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

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

 #include "convert_command.h"

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

 namespace avif {

 ConvertCommand::ConvertCommand()
     : ProgramCommand("convert", "Convert a jpeg with a gain map to avif.") {
   argparse_.add_argument(arg_input_filename_, "input_filename.jpg");
   argparse_.add_argument(arg_output_filename_, "output_image.avif");
   argparse_.add_argument(arg_swap_base_, "--swap-base")
       .help("Make the HDR image the base image")
       .action(argparse::Action::STORE_TRUE)
       .default_value("false");
   argparse_.add_argument(arg_gain_map_quality_, "--qgain-map")
       .help("Quality for the gain map (0-100, where 100 is lossless)")
       .default_value("60");
   argparse_.add_argument<CicpValues, CicpConverter>(arg_cicp_, "--cicp")
       .help(
           "Set the cicp values for the input image, expressed as "
           "P/T/M where P = color primaries, T = transfer characteristics, "
           "M = matrix coefficients.");
   arg_image_encode_.Init(argparse_, /*can_have_alpha=*/false);
   arg_image_read_.Init(argparse_);
 }

 avifResult ConvertCommand::Run() {
   const avifPixelFormat pixel_format =
       static_cast<avifPixelFormat>(arg_image_read_.pixel_format.value());

   ImagePtr image(avifImageCreateEmpty());
   if (image == nullptr) {
     return AVIF_RESULT_OUT_OF_MEMORY;
   }

   const avifAppFileFormat file_format = avifReadImage(
       arg_input_filename_.value().c_str(), pixel_format, arg_image_read_.depth,
       AVIF_CHROMA_DOWNSAMPLING_AUTOMATIC, arg_image_read_.ignore_profile,
       /*ignoreExif=*/false,
       /*ignoreXMP=*/false,
       /*allowChangingCicp=*/true,
       /*ignoreGainMap=*/false, AVIF_DEFAULT_IMAGE_SIZE_LIMIT, image.get(),
       /*outDepth=*/nullptr,
       /*sourceTiming=*/nullptr,
       /*frameIter=*/nullptr);
   if (file_format == AVIF_APP_FILE_FORMAT_UNKNOWN) {
     std::cout << "Failed to decode image: " << arg_input_filename_;
     return AVIF_RESULT_INVALID_ARGUMENT;
   }
   if (arg_cicp_.provenance() == argparse::Provenance::SPECIFIED) {
     image->colorPrimaries = arg_cicp_.value().color_primaries;
     image->transferCharacteristics = arg_cicp_.value().transfer_characteristics;
     image->matrixCoefficients = arg_cicp_.value().matrix_coefficients;
   } else if (image->icc.size == 0 &&
              image->colorPrimaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED &&
              image->transferCharacteristics ==
                  AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
     // If there is no ICC and no CICP, assume sRGB by default.
     image->colorPrimaries = AVIF_COLOR_PRIMARIES_SRGB;
     image->transferCharacteristics = AVIF_TRANSFER_CHARACTERISTICS_SRGB;
   }

   if (image->gainMap && image->gainMap->altICC.size == 0) {
     if (image->gainMap->altColorPrimaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
       // Assume the alternate image has the same primaries as the base image.
       image->gainMap->altColorPrimaries = image->colorPrimaries;
     }
     if (image->gainMap->altTransferCharacteristics ==
         AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED) {
       // Assume the alternate image is PQ HDR.
       image->gainMap->altTransferCharacteristics =
           AVIF_TRANSFER_CHARACTERISTICS_PQ;
     }
   }

   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;
   }

   if (arg_swap_base_) {
     int depth = arg_image_read_.depth;
     if (depth == 0) {
       depth = image->gainMap->metadata.alternateHdrHeadroomN == 0 ? 8 : 10;
     }
     ImagePtr new_base(avifImageCreateEmpty());
     if (new_base == nullptr) {
       return AVIF_RESULT_OUT_OF_MEMORY;
     }
     const avifResult result =
         ChangeBase(*image, depth, image->yuvFormat, new_base.get());
     if (result != AVIF_RESULT_OK) {
       return result;
     }
     std::swap(image, new_base);
   }

   EncoderPtr encoder(avifEncoderCreate());
   if (encoder == nullptr) {
     return AVIF_RESULT_OUT_OF_MEMORY;
   }
   encoder->quality = arg_image_encode_.quality;
   encoder->qualityAlpha = arg_image_encode_.quality_alpha;
   encoder->qualityGainMap = arg_gain_map_quality_;
   encoder->speed = arg_image_encode_.speed;
   const avifResult result =
       WriteAvif(image.get(), encoder.get(), arg_output_filename_);
   if (result != AVIF_RESULT_OK) {
     std::cout << "Failed to encode image: " << avifResultToString(result)
               << " (" << encoder->diag.error << ")\n";
     return result;
   }

   return AVIF_RESULT_OK;
 }

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

	#include "convert_command.h"

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

	namespace avif {

	ConvertCommand::ConvertCommand()
	: ProgramCommand("convert", "Convert a jpeg with a gain map to avif.") {
	argparse_.add_argument(arg_input_filename_, "input_filename.jpg");
	argparse_.add_argument(arg_output_filename_, "output_image.avif");
	argparse_.add_argument(arg_swap_base_, "--swap-base")
	.help("Make the HDR image the base image")
	.action(argparse::Action::STORE_TRUE)
	.default_value("false");
	argparse_.add_argument(arg_gain_map_quality_, "--qgain-map")
	.help("Quality for the gain map (0-100, where 100 is lossless)")
	.default_value("60");
	argparse_.add_argument<CicpValues, CicpConverter>(arg_cicp_, "--cicp")
	.help(
	"Set the cicp values for the input image, expressed as "
	"P/T/M where P = color primaries, T = transfer characteristics, "
	"M = matrix coefficients.");
	arg_image_encode_.Init(argparse_, /can_have_alpha=/false);
	arg_image_read_.Init(argparse_);
	}

	avifResult ConvertCommand::Run() {
	const avifPixelFormat pixel_format =
	static_cast<avifPixelFormat>(arg_image_read_.pixel_format.value());

	ImagePtr image(avifImageCreateEmpty());
	if (image == nullptr) {
	return AVIF_RESULT_OUT_OF_MEMORY;
	}

	const avifAppFileFormat file_format = avifReadImage(
	arg_input_filename_.value().c_str(), pixel_format, arg_image_read_.depth,
	AVIF_CHROMA_DOWNSAMPLING_AUTOMATIC, arg_image_read_.ignore_profile,
	/ignoreExif=/false,
	/ignoreXMP=/false,
	/allowChangingCicp=/true,
	/ignoreGainMap=/false, AVIF_DEFAULT_IMAGE_SIZE_LIMIT, image.get(),
	/outDepth=/nullptr,
	/sourceTiming=/nullptr,
	/frameIter=/nullptr);
	if (file_format == AVIF_APP_FILE_FORMAT_UNKNOWN) {
	std::cout << "Failed to decode image: " << arg_input_filename_;
	return AVIF_RESULT_INVALID_ARGUMENT;
	}
	if (arg_cicp_.provenance() == argparse::Provenance::SPECIFIED) {
	image->colorPrimaries = arg_cicp_.value().color_primaries;
	image->transferCharacteristics = arg_cicp_.value().transfer_characteristics;
	image->matrixCoefficients = arg_cicp_.value().matrix_coefficients;
	} else if (image->icc.size == 0 &&
	image->colorPrimaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED &&
	image->transferCharacteristics ==
	AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
	// If there is no ICC and no CICP, assume sRGB by default.
	image->colorPrimaries = AVIF_COLOR_PRIMARIES_SRGB;
	image->transferCharacteristics = AVIF_TRANSFER_CHARACTERISTICS_SRGB;
	}

	if (image->gainMap && image->gainMap->altICC.size == 0) {
	if (image->gainMap->altColorPrimaries == AVIF_COLOR_PRIMARIES_UNSPECIFIED) {
	// Assume the alternate image has the same primaries as the base image.
	image->gainMap->altColorPrimaries = image->colorPrimaries;
	}
	if (image->gainMap->altTransferCharacteristics ==
	AVIF_TRANSFER_CHARACTERISTICS_UNSPECIFIED) {
	// Assume the alternate image is PQ HDR.
	image->gainMap->altTransferCharacteristics =
	AVIF_TRANSFER_CHARACTERISTICS_PQ;
	}
	}

	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;
	}

	if (arg_swap_base_) {
	int depth = arg_image_read_.depth;
	if (depth == 0) {
	depth = image->gainMap->metadata.alternateHdrHeadroomN == 0 ? 8 : 10;
	}
	ImagePtr new_base(avifImageCreateEmpty());
	if (new_base == nullptr) {
	return AVIF_RESULT_OUT_OF_MEMORY;
	}
	const avifResult result =
	ChangeBase(*image, depth, image->yuvFormat, new_base.get());
	if (result != AVIF_RESULT_OK) {
	return result;
	}
	std::swap(image, new_base);
	}

	EncoderPtr encoder(avifEncoderCreate());
	if (encoder == nullptr) {
	return AVIF_RESULT_OUT_OF_MEMORY;
	}
	encoder->quality = arg_image_encode_.quality;
	encoder->qualityAlpha = arg_image_encode_.quality_alpha;
	encoder->qualityGainMap = arg_gain_map_quality_;
	encoder->speed = arg_image_encode_.speed;
	const avifResult result =
	WriteAvif(image.get(), encoder.get(), arg_output_filename_);
	if (result != AVIF_RESULT_OK) {
	std::cout << "Failed to encode image: " << avifResultToString(result)
	<< " (" << encoder->diag.error << ")\n";
	return result;
	}

	return AVIF_RESULT_OK;
	}

	} // namespace avif