// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // This C++ example decodes a JPEG XL image progressively (input bytes are // passed in chunks). The example outputs the intermediate steps to PAM files. #ifndef __STDC_FORMAT_MACROS #define __STDC_FORMAT_MACROS #endif #include #include #include #include #include #include // PRIu64 #include #include #include #include bool WritePAM(const char* filename, const uint8_t* buffer, size_t w, size_t h) { FILE* fp = fopen(filename, "wb"); if (!fp) { fprintf(stderr, "Could not open %s for writing", filename); return false; } fprintf(fp, "P7\nWIDTH %d\nHEIGHT %d\nDEPTH 4\nMAXVAL 255\nTUPLTYPE " "RGB_ALPHA\nENDHDR\n", static_cast(w), static_cast(h)); size_t num_bytes = w * h * 4; if (fwrite(buffer, 1, num_bytes, fp) != num_bytes) { fclose(fp); return false; }; if (fclose(fp) != 0) { return false; } return true; } /** Decodes JPEG XL image to 8-bit integer RGBA pixels and an ICC Profile, in a * progressive way, saving the intermediate steps. */ bool DecodeJpegXlProgressive(const uint8_t* jxl, size_t size, const char* filename, size_t chunksize) { std::vector pixels; std::vector icc_profile; size_t xsize = 0; size_t ysize = 0; // Multi-threaded parallel runner. auto runner = JxlResizableParallelRunnerMake(nullptr); auto dec = JxlDecoderMake(nullptr); if (JXL_DEC_SUCCESS != JxlDecoderSubscribeEvents(dec.get(), JXL_DEC_BASIC_INFO | JXL_DEC_COLOR_ENCODING | JXL_DEC_FULL_IMAGE)) { fprintf(stderr, "JxlDecoderSubscribeEvents failed\n"); return false; } if (JXL_DEC_SUCCESS != JxlDecoderSetParallelRunner(dec.get(), JxlResizableParallelRunner, runner.get())) { fprintf(stderr, "JxlDecoderSetParallelRunner failed\n"); return false; } JxlBasicInfo info; JxlPixelFormat format = {4, JXL_TYPE_UINT8, JXL_NATIVE_ENDIAN, 0}; size_t seen = 0; JxlDecoderSetInput(dec.get(), jxl, chunksize); size_t remaining = chunksize; for (;;) { JxlDecoderStatus status = JxlDecoderProcessInput(dec.get()); if (status == JXL_DEC_ERROR) { fprintf(stderr, "Decoder error\n"); return false; } else if (status == JXL_DEC_NEED_MORE_INPUT || status == JXL_DEC_SUCCESS || status == JXL_DEC_FULL_IMAGE) { seen += remaining - JxlDecoderReleaseInput(dec.get()); printf("Flushing after %" PRIu64 " bytes\n", static_cast(seen)); if (status == JXL_DEC_NEED_MORE_INPUT && JXL_DEC_SUCCESS != JxlDecoderFlushImage(dec.get())) { printf("flush error (no preview yet)\n"); } else { char fname[1024]; if (snprintf(fname, 1024, "%s-%" PRIu64 ".pam", filename, static_cast(seen)) >= 1024) { fprintf(stderr, "Filename too long\n"); return false; }; if (!WritePAM(fname, pixels.data(), xsize, ysize)) { fprintf(stderr, "Error writing progressive output\n"); } } remaining = size - seen; if (remaining > chunksize) remaining = chunksize; if (remaining == 0) { if (status == JXL_DEC_NEED_MORE_INPUT) { fprintf(stderr, "Error, already provided all input\n"); return false; } else { return true; } } JxlDecoderSetInput(dec.get(), jxl + seen, remaining); } else if (status == JXL_DEC_BASIC_INFO) { if (JXL_DEC_SUCCESS != JxlDecoderGetBasicInfo(dec.get(), &info)) { fprintf(stderr, "JxlDecoderGetBasicInfo failed\n"); return false; } xsize = info.xsize; ysize = info.ysize; JxlResizableParallelRunnerSetThreads( runner.get(), JxlResizableParallelRunnerSuggestThreads(info.xsize, info.ysize)); } else if (status == JXL_DEC_COLOR_ENCODING) { // Get the ICC color profile of the pixel data size_t icc_size; if (JXL_DEC_SUCCESS != JxlDecoderGetICCProfileSize( dec.get(), JXL_COLOR_PROFILE_TARGET_ORIGINAL, &icc_size)) { fprintf(stderr, "JxlDecoderGetICCProfileSize failed\n"); return false; } icc_profile.resize(icc_size); if (JXL_DEC_SUCCESS != JxlDecoderGetColorAsICCProfile( dec.get(), JXL_COLOR_PROFILE_TARGET_ORIGINAL, icc_profile.data(), icc_profile.size())) { fprintf(stderr, "JxlDecoderGetColorAsICCProfile failed\n"); return false; } } else if (status == JXL_DEC_NEED_IMAGE_OUT_BUFFER) { size_t buffer_size; if (JXL_DEC_SUCCESS != JxlDecoderImageOutBufferSize(dec.get(), &format, &buffer_size)) { fprintf(stderr, "JxlDecoderImageOutBufferSize failed\n"); return false; } if (buffer_size != xsize * ysize * 4) { fprintf(stderr, "Invalid out buffer size %" PRIu64 " != %" PRIu64 "\n", static_cast(buffer_size), static_cast(xsize * ysize * 4)); return false; } pixels.resize(xsize * ysize * 4); if (JXL_DEC_SUCCESS != JxlDecoderSetImageOutBuffer(dec.get(), &format, pixels.data(), pixels.size())) { fprintf(stderr, "JxlDecoderSetImageOutBuffer failed\n"); return false; } } else { fprintf(stderr, "Unknown decoder status\n"); return false; } } } bool LoadFile(const char* filename, std::vector* out) { FILE* file = fopen(filename, "rb"); if (!file) { return false; } if (fseek(file, 0, SEEK_END) != 0) { fclose(file); return false; } long size = ftell(file); // NOLINT // Avoid invalid file or directory. if (size >= LONG_MAX || size < 0) { fclose(file); return false; } if (fseek(file, 0, SEEK_SET) != 0) { fclose(file); return false; } out->resize(size); size_t readsize = fread(out->data(), 1, size, file); if (fclose(file) != 0) { return false; } return readsize == static_cast(size); } int main(int argc, char* argv[]) { if (argc < 3) { fprintf( stderr, "Usage: %s [chunksize]\n" "Where:\n" " jxl = input JPEG XL image filename\n" " basename = prefix of output filenames\n" " chunksize = loads chunksize bytes at a time and writes\n" " intermediate results to basename-[bytes loaded].pam\n" "Output files will be overwritten.\n", argv[0]); return 1; } const char* jxl_filename = argv[1]; const char* png_filename = argv[2]; std::vector jxl; if (!LoadFile(jxl_filename, &jxl)) { fprintf(stderr, "couldn't load %s\n", jxl_filename); return 1; } size_t chunksize = jxl.size(); if (argc > 3) { long cs = atol(argv[3]); // NOLINT if (cs < 100) { fprintf(stderr, "Chunk size is too low, try at least 100 bytes\n"); return 1; } chunksize = cs; } if (!DecodeJpegXlProgressive(jxl.data(), jxl.size(), png_filename, chunksize)) { fprintf(stderr, "Error while decoding the jxl file\n"); return 1; } return 0; }