tests/gtest/avifchangesettingtest.cc - libavif - Git at Google

 // Copyright 2022 Yuan Tong. All rights reserved.
 // SPDX-License-Identifier: BSD-2-Clause

 #include <map>
 #include <string>

 #include "avif/avif.h"
 #include "aviftest_helpers.h"
 #include "gtest/gtest.h"

 namespace libavif {
 namespace {

 void TestEncodeDecode(avifCodecChoice codec,
                       const std::map<std::string, std::string>& init_cs_options,
                       bool can_encode, bool use_cq) {
   if (avifCodecName(codec, AVIF_CODEC_FLAG_CAN_ENCODE) == nullptr) {
     GTEST_SKIP() << "Codec unavailable, skip test.";
   }

   const uint32_t image_size = 512;
   testutil::AvifImagePtr image =
       testutil::CreateImage(image_size, image_size, 8, AVIF_PIXEL_FORMAT_YUV420,
                             AVIF_PLANES_YUV, AVIF_RANGE_FULL);
   ASSERT_NE(image, nullptr);
   testutil::FillImageGradient(image.get());

   // Encode
   testutil::AvifEncoderPtr encoder(avifEncoderCreate(), avifEncoderDestroy);
   ASSERT_NE(encoder, nullptr);
   encoder->codecChoice = codec;
   encoder->speed = AVIF_SPEED_FASTEST;
   encoder->timescale = 1;

   for (const auto& option : init_cs_options) {
     avifEncoderSetCodecSpecificOption(encoder.get(), option.first.c_str(),
                                       option.second.c_str());
   }

   if (use_cq) {
     encoder->minQuantizer = 0;
     encoder->maxQuantizer = 63;
     avifEncoderSetCodecSpecificOption(encoder.get(), "end-usage", "q");
     avifEncoderSetCodecSpecificOption(encoder.get(), "cq-level", "63");
   } else {
     encoder->minQuantizer = 63;
     encoder->maxQuantizer = 63;
   }

   ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
                                 AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
             AVIF_RESULT_OK);

   if (use_cq) {
     avifEncoderSetCodecSpecificOption(encoder.get(), "cq-level", "0");
   } else {
     encoder->minQuantizer = 0;
     encoder->maxQuantizer = 0;
   }

   if (!can_encode) {
     ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
                                   AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
               AVIF_RESULT_NOT_IMPLEMENTED);

     return;
   }

   ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
                                 AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
             AVIF_RESULT_OK);

   testutil::AvifRwData encodedAvif;
   ASSERT_EQ(avifEncoderFinish(encoder.get(), &encodedAvif), AVIF_RESULT_OK);

   // Decode
   testutil::AvifDecoderPtr decoder(avifDecoderCreate(), avifDecoderDestroy);
   ASSERT_NE(decoder, nullptr);

   // The second frame is set to have far better quality,
   // and should be much bigger, so small amount of data at beginning
   // should be enough to decode the first frame.
   avifIO* io = testutil::AvifIOCreateLimitedReader(
       avifIOCreateMemoryReader(encodedAvif.data, encodedAvif.size),
       encodedAvif.size / 10);
   ASSERT_NE(io, nullptr);
   avifDecoderSetIO(decoder.get(), io);
   ASSERT_EQ(avifDecoderParse(decoder.get()), AVIF_RESULT_OK);
   ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_OK);
   ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_WAITING_ON_IO);
   ((testutil::AvifIOLimitedReader*)io)->clamp =
       testutil::AvifIOLimitedReader::kNoClamp;
   ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_OK);
   ASSERT_EQ(avifDecoderNextImage(decoder.get()),
             AVIF_RESULT_NO_IMAGES_REMAINING);
 }

 TEST(ChangeSettingTest, AOM) {
   // Test if changes to AV1 encode settings are detected.
   TestEncodeDecode(AVIF_CODEC_CHOICE_AOM, {{"end-usage", "cbr"}}, true, false);

   // Test if changes to codec specific options are detected.
   TestEncodeDecode(AVIF_CODEC_CHOICE_AOM, {}, true, true);
 }

 TEST(ChangeSettingTest, RAV1E) {
   TestEncodeDecode(AVIF_CODEC_CHOICE_RAV1E, {}, false, false);
 }

 TEST(ChangeSettingTest, SVT) {
   TestEncodeDecode(AVIF_CODEC_CHOICE_SVT, {}, false, false);
 }

 TEST(ChangeSettingTest, UnchangeableSetting) {
   if (avifCodecName(AVIF_CODEC_CHOICE_AOM, AVIF_CODEC_FLAG_CAN_ENCODE) ==
       nullptr) {
     GTEST_SKIP() << "Codec unavailable, skip test.";
   }

   const uint32_t image_size = 512;
   testutil::AvifImagePtr image =
       testutil::CreateImage(image_size, image_size, 8, AVIF_PIXEL_FORMAT_YUV420,
                             AVIF_PLANES_YUV, AVIF_RANGE_FULL);
   ASSERT_NE(image, nullptr);
   testutil::FillImageGradient(image.get());

   // Encode
   testutil::AvifEncoderPtr encoder(avifEncoderCreate(), avifEncoderDestroy);
   ASSERT_NE(encoder, nullptr);
   encoder->codecChoice = AVIF_CODEC_CHOICE_AOM;
   encoder->speed = AVIF_SPEED_FASTEST;
   encoder->timescale = 1;
   encoder->minQuantizer = 63;
   encoder->maxQuantizer = 63;

   ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
                                 AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
             AVIF_RESULT_OK);

   encoder->timescale = 2;
   ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
                                 AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
             AVIF_RESULT_CANNOT_CHANGE_SETTING);
 }

 }  // namespace
 }  // namespace libavif
	// Copyright 2022 Yuan Tong. All rights reserved.
	// SPDX-License-Identifier: BSD-2-Clause

	#include <map>
	#include <string>

	#include "avif/avif.h"
	#include "aviftest_helpers.h"
	#include "gtest/gtest.h"

	namespace libavif {
	namespace {

	void TestEncodeDecode(avifCodecChoice codec,
	const std::map<std::string, std::string>& init_cs_options,
	bool can_encode, bool use_cq) {
	if (avifCodecName(codec, AVIF_CODEC_FLAG_CAN_ENCODE) == nullptr) {
	GTEST_SKIP() << "Codec unavailable, skip test.";
	}

	const uint32_t image_size = 512;
	testutil::AvifImagePtr image =
	testutil::CreateImage(image_size, image_size, 8, AVIF_PIXEL_FORMAT_YUV420,
	AVIF_PLANES_YUV, AVIF_RANGE_FULL);
	ASSERT_NE(image, nullptr);
	testutil::FillImageGradient(image.get());

	// Encode
	testutil::AvifEncoderPtr encoder(avifEncoderCreate(), avifEncoderDestroy);
	ASSERT_NE(encoder, nullptr);
	encoder->codecChoice = codec;
	encoder->speed = AVIF_SPEED_FASTEST;
	encoder->timescale = 1;

	for (const auto& option : init_cs_options) {
	avifEncoderSetCodecSpecificOption(encoder.get(), option.first.c_str(),
	option.second.c_str());
	}

	if (use_cq) {
	encoder->minQuantizer = 0;
	encoder->maxQuantizer = 63;
	avifEncoderSetCodecSpecificOption(encoder.get(), "end-usage", "q");
	avifEncoderSetCodecSpecificOption(encoder.get(), "cq-level", "63");
	} else {
	encoder->minQuantizer = 63;
	encoder->maxQuantizer = 63;
	}

	ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
	AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
	AVIF_RESULT_OK);

	if (use_cq) {
	avifEncoderSetCodecSpecificOption(encoder.get(), "cq-level", "0");
	} else {
	encoder->minQuantizer = 0;
	encoder->maxQuantizer = 0;
	}

	if (!can_encode) {
	ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
	AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
	AVIF_RESULT_NOT_IMPLEMENTED);

	return;
	}

	ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
	AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
	AVIF_RESULT_OK);

	testutil::AvifRwData encodedAvif;
	ASSERT_EQ(avifEncoderFinish(encoder.get(), &encodedAvif), AVIF_RESULT_OK);

	// Decode
	testutil::AvifDecoderPtr decoder(avifDecoderCreate(), avifDecoderDestroy);
	ASSERT_NE(decoder, nullptr);

	// The second frame is set to have far better quality,
	// and should be much bigger, so small amount of data at beginning
	// should be enough to decode the first frame.
	avifIO* io = testutil::AvifIOCreateLimitedReader(
	avifIOCreateMemoryReader(encodedAvif.data, encodedAvif.size),
	encodedAvif.size / 10);
	ASSERT_NE(io, nullptr);
	avifDecoderSetIO(decoder.get(), io);
	ASSERT_EQ(avifDecoderParse(decoder.get()), AVIF_RESULT_OK);
	ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_OK);
	ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_WAITING_ON_IO);
	((testutil::AvifIOLimitedReader*)io)->clamp =
	testutil::AvifIOLimitedReader::kNoClamp;
	ASSERT_EQ(avifDecoderNextImage(decoder.get()), AVIF_RESULT_OK);
	ASSERT_EQ(avifDecoderNextImage(decoder.get()),
	AVIF_RESULT_NO_IMAGES_REMAINING);
	}

	TEST(ChangeSettingTest, AOM) {
	// Test if changes to AV1 encode settings are detected.
	TestEncodeDecode(AVIF_CODEC_CHOICE_AOM, {{"end-usage", "cbr"}}, true, false);

	// Test if changes to codec specific options are detected.
	TestEncodeDecode(AVIF_CODEC_CHOICE_AOM, {}, true, true);
	}

	TEST(ChangeSettingTest, RAV1E) {
	TestEncodeDecode(AVIF_CODEC_CHOICE_RAV1E, {}, false, false);
	}

	TEST(ChangeSettingTest, SVT) {
	TestEncodeDecode(AVIF_CODEC_CHOICE_SVT, {}, false, false);
	}

	TEST(ChangeSettingTest, UnchangeableSetting) {
	if (avifCodecName(AVIF_CODEC_CHOICE_AOM, AVIF_CODEC_FLAG_CAN_ENCODE) ==
	nullptr) {
	GTEST_SKIP() << "Codec unavailable, skip test.";
	}

	const uint32_t image_size = 512;
	testutil::AvifImagePtr image =
	testutil::CreateImage(image_size, image_size, 8, AVIF_PIXEL_FORMAT_YUV420,
	AVIF_PLANES_YUV, AVIF_RANGE_FULL);
	ASSERT_NE(image, nullptr);
	testutil::FillImageGradient(image.get());

	// Encode
	testutil::AvifEncoderPtr encoder(avifEncoderCreate(), avifEncoderDestroy);
	ASSERT_NE(encoder, nullptr);
	encoder->codecChoice = AVIF_CODEC_CHOICE_AOM;
	encoder->speed = AVIF_SPEED_FASTEST;
	encoder->timescale = 1;
	encoder->minQuantizer = 63;
	encoder->maxQuantizer = 63;

	ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
	AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
	AVIF_RESULT_OK);

	encoder->timescale = 2;
	ASSERT_EQ(avifEncoderAddImage(encoder.get(), image.get(), 1,
	AVIF_ADD_IMAGE_FLAG_FORCE_KEYFRAME),
	AVIF_RESULT_CANNOT_CHANGE_SETTING);
	}

	} // namespace
	} // namespace libavif