// 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. #include "tools/benchmark/benchmark_args.h" #include #include #include #include #include #include "lib/extras/codec.h" #include "lib/extras/dec/color_description.h" #include "lib/jxl/base/status.h" #include "lib/jxl/color_encoding_internal.h" #include "lib/jxl/color_management.h" #include "tools/benchmark/benchmark_codec_jpeg.h" // for AddCommand.. #include "tools/benchmark/benchmark_codec_jxl.h" #if JPEGXL_ENABLE_APNG #include "tools/benchmark/benchmark_codec_png.h" #endif #ifdef BENCHMARK_WEBP #include "tools/benchmark/benchmark_codec_webp.h" #endif // BENCHMARK_WEBP #ifdef BENCHMARK_AVIF #include "tools/benchmark/benchmark_codec_avif.h" #endif // BENCHMARK_AVIF namespace jxl { std::vector SplitString(const std::string& s, char c) { std::vector result; size_t pos = 0; for (size_t i = 0; i <= s.size(); i++) { if (i == s.size() || s[i] == c) { result.push_back(s.substr(pos, i - pos)); pos = i + 1; } } return result; } int ParseIntParam(const std::string& param, int lower_bound, int upper_bound) { int val = strtol(param.substr(1).c_str(), nullptr, 10); JXL_CHECK(val >= lower_bound && val <= upper_bound); return val; } BenchmarkArgs* Args() { static BenchmarkArgs args; return &args; } Status BenchmarkArgs::AddCommandLineOptions() { AddString(&input, "input", "File or file pattern matching input files."); AddString(&codec, "codec", "Comma separated list of image codec descriptions to benchmark.", "jxl"); AddFlag(&print_details, "print_details", "Prints size and distortion for each image. Not safe for " "concurrent benchmark runs.", false); AddFlag(&print_details_csv, "print_details_csv", "When print_details is used, print as CSV.", false); AddString(&extra_metrics, "extra_metrics", "Extra metrics to be computed. Only displayed with --print_details " "or --print_details_csv. Comma-separated list of NAME:COMMAND " "pairs; COMMAND is invoked with the original image as the first " "argument, the decompressed image as a second argument, and the " "name of the file where to write the metric value (as a single " "floating point number) as the third argument.", ""); AddFlag( &print_more_stats, "print_more_stats", "Prints codec-specific stats. Not safe for concurrent benchmark runs.", false); AddFlag(&print_distance_percentiles, "print_distance_percentiles", "Prints distance percentiles for the corpus. Not safe for " "concurrent benchmark runs.", false); AddFlag(&silent_errors, "silent_errors", "If true, doesn't print error messages on compression or" " decompression errors. Errors counts are still visible in the" " 'Errors' column of the result table. Please note that depending" " depending on the JXL build settings, error messages and asserts" " from within the codec may be printed irrespective of this flag" " anyway, use release build to ensure no messages.", false); AddFlag(&save_compressed, "save_compressed", "Saves the compressed files for each input image and each codec.", false); AddFlag(&save_decompressed, "save_decompressed", "Saves the decompressed files as PNG for each input image " "and each codec.", false); AddString(&output_extension, "output_extension", "Extension (starting with dot) to use for saving output images.", ".png"); AddString(&output_description, "output_description", "Color encoding (see ParseDescription; e.g. RGB_D65_SRG_Rel_709) " "for saving output images, " " defaults to sRGB."); AddFloat(&intensity_target, "intensity_target", "Intended viewing intensity target in nits. Defaults to 255 for " "SDR images, 4000 for HDR images (when the input image uses PQ or " "HLG transfer function)", 0); AddString(&color_hints_string, "dec-hints", "Color encoding hints for the input images to encoder. Comma " "separated key=value pairs. The key color_space indicates " "ColorEncoding (see ParseDescription; e.g. RGB_D65_SRG_Rel_709) " "for input images without color encoding (such as PNM)"); AddUnsigned( &override_bitdepth, "override_bitdepth", "If nonzero, store the given bit depth in the JPEG XL file metadata" " (1-32), instead of using the bit depth from the original input" " image.", 0); AddDouble(&mul_output, "mul_output", "If nonzero, multiplies linear sRGB by this and clamps to 255", 0.0); AddDouble(&heatmap_good, "heatmap_good", "If greater than zero, use this as the good " "threshold for creating heatmap images.", 0.0); AddDouble(&heatmap_bad, "heatmap_bad", "If greater than zero, use this as the bad " "threshold for creating heatmap images.", 0.0); AddFlag(&write_html_report, "write_html_report", "Creates an html report with original and compressed images.", false); AddFlag(&html_report_self_contained, "html_report_self_contained", "Base64-encode the images in the HTML report rather than use " "external file names. May cause very large HTML data size.", false); AddFlag( &markdown, "markdown", "Adds formatting around ASCII table to render correctly in Markdown based" " interfaces", true); AddFlag(&more_columns, "more_columns", "Print extra columns in the table", false); AddString(&originals_url, "originals_url", "Url prefix to serve original images from in the html report."); AddString(&output_dir, "output_dir", "If not empty, save compressed and decompressed " "images here."); AddSigned(&num_threads, "num_threads", "The number of threads for concurrent benchmarking. Defaults to " "1 thread per CPU core (if negative).", -1); AddSigned(&inner_threads, "inner_threads", "The number of extra threads per task. " "Defaults to occupy cores (if negative).", -1); AddUnsigned(&encode_reps, "encode_reps", "How many times to encode (>1 for more precise measurements). " "Defaults to 1.", 1); AddUnsigned(&decode_reps, "decode_reps", "How many times to decode (>1 for more precise measurements). " "Defaults to 1.", 1); AddString(&sample_tmp_dir, "sample_tmp_dir", "Directory to put samples from input images."); AddSigned(&num_samples, "num_samples", "How many sample areas to take.", 0); AddSigned(&sample_dimensions, "sample_dimensions", "How big areas to sample from the input.", 64); AddDouble(&error_pnorm, "error_pnorm", "smallest p norm for pooling butteraugli values", 3.0); AddFloat(&ba_params.hf_asymmetry, "hf_asymmetry", "Multiplier for weighting HF artefacts more than features " "being smoothed out. 1.0 means no HF asymmetry. 0.3 is " "a good value to start exploring for asymmetry.", 0.8f); AddFlag(&profiler, "profiler", "If true, print profiler results.", false); AddFlag(&show_progress, "show_progress", "Show activity dots per completed file during benchmark.", false); AddFlag(&skip_butteraugli, "skip_butteraugli", "If true, doesn't compute distance metrics, only compression and" " decompression speed and size. Distance numbers shown in the" " table are invalid.", false); AddFlag( &decode_only, "decode_only", "If true, only decodes, and the input files must be compressed with a " "compatible format for the given codec(s). Only measures decompression " "speed and sizes, and can only use a single set of compatible decoders. " "Distance numbers and compression speeds shown in the table are invalid.", false); if (!AddCommandLineOptionsJxlCodec(this)) return false; #ifdef BENCHMARK_JPEG if (!AddCommandLineOptionsJPEGCodec(this)) return false; #endif // BENCHMARK_JPEG #if JPEGXL_ENABLE_APNG if (!AddCommandLineOptionsPNGCodec(this)) return false; #endif #ifdef BENCHMARK_WEBP if (!AddCommandLineOptionsWebPCodec(this)) return false; #endif // BENCHMARK_WEBP #ifdef BENCHMARK_AVIF if (!AddCommandLineOptionsAvifCodec(this)) return false; #endif // BENCHMARK_AVIF return true; } Status BenchmarkArgs::ValidateArgs() { size_t bits_per_sample = 0; // unused if (input.empty()) { fprintf(stderr, "Missing --input filename(s).\n"); return false; } if (extras::CodecFromExtension(output_extension, &bits_per_sample) == extras::Codec::kUnknown) { JXL_WARNING("Unrecognized output_extension %s, try .png", output_extension.c_str()); return false; // already warned } // If empty, don't do anything; callers must only use output_encoding if // output_description is not empty. if (!output_description.empty()) { // Validate, but also create the profile (only needs to happen once). JxlColorEncoding output_encoding_external; if (!ParseDescription(output_description, &output_encoding_external)) { JXL_WARNING("Unrecognized output_description %s, try RGB_D65_SRG_Rel_Lin", output_description.c_str()); return false; // already warned } JXL_RETURN_IF_ERROR(jxl::ConvertExternalToInternalColorEncoding( output_encoding_external, &output_encoding)); JXL_RETURN_IF_ERROR(output_encoding.CreateICC()); } JXL_RETURN_IF_ERROR(ValidateArgsJxlCodec(this)); if (print_details_csv) print_details = true; if (override_bitdepth > 32) { return JXL_FAILURE("override_bitdepth must be <= 32"); } if (!color_hints_string.empty()) { std::vector hints = SplitString(color_hints_string, ','); for (const auto& hint : hints) { std::vector kv = SplitString(hint, '='); if (kv.size() != 2) { return JXL_FAILURE( "dec-hints key value pairs must have the form 'key=value'"); } color_hints.Add(kv[0], kv[1]); } } return true; } } // namespace jxl