apps/avifgainmaputil/tonemap_command.cc - libavif - Git at Google

 // Copyright 2023 Google LLC
 // SPDX-License-Identifier: BSD-2-Clause

 #include "tonemap_command.h"

 #include <cmath>

 #include "avif/avif_cxx.h"
 #include "imageio.h"

 namespace avif {

 TonemapCommand::TonemapCommand()
     : ProgramCommand("tonemap",
                      "Tone maps an avif image that has a gain map to a "
                      "given HDR headroom (how much brighter the display can go "
                      "compared to an SDR display)") {
   argparse_.add_argument(arg_input_filename_, "input_image");
   argparse_.add_argument(arg_output_filename_, "output_image");
   argparse_.add_argument(arg_headroom_, "--headroom")
       .help(
           "HDR headroom to tone map to. This is log2 of the ratio of HDR to "
           "SDR luminance. 0 means SDR.")
       .default_value("0");
   argparse_
       .add_argument<CicpValues, CicpConverter>(arg_input_cicp_, "--cicp-input")
       .help(
           "Override input CICP values, expressed as P/T/M "
           "where P = color primaries, T = transfer characteristics, "
           "M = matrix coefficients.");
   argparse_
       .add_argument<CicpValues, CicpConverter>(arg_output_cicp_,
                                                "--cicp-output")
       .help(
           "CICP values for the output, expressed as P/T/M "
           "where P = color primaries, T = transfer characteristics, "
           "M = matrix coefficients. P and M are only relevant when saving to "
           "AVIF. "
           "If not specified, 'color primaries' defaults to the base image's "
           "primaries, 'transfer characteristics' defaults to 16 (PQ) if "
           "headroom > 0, or 13 (sRGB) otherwise, 'matrix coefficients' "
           "defaults to 6 (BT601).");
   argparse_.add_argument(arg_clli_str_, "--clli")
       .help(
           "Override content light level information expressed as: "
           "MaxCLL,MaxPALL. Only relevant when saving to AVIF.");
   arg_image_read_.Init(argparse_);
   arg_image_encode_.Init(argparse_, /*can_have_alpha=*/true);
 }

 avifResult TonemapCommand::Run() {
   avifContentLightLevelInformationBox clli_box = {};
   bool clli_set = false;
   if (arg_clli_str_.value().size() > 0) {
     std::vector<uint32_t> clli;
     if (!ParseList(arg_clli_str_, ',', 2, &clli)) {
       std::cerr << "Invalid clli values, expected format: maxCLL,maxPALL where "
                    "both maxCLL and maxPALL are positive integers, got: "
                 << arg_clli_str_ << "\n";
       return AVIF_RESULT_INVALID_ARGUMENT;
     }
     clli_box.maxCLL = clli[0];
     clli_box.maxPALL = clli[1];
     clli_set = true;
   }

   const float headroom = arg_headroom_;
   const bool tone_mapping_to_hdr = (headroom > 0.0f);

   DecoderPtr decoder(avifDecoderCreate());
   if (decoder == NULL) {
     return AVIF_RESULT_OUT_OF_MEMORY;
   }
   decoder->enableDecodingGainMap = true;
   decoder->enableParsingGainMapMetadata = true;
   avifResult result = ReadAvif(decoder.get(), arg_input_filename_,
                                arg_image_read_.ignore_profile);
   if (result != AVIF_RESULT_OK) {
     return result;
   }

   avifImage* image = decoder->image;
   if (image->gainMap == nullptr || image->gainMap->image == nullptr) {
     std::cerr << "Input image " << arg_input_filename_
               << " does not contain a gain map\n";
     return AVIF_RESULT_INVALID_ARGUMENT;
   }

   avifGainMapMetadataDouble metadata;
   if (!avifGainMapMetadataFractionsToDouble(&metadata,
                                             &image->gainMap->metadata)) {
     std::cerr << "Input image " << arg_input_filename_
               << " has invalid gain map metadata\n";
     return AVIF_RESULT_INVALID_ARGUMENT;
   }

   // We are either tone mapping to the base image (i.e. leaving it as is),
   // or tone mapping to the alternate image (i.e. fully applying the gain map),
   // or tone mapping in between (partially applying the gain map).
   const bool tone_mapping_to_base =
       (headroom <= metadata.baseHdrHeadroom &&
        metadata.baseHdrHeadroom <= metadata.alternateHdrHeadroom) ||
       (headroom >= metadata.baseHdrHeadroom &&
        metadata.baseHdrHeadroom >= metadata.alternateHdrHeadroom);
   const bool tone_mapping_to_alternate =
       (headroom <= metadata.alternateHdrHeadroom &&
        metadata.alternateHdrHeadroom <= metadata.baseHdrHeadroom) ||
       (headroom >= metadata.alternateHdrHeadroom &&
        metadata.alternateHdrHeadroom >= metadata.baseHdrHeadroom);
   const bool base_is_hdr = (metadata.baseHdrHeadroom != 0.0f);

   // Determine output CICP.
   CicpValues cicp;
   if (arg_output_cicp_.provenance() == argparse::Provenance::SPECIFIED) {
     cicp = arg_output_cicp_;  // User provided values.
   } else if (tone_mapping_to_base || (tone_mapping_to_hdr && base_is_hdr)) {
     cicp = {image->colorPrimaries, image->transferCharacteristics,
             image->matrixCoefficients};
   } else {
     cicp = {image->gainMap->altColorPrimaries,
             image->gainMap->altTransferCharacteristics,
             image->gainMap->altMatrixCoefficients};
   }
   if (cicp.color_primaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
     // TODO(maryla): for now avifImageApplyGainMap always uses the primaries of
     // the base image, but it should take into account the metadata's
     // useBaseColorSpace property.
     cicp.color_primaries = image->colorPrimaries;
   }
   if (cicp.transfer_characteristics ==
       AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED) {
     cicp.transfer_characteristics = tone_mapping_to_hdr
                                         ? AVIF_TRANSFER_CHARACTERISTICS_PQ
                                         : AVIF_TRANSFER_CHARACTERISTICS_SRGB;
   }

   // Determine output depth.
   int depth = arg_image_read_.depth;
   if (depth == 0) {
     if (tone_mapping_to_base) {
       depth = image->depth;
     } else if (tone_mapping_to_alternate) {
       depth = image->gainMap->altDepth;
     }
     if (depth == 0) {
       // Default to the max depth between the base image, the gain map and
       // the specified 'altDepth'.
       depth = std::max(std::max(image->depth, image->gainMap->image->depth),
                        image->gainMap->altDepth);
     }
   }

   // Determine output pixel format.
   avifPixelFormat pixel_format =
       (avifPixelFormat)arg_image_read_.pixel_format.value();
   const avifPixelFormat alt_yuv_format =
       (image->gainMap->altPlaneCount == 1)
           ? AVIF_PIXEL_FORMAT_YUV400
           // Favor the least chroma subsampled format.
           : std::min(image->yuvFormat, image->gainMap->image->yuvFormat);
   if (pixel_format == AVIF_PIXEL_FORMAT_NONE) {
     if (tone_mapping_to_base) {
       pixel_format = image->yuvFormat;
     } else if (tone_mapping_to_alternate) {
       pixel_format = alt_yuv_format;
     }
     if (pixel_format == AVIF_PIXEL_FORMAT_NONE) {
       // Default to the least chroma subsampled format provided.
       pixel_format =
           std::min(std::min(image->yuvFormat, image->gainMap->image->yuvFormat),
                    alt_yuv_format);
     }
   }

   // Use the clli from the base image or the alternate image if the headroom
   // is outside of the (baseHdrHeadroom, alternateHdrHeadroom) range.
   if (!clli_set) {
     if (tone_mapping_to_base) {
       clli_box = image->clli;
     } else if (tone_mapping_to_alternate) {
       clli_box = image->gainMap->image->clli;
     }
   }
   clli_set = (clli_box.maxCLL != 0) || (clli_box.maxPALL != 0);

   ImagePtr tone_mapped(
       avifImageCreate(image->width, image->height, depth, pixel_format));
   if (tone_mapped == nullptr) {
     return AVIF_RESULT_OUT_OF_MEMORY;
   }
   avifRGBImage tone_mapped_rgb;
   avifRGBImageSetDefaults(&tone_mapped_rgb, tone_mapped.get());
   avifDiagnostics diag;
   result = avifImageApplyGainMap(
       decoder->image, image->gainMap, arg_headroom_, cicp.color_primaries,
       cicp.transfer_characteristics, &tone_mapped_rgb,
       clli_set ? nullptr : &clli_box, &diag);
   if (result != AVIF_RESULT_OK) {
     std::cout << "Failed to tone map image: " << avifResultToString(result)
               << " (" << diag.error << ")\n";
     return result;
   }
   result = avifImageRGBToYUV(tone_mapped.get(), &tone_mapped_rgb);
   if (result != AVIF_RESULT_OK) {
     std::cerr << "Failed to convert to YUV: " << avifResultToString(result)
               << "\n";
     return result;
   }

   tone_mapped->clli = clli_box;
   tone_mapped->transferCharacteristics = cicp.transfer_characteristics;
   tone_mapped->colorPrimaries = cicp.color_primaries;
   tone_mapped->matrixCoefficients = cicp.matrix_coefficients;

   return WriteImage(tone_mapped.get(), arg_output_filename_,
                     arg_image_encode_.quality, arg_image_encode_.speed);
 }

 }  // namespace avif
	// Copyright 2023 Google LLC
	// SPDX-License-Identifier: BSD-2-Clause

	#include "tonemap_command.h"

	#include <cmath>

	#include "avif/avif_cxx.h"
	#include "imageio.h"

	namespace avif {

	TonemapCommand::TonemapCommand()
	: ProgramCommand("tonemap",
	"Tone maps an avif image that has a gain map to a "
	"given HDR headroom (how much brighter the display can go "
	"compared to an SDR display)") {
	argparse_.add_argument(arg_input_filename_, "input_image");
	argparse_.add_argument(arg_output_filename_, "output_image");
	argparse_.add_argument(arg_headroom_, "--headroom")
	.help(
	"HDR headroom to tone map to. This is log2 of the ratio of HDR to "
	"SDR luminance. 0 means SDR.")
	.default_value("0");
	argparse_
	.add_argument<CicpValues, CicpConverter>(arg_input_cicp_, "--cicp-input")
	.help(
	"Override input CICP values, expressed as P/T/M "
	"where P = color primaries, T = transfer characteristics, "
	"M = matrix coefficients.");
	argparse_
	.add_argument<CicpValues, CicpConverter>(arg_output_cicp_,
	"--cicp-output")
	.help(
	"CICP values for the output, expressed as P/T/M "
	"where P = color primaries, T = transfer characteristics, "
	"M = matrix coefficients. P and M are only relevant when saving to "
	"AVIF. "
	"If not specified, 'color primaries' defaults to the base image's "
	"primaries, 'transfer characteristics' defaults to 16 (PQ) if "
	"headroom > 0, or 13 (sRGB) otherwise, 'matrix coefficients' "
	"defaults to 6 (BT601).");
	argparse_.add_argument(arg_clli_str_, "--clli")
	.help(
	"Override content light level information expressed as: "
	"MaxCLL,MaxPALL. Only relevant when saving to AVIF.");
	arg_image_read_.Init(argparse_);
	arg_image_encode_.Init(argparse_, /can_have_alpha=/true);
	}

	avifResult TonemapCommand::Run() {
	avifContentLightLevelInformationBox clli_box = {};
	bool clli_set = false;
	if (arg_clli_str_.value().size() > 0) {
	std::vector<uint32_t> clli;
	if (!ParseList(arg_clli_str_, ',', 2, &clli)) {
	std::cerr << "Invalid clli values, expected format: maxCLL,maxPALL where "
	"both maxCLL and maxPALL are positive integers, got: "
	<< arg_clli_str_ << "\n";
	return AVIF_RESULT_INVALID_ARGUMENT;
	}
	clli_box.maxCLL = clli[0];
	clli_box.maxPALL = clli[1];
	clli_set = true;
	}

	const float headroom = arg_headroom_;
	const bool tone_mapping_to_hdr = (headroom > 0.0f);

	DecoderPtr decoder(avifDecoderCreate());
	if (decoder == NULL) {
	return AVIF_RESULT_OUT_OF_MEMORY;
	}
	decoder->enableDecodingGainMap = true;
	decoder->enableParsingGainMapMetadata = true;
	avifResult result = ReadAvif(decoder.get(), arg_input_filename_,
	arg_image_read_.ignore_profile);
	if (result != AVIF_RESULT_OK) {
	return result;
	}

	avifImage* image = decoder->image;
	if (image->gainMap == nullptr \|\| image->gainMap->image == nullptr) {
	std::cerr << "Input image " << arg_input_filename_
	<< " does not contain a gain map\n";
	return AVIF_RESULT_INVALID_ARGUMENT;
	}

	avifGainMapMetadataDouble metadata;
	if (!avifGainMapMetadataFractionsToDouble(&metadata,
	&image->gainMap->metadata)) {
	std::cerr << "Input image " << arg_input_filename_
	<< " has invalid gain map metadata\n";
	return AVIF_RESULT_INVALID_ARGUMENT;
	}

	// We are either tone mapping to the base image (i.e. leaving it as is),
	// or tone mapping to the alternate image (i.e. fully applying the gain map),
	// or tone mapping in between (partially applying the gain map).
	const bool tone_mapping_to_base =
	(headroom <= metadata.baseHdrHeadroom &&
	metadata.baseHdrHeadroom <= metadata.alternateHdrHeadroom) \|\|
	(headroom >= metadata.baseHdrHeadroom &&
	metadata.baseHdrHeadroom >= metadata.alternateHdrHeadroom);
	const bool tone_mapping_to_alternate =
	(headroom <= metadata.alternateHdrHeadroom &&
	metadata.alternateHdrHeadroom <= metadata.baseHdrHeadroom) \|\|
	(headroom >= metadata.alternateHdrHeadroom &&
	metadata.alternateHdrHeadroom >= metadata.baseHdrHeadroom);
	const bool base_is_hdr = (metadata.baseHdrHeadroom != 0.0f);

	// Determine output CICP.
	CicpValues cicp;
	if (arg_output_cicp_.provenance() == argparse::Provenance::SPECIFIED) {
	cicp = arg_output_cicp_; // User provided values.
	} else if (tone_mapping_to_base \|\| (tone_mapping_to_hdr && base_is_hdr)) {
	cicp = {image->colorPrimaries, image->transferCharacteristics,
	image->matrixCoefficients};
	} else {
	cicp = {image->gainMap->altColorPrimaries,
	image->gainMap->altTransferCharacteristics,
	image->gainMap->altMatrixCoefficients};
	}
	if (cicp.color_primaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
	// TODO(maryla): for now avifImageApplyGainMap always uses the primaries of
	// the base image, but it should take into account the metadata's
	// useBaseColorSpace property.
	cicp.color_primaries = image->colorPrimaries;
	}
	if (cicp.transfer_characteristics ==
	AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED) {
	cicp.transfer_characteristics = tone_mapping_to_hdr
	? AVIF_TRANSFER_CHARACTERISTICS_PQ
	: AVIF_TRANSFER_CHARACTERISTICS_SRGB;
	}

	// Determine output depth.
	int depth = arg_image_read_.depth;
	if (depth == 0) {
	if (tone_mapping_to_base) {
	depth = image->depth;
	} else if (tone_mapping_to_alternate) {
	depth = image->gainMap->altDepth;
	}
	if (depth == 0) {
	// Default to the max depth between the base image, the gain map and
	// the specified 'altDepth'.
	depth = std::max(std::max(image->depth, image->gainMap->image->depth),
	image->gainMap->altDepth);
	}
	}

	// Determine output pixel format.
	avifPixelFormat pixel_format =
	(avifPixelFormat)arg_image_read_.pixel_format.value();
	const avifPixelFormat alt_yuv_format =
	(image->gainMap->altPlaneCount == 1)
	? AVIF_PIXEL_FORMAT_YUV400
	// Favor the least chroma subsampled format.
	: std::min(image->yuvFormat, image->gainMap->image->yuvFormat);
	if (pixel_format == AVIF_PIXEL_FORMAT_NONE) {
	if (tone_mapping_to_base) {
	pixel_format = image->yuvFormat;
	} else if (tone_mapping_to_alternate) {
	pixel_format = alt_yuv_format;
	}
	if (pixel_format == AVIF_PIXEL_FORMAT_NONE) {
	// Default to the least chroma subsampled format provided.
	pixel_format =
	std::min(std::min(image->yuvFormat, image->gainMap->image->yuvFormat),
	alt_yuv_format);
	}
	}

	// Use the clli from the base image or the alternate image if the headroom
	// is outside of the (baseHdrHeadroom, alternateHdrHeadroom) range.
	if (!clli_set) {
	if (tone_mapping_to_base) {
	clli_box = image->clli;
	} else if (tone_mapping_to_alternate) {
	clli_box = image->gainMap->image->clli;
	}
	}
	clli_set = (clli_box.maxCLL != 0) \|\| (clli_box.maxPALL != 0);

	ImagePtr tone_mapped(
	avifImageCreate(image->width, image->height, depth, pixel_format));
	if (tone_mapped == nullptr) {
	return AVIF_RESULT_OUT_OF_MEMORY;
	}
	avifRGBImage tone_mapped_rgb;
	avifRGBImageSetDefaults(&tone_mapped_rgb, tone_mapped.get());
	avifDiagnostics diag;
	result = avifImageApplyGainMap(
	decoder->image, image->gainMap, arg_headroom_, cicp.color_primaries,
	cicp.transfer_characteristics, &tone_mapped_rgb,
	clli_set ? nullptr : &clli_box, &diag);
	if (result != AVIF_RESULT_OK) {
	std::cout << "Failed to tone map image: " << avifResultToString(result)
	<< " (" << diag.error << ")\n";
	return result;
	}
	result = avifImageRGBToYUV(tone_mapped.get(), &tone_mapped_rgb);
	if (result != AVIF_RESULT_OK) {
	std::cerr << "Failed to convert to YUV: " << avifResultToString(result)
	<< "\n";
	return result;
	}

	tone_mapped->clli = clli_box;
	tone_mapped->transferCharacteristics = cicp.transfer_characteristics;
	tone_mapped->colorPrimaries = cicp.color_primaries;
	tone_mapped->matrixCoefficients = cicp.matrix_coefficients;

	return WriteImage(tone_mapped.get(), arg_output_filename_,
	arg_image_encode_.quality, arg_image_encode_.speed);
	}

	} // namespace avif