modules/video_coding/svc/scalability_structure_full_svc_unittest.cc - src - Git at Google

 /*
  *  Copyright (c) 2020 The WebRTC 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 in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */
 #include "modules/video_coding/svc/scalability_structure_full_svc.h"

 #include <vector>

 #include "modules/video_coding/svc/scalability_structure_test_helpers.h"
 #include "test/gmock.h"
 #include "test/gtest.h"

 namespace webrtc {
 namespace {

 using ::testing::IsEmpty;
 using ::testing::SizeIs;

 TEST(ScalabilityStructureL3T3Test, SkipT0FrameByEncoderKeepsReferencesValid) {
   std::vector<GenericFrameInfo> frames;
   ScalabilityStructureL3T3 structure;
   ScalabilityStructureWrapper wrapper(structure);

   // Only S0T0 decode target is enabled.
   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/1, /*s1=*/0));
   // Encoder generates S0T0 key frame.
   wrapper.GenerateFrames(/*num_temporal_units=*/1, frames);
   EXPECT_THAT(frames, SizeIs(1));
   // Spatial layers 1 is enabled.
   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/1, /*s1=*/1));
   // Encoder tries to generate S0T0 and S1T0 delta frames but they are dropped.
   structure.NextFrameConfig(/*restart=*/false);
   // Encoder successfully generates S0T0 and S1T0 delta frames.
   wrapper.GenerateFrames(/*num_temporal_units=*/1, frames);
   EXPECT_THAT(frames, SizeIs(3));

   EXPECT_TRUE(wrapper.FrameReferencesAreValid(frames));
 }

 TEST(ScalabilityStructureL3T3Test, SkipS1T1FrameKeepsStructureValid) {
   ScalabilityStructureL3T3 structure;
   ScalabilityStructureWrapper wrapper(structure);

   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/3, /*s1=*/3));
   auto frames = wrapper.GenerateFrames(/*num_temporal_units=*/1);
   EXPECT_THAT(frames, SizeIs(2));
   EXPECT_EQ(frames[0].temporal_id, 0);

   frames = wrapper.GenerateFrames(/*num_temporal_units=*/1);
   EXPECT_THAT(frames, SizeIs(2));
   EXPECT_EQ(frames[0].temporal_id, 2);

   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/3, /*s1=*/0));
   frames = wrapper.GenerateFrames(/*num_temporal_units=*/1);
   EXPECT_THAT(frames, SizeIs(1));
   EXPECT_EQ(frames[0].temporal_id, 1);

   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/3, /*s1=*/3));
   // Rely on checks inside GenerateFrames frame references are valid.
   frames = wrapper.GenerateFrames(/*num_temporal_units=*/1);
   EXPECT_THAT(frames, SizeIs(2));
   EXPECT_EQ(frames[0].temporal_id, 2);
 }

 TEST(ScalabilityStructureL3T3Test, SkipT1FrameByEncoderKeepsReferencesValid) {
   std::vector<GenericFrameInfo> frames;
   ScalabilityStructureL3T3 structure;
   ScalabilityStructureWrapper wrapper(structure);

   // 1st 2 temporal units (T0 and T2)
   wrapper.GenerateFrames(/*num_temporal_units=*/2, frames);
   // Simulate T1 frame dropped by the encoder,
   // i.e. retrieve config, but skip calling OnEncodeDone.
   structure.NextFrameConfig(/*restart=*/false);
   // one more temporal units (T2)
   wrapper.GenerateFrames(/*num_temporal_units=*/1, frames);

   EXPECT_TRUE(wrapper.FrameReferencesAreValid(frames));
 }

 TEST(ScalabilityStructureL3T3Test,
      SkippingFrameReusePreviousFrameConfiguration) {
   std::vector<GenericFrameInfo> frames;
   ScalabilityStructureL3T3 structure;
   ScalabilityStructureWrapper wrapper(structure);

   // 1st 2 temporal units (T0 and T2)
   wrapper.GenerateFrames(/*num_temporal_units=*/2, frames);
   ASSERT_THAT(frames, SizeIs(6));
   ASSERT_EQ(frames[0].temporal_id, 0);
   ASSERT_EQ(frames[3].temporal_id, 2);

   // Simulate a frame dropped by the encoder,
   // i.e. retrieve config, but skip calling OnEncodeDone.
   structure.NextFrameConfig(/*restart=*/false);
   // two more temporal unit, expect temporal pattern continues
   wrapper.GenerateFrames(/*num_temporal_units=*/2, frames);
   ASSERT_THAT(frames, SizeIs(12));
   // Expect temporal pattern continues as if there were no dropped frames.
   EXPECT_EQ(frames[6].temporal_id, 1);
   EXPECT_EQ(frames[9].temporal_id, 2);
 }

 TEST(ScalabilityStructureL3T3Test, SwitchSpatialLayerBeforeT1Frame) {
   ScalabilityStructureL3T3 structure;
   ScalabilityStructureWrapper wrapper(structure);

   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/2, /*s1=*/0));
   EXPECT_THAT(wrapper.GenerateFrames(1), SizeIs(1));
   structure.OnRatesUpdated(EnableTemporalLayers(/*s0=*/0, /*s1=*/2));
   auto frames = wrapper.GenerateFrames(1);
   ASSERT_THAT(frames, SizeIs(1));
   EXPECT_THAT(frames[0].frame_diffs, IsEmpty());
   EXPECT_EQ(frames[0].temporal_id, 0);
 }

 }  // namespace
 }  // namespace webrtc
	/*
	* Copyright (c) 2020 The WebRTC 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 in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/
	#include "modules/video_coding/svc/scalability_structure_full_svc.h"

	#include <vector>

	#include "modules/video_coding/svc/scalability_structure_test_helpers.h"
	#include "test/gmock.h"
	#include "test/gtest.h"

	namespace webrtc {
	namespace {

	using ::testing::IsEmpty;
	using ::testing::SizeIs;

	TEST(ScalabilityStructureL3T3Test, SkipT0FrameByEncoderKeepsReferencesValid) {
	std::vector<GenericFrameInfo> frames;
	ScalabilityStructureL3T3 structure;
	ScalabilityStructureWrapper wrapper(structure);

	// Only S0T0 decode target is enabled.
	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/1, /s1=/0));
	// Encoder generates S0T0 key frame.
	wrapper.GenerateFrames(/num_temporal_units=/1, frames);
	EXPECT_THAT(frames, SizeIs(1));
	// Spatial layers 1 is enabled.
	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/1, /s1=/1));
	// Encoder tries to generate S0T0 and S1T0 delta frames but they are dropped.
	structure.NextFrameConfig(/restart=/false);
	// Encoder successfully generates S0T0 and S1T0 delta frames.
	wrapper.GenerateFrames(/num_temporal_units=/1, frames);
	EXPECT_THAT(frames, SizeIs(3));

	EXPECT_TRUE(wrapper.FrameReferencesAreValid(frames));
	}

	TEST(ScalabilityStructureL3T3Test, SkipS1T1FrameKeepsStructureValid) {
	ScalabilityStructureL3T3 structure;
	ScalabilityStructureWrapper wrapper(structure);

	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/3, /s1=/3));
	auto frames = wrapper.GenerateFrames(/num_temporal_units=/1);
	EXPECT_THAT(frames, SizeIs(2));
	EXPECT_EQ(frames[0].temporal_id, 0);

	frames = wrapper.GenerateFrames(/num_temporal_units=/1);
	EXPECT_THAT(frames, SizeIs(2));
	EXPECT_EQ(frames[0].temporal_id, 2);

	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/3, /s1=/0));
	frames = wrapper.GenerateFrames(/num_temporal_units=/1);
	EXPECT_THAT(frames, SizeIs(1));
	EXPECT_EQ(frames[0].temporal_id, 1);

	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/3, /s1=/3));
	// Rely on checks inside GenerateFrames frame references are valid.
	frames = wrapper.GenerateFrames(/num_temporal_units=/1);
	EXPECT_THAT(frames, SizeIs(2));
	EXPECT_EQ(frames[0].temporal_id, 2);
	}

	TEST(ScalabilityStructureL3T3Test, SkipT1FrameByEncoderKeepsReferencesValid) {
	std::vector<GenericFrameInfo> frames;
	ScalabilityStructureL3T3 structure;
	ScalabilityStructureWrapper wrapper(structure);

	// 1st 2 temporal units (T0 and T2)
	wrapper.GenerateFrames(/num_temporal_units=/2, frames);
	// Simulate T1 frame dropped by the encoder,
	// i.e. retrieve config, but skip calling OnEncodeDone.
	structure.NextFrameConfig(/restart=/false);
	// one more temporal units (T2)
	wrapper.GenerateFrames(/num_temporal_units=/1, frames);

	EXPECT_TRUE(wrapper.FrameReferencesAreValid(frames));
	}

	TEST(ScalabilityStructureL3T3Test,
	SkippingFrameReusePreviousFrameConfiguration) {
	std::vector<GenericFrameInfo> frames;
	ScalabilityStructureL3T3 structure;
	ScalabilityStructureWrapper wrapper(structure);

	// 1st 2 temporal units (T0 and T2)
	wrapper.GenerateFrames(/num_temporal_units=/2, frames);
	ASSERT_THAT(frames, SizeIs(6));
	ASSERT_EQ(frames[0].temporal_id, 0);
	ASSERT_EQ(frames[3].temporal_id, 2);

	// Simulate a frame dropped by the encoder,
	// i.e. retrieve config, but skip calling OnEncodeDone.
	structure.NextFrameConfig(/restart=/false);
	// two more temporal unit, expect temporal pattern continues
	wrapper.GenerateFrames(/num_temporal_units=/2, frames);
	ASSERT_THAT(frames, SizeIs(12));
	// Expect temporal pattern continues as if there were no dropped frames.
	EXPECT_EQ(frames[6].temporal_id, 1);
	EXPECT_EQ(frames[9].temporal_id, 2);
	}

	TEST(ScalabilityStructureL3T3Test, SwitchSpatialLayerBeforeT1Frame) {
	ScalabilityStructureL3T3 structure;
	ScalabilityStructureWrapper wrapper(structure);

	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/2, /s1=/0));
	EXPECT_THAT(wrapper.GenerateFrames(1), SizeIs(1));
	structure.OnRatesUpdated(EnableTemporalLayers(/s0=/0, /s1=/2));
	auto frames = wrapper.GenerateFrames(1);
	ASSERT_THAT(frames, SizeIs(1));
	EXPECT_THAT(frames[0].frame_diffs, IsEmpty());
	EXPECT_EQ(frames[0].temporal_id, 0);
	}

	} // namespace
	} // namespace webrtc