// 0-7
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int sharpness;
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// 0 = auto
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// 1 = PSNR
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// 2 = SSIM
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int tune;
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// 0-50
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int denoiseLevel;
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// toggles AVIF_CHROMA_DOWNSAMPLING_SHARP_YUV
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bool enableSharpYUV;
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};
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thread_local const val Uint8Array = val::global("Uint8Array");
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val encode(std::string buffer, int width, int height, AvifOptions options) {
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avifResult status; // To check the return status for avif API's
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int depth = 8;
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avifPixelFormat format;
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switch (options.subsample) {
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case 0:
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format = AVIF_PIXEL_FORMAT_YUV400;
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break;
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case 1:
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format = AVIF_PIXEL_FORMAT_YUV420;
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break;
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case 2:
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format = AVIF_PIXEL_FORMAT_YUV422;
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break;
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case 3:
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format = AVIF_PIXEL_FORMAT_YUV444;
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break;
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}
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bool lossless = options.quality == AVIF_QUALITY_LOSSLESS &&
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(options.qualityAlpha == -1 || options.qualityAlpha == AVIF_QUALITY_LOSSLESS) &&
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format == AVIF_PIXEL_FORMAT_YUV444;
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// Smart pointer for the input image in YUV format
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AvifImagePtr image(avifImageCreate(width, height, depth, format), avifImageDestroy);
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RETURN_NULL_IF(image == nullptr);
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if (lossless) {
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image->matrixCoefficients = AVIF_MATRIX_COEFFICIENTS_IDENTITY;
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} else {
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image->matrixCoefficients = AVIF_MATRIX_COEFFICIENTS_BT601;
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}
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uint8_t* rgba = reinterpret_cast<uint8_t*>(const_cast<char*>(buffer.data()));
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avifRGBImage srcRGB;
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avifRGBImageSetDefaults(&srcRGB, image.get());
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srcRGB.pixels = rgba;
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srcRGB.rowBytes = width * 4;
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if (options.enableSharpYUV) {
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srcRGB.chromaDownsampling = AVIF_CHROMA_DOWNSAMPLING_SHARP_YUV;
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}
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status = avifImageRGBToYUV(image.get(), &srcRGB);
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RETURN_NULL_IF(status != AVIF_RESULT_OK);
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// Create a smart pointer for the encoder
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AvifEncoderPtr encoder(avifEncoderCreate(), avifEncoderDestroy);
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RETURN_NULL_IF(encoder == nullptr);
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if (lossless) {
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encoder->quality = AVIF_QUALITY_LOSSLESS;
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encoder->qualityAlpha = AVIF_QUALITY_LOSSLESS;
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} else {
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status = avifEncoderSetCodecSpecificOption(encoder.get(), "sharpness",
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std::to_string(options.sharpness).c_str());
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RETURN_NULL_IF(status != AVIF_RESULT_OK);
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// Set base quality
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encoder->quality = options.quality;
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// Conditionally set alpha quality
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if (options.qualityAlpha == -1) {
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encoder->qualityAlpha = options.quality;
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} else {
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encoder->qualityAlpha = options.qualityAlpha;
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}
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if (options.tune == 2 || (options.tune == 0 && options.quality >= 50)) {
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status = avifEncoderSetCodecSpecificOption(encoder.get(), "tune", "ssim");
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RETURN_NULL_IF(status != AVIF_RESULT_OK);
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}
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if (options.chromaDeltaQ) {
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status = avifEncoderSetCodecSpecificOption(encoder.get(), "color:enable-chroma-deltaq", "1");
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RETURN_NULL_IF(status != AVIF_RESULT_OK);
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}
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status = avifEncoderSetCodecSpecificOption(encoder.get(), "color:denoise-noise-level",
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std::to_string(options.denoiseLevel).c_str());
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RETURN_NULL_IF(status != AVIF_RESULT_OK);
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}
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encoder->maxThreads = emscripten_num_logical_cores();
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encoder->tileRowsLog2 = options.tileRowsLog2;
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encoder->tileColsLog2 = options.tileColsLog2;
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encoder->speed = options.speed;
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avifRWData output = AVIF_DATA_EMPTY;
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avifResult encodeResult = avifEncoderWrite(encoder.get(), image.get(), &output);
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auto js_result = val::null();
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if (encodeResult == AVIF_RESULT_OK) {
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js_result = Uint8Array.new_(typed_memory_view(output.size, output.data));
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}
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avifRWDataFree(&output);
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return js_result;
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}
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EMSCRIPTEN_BINDINGS(my_module) {
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value_object<AvifOptions>("AvifOptions")
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.field("quality", &AvifOptions::quality)
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.field("qualityAlpha", &AvifOptions::qualityAlpha)
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.field("tileRowsLog2", &AvifOptions::tileRowsLog2)
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.field("tileColsLog2", &AvifOptions::tileColsLog2)
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.field("speed", &AvifOptions::speed)
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.field("chromaDeltaQ", &AvifOptions::chromaDeltaQ)
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.field("sharpness", &AvifOptions::sharpness)
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.field("tune", &AvifOptions::tune)
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.field("denoiseLevel", &AvifOptions::denoiseLevel)
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.field("subsample", &AvifOptions::subsample)
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.field("enableSharpYUV", &AvifOptions::enableSharpYUV);
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function("encode", &encode);
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}
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