modules/video_coding/video_codec_initializer_unittest.cc - src.git - Git at Google

 /*
  *  Copyright (c) 2017 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 "api/video_codecs/video_encoder.h"
 #include "common_video/include/video_bitrate_allocator.h"
 #include "common_types.h"  // NOLINT(build/include)
 #include "modules/video_coding/codecs/vp8/temporal_layers.h"
 #include "modules/video_coding/include/video_codec_initializer.h"
 #include "test/gtest.h"

 namespace webrtc {

 namespace {
 static const char* kVp8PayloadName = "VP8";
 static const int kVp8PayloadType = 100;
 static const int kDefaultWidth = 1280;
 static const int kDefaultHeight = 720;
 static const int kDefaultFrameRate = 30;
 static const uint32_t kDefaultMinBitrateBps = 60000;
 static const uint32_t kDefaultTargetBitrateBps = 2000000;
 static const uint32_t kDefaultMaxBitrateBps = 2000000;
 static const uint32_t kDefaultMinTransmitBitrateBps = 400000;
 static const int kDefaultMaxQp = 48;
 static const uint32_t kScreenshareTl0BitrateBps = 100000;
 static const uint32_t kScreenshareCodecTargetBitrateBps = 200000;
 static const uint32_t kScreenshareDefaultFramerate = 5;
 // Bitrates for the temporal layers of the higher screenshare simulcast stream.
 static const uint32_t kHighScreenshareTl0Bps = 800000;
 static const uint32_t kHighScreenshareTl1Bps = 1200000;
 }  // namespace

 /*
  *   static bool SetupCodec(
       const VideoEncoderConfig& config,
       const VideoSendStream::Config::EncoderSettings settings,
       const std::vector<VideoStream>& streams,
       bool nack_enabled,
       VideoCodec* codec,
       std::unique_ptr<VideoBitrateAllocator>* bitrate_allocator);

   // Create a bitrate allocator for the specified codec. |tl_factory| is
   // optional, if it is populated, ownership of that instance will be
   // transferred to the VideoBitrateAllocator instance.
   static std::unique_ptr<VideoBitrateAllocator> CreateBitrateAllocator(
       const VideoCodec& codec,
       std::unique_ptr<TemporalLayersFactory> tl_factory);
  */

 // TODO(sprang): Extend coverage to handle the rest of the codec initializer.
 class VideoCodecInitializerTest : public ::testing::Test {
  public:
   VideoCodecInitializerTest() : nack_enabled_(false) {}
   virtual ~VideoCodecInitializerTest() {}

  protected:
   void SetUpFor(VideoCodecType type,
                 int num_spatial_streams,
                 int num_temporal_streams,
                 bool screenshare) {
     config_ = VideoEncoderConfig();
     if (screenshare) {
       config_.min_transmit_bitrate_bps = kDefaultMinTransmitBitrateBps;
       config_.content_type = VideoEncoderConfig::ContentType::kScreen;
     }

     if (type == VideoCodecType::kVideoCodecVP8) {
       config_.number_of_streams = num_spatial_streams;
       VideoCodecVP8 vp8_settings = VideoEncoder::GetDefaultVp8Settings();
       vp8_settings.numberOfTemporalLayers = num_temporal_streams;
       config_.encoder_specific_settings = new rtc::RefCountedObject<
           webrtc::VideoEncoderConfig::Vp8EncoderSpecificSettings>(vp8_settings);
       settings_.payload_name = kVp8PayloadName;
       settings_.payload_type = kVp8PayloadType;
     } else {
       ADD_FAILURE() << "Unexpected codec type: " << type;
     }
   }

   bool InitializeCodec() {
     codec_out_ = VideoCodec();
     bitrate_allocator_out_.reset();
     temporal_layers_.clear();
     if (!VideoCodecInitializer::SetupCodec(config_, settings_, streams_,
                                            nack_enabled_, &codec_out_,
                                            &bitrate_allocator_out_)) {
       return false;
     }

     // Make sure temporal layers instances have been created.
     if (codec_out_.codecType == VideoCodecType::kVideoCodecVP8) {
       if (!codec_out_.VP8()->tl_factory)
         return false;

       for (int i = 0; i < codec_out_.numberOfSimulcastStreams; ++i) {
         temporal_layers_.emplace_back(codec_out_.VP8()->tl_factory->Create(
             i, streams_[i].temporal_layer_thresholds_bps.size() + 1, 0));
       }
     }
     return true;
   }

   VideoStream DefaultStream() {
     VideoStream stream;
     stream.width = kDefaultWidth;
     stream.height = kDefaultHeight;
     stream.max_framerate = kDefaultFrameRate;
     stream.min_bitrate_bps = kDefaultMinBitrateBps;
     stream.target_bitrate_bps = kDefaultTargetBitrateBps;
     stream.max_bitrate_bps = kDefaultMaxBitrateBps;
     stream.max_qp = kDefaultMaxQp;
     return stream;
   }

   VideoStream DefaultScreenshareStream() {
     VideoStream stream = DefaultStream();
     stream.min_bitrate_bps = 30000;
     stream.target_bitrate_bps = kScreenshareTl0BitrateBps;
     stream.max_bitrate_bps = 1000000;
     stream.max_framerate = kScreenshareDefaultFramerate;
     stream.temporal_layer_thresholds_bps.push_back(kScreenshareTl0BitrateBps);
     return stream;
   }

   // Input settings.
   VideoEncoderConfig config_;
   VideoSendStream::Config::EncoderSettings settings_;
   std::vector<VideoStream> streams_;
   bool nack_enabled_;

   // Output.
   VideoCodec codec_out_;
   std::unique_ptr<VideoBitrateAllocator> bitrate_allocator_out_;
   std::vector<std::unique_ptr<TemporalLayers>> temporal_layers_;
 };

 TEST_F(VideoCodecInitializerTest, SingleStreamVp8Screenshare) {
   SetUpFor(VideoCodecType::kVideoCodecVP8, 1, 1, true);
   streams_.push_back(DefaultStream());
   EXPECT_TRUE(InitializeCodec());

   BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
       kDefaultTargetBitrateBps, kDefaultFrameRate);
   EXPECT_EQ(1u, codec_out_.numberOfSimulcastStreams);
   EXPECT_EQ(1u, codec_out_.VP8()->numberOfTemporalLayers);
   EXPECT_EQ(kDefaultTargetBitrateBps, bitrate_allocation.get_sum_bps());
 }

 TEST_F(VideoCodecInitializerTest, TemporalLayeredVp8Screenshare) {
   SetUpFor(VideoCodecType::kVideoCodecVP8, 1, 2, true);
   streams_.push_back(DefaultScreenshareStream());
   EXPECT_TRUE(InitializeCodec());

   EXPECT_EQ(1u, codec_out_.numberOfSimulcastStreams);
   EXPECT_EQ(2u, codec_out_.VP8()->numberOfTemporalLayers);
   BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
       kScreenshareCodecTargetBitrateBps, kScreenshareDefaultFramerate);
   EXPECT_EQ(kScreenshareCodecTargetBitrateBps,
             bitrate_allocation.get_sum_bps());
   EXPECT_EQ(kScreenshareTl0BitrateBps, bitrate_allocation.GetBitrate(0, 0));
 }

 TEST_F(VideoCodecInitializerTest, SimlucastVp8Screenshare) {
   SetUpFor(VideoCodecType::kVideoCodecVP8, 2, 1, true);
   streams_.push_back(DefaultScreenshareStream());
   VideoStream video_stream = DefaultStream();
   video_stream.max_framerate = kScreenshareDefaultFramerate;
   streams_.push_back(video_stream);
   EXPECT_TRUE(InitializeCodec());

   EXPECT_EQ(2u, codec_out_.numberOfSimulcastStreams);
   EXPECT_EQ(1u, codec_out_.VP8()->numberOfTemporalLayers);
   const uint32_t max_bitrate_bps =
       streams_[0].target_bitrate_bps + streams_[1].max_bitrate_bps;
   BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
       max_bitrate_bps, kScreenshareDefaultFramerate);
   EXPECT_EQ(max_bitrate_bps, bitrate_allocation.get_sum_bps());
   EXPECT_EQ(static_cast<uint32_t>(streams_[0].target_bitrate_bps),
             bitrate_allocation.GetSpatialLayerSum(0));
   EXPECT_EQ(static_cast<uint32_t>(streams_[1].max_bitrate_bps),
             bitrate_allocation.GetSpatialLayerSum(1));
 }

 TEST_F(VideoCodecInitializerTest, HighFpsSimlucastVp8Screenshare) {
   // Two simulcast streams, the lower one using legacy settings (two temporal
   // streams, 5fps), the higher one using 3 temporal streams and 30fps.
   SetUpFor(VideoCodecType::kVideoCodecVP8, 2, 3, true);
   streams_.push_back(DefaultScreenshareStream());
   VideoStream video_stream = DefaultStream();
   video_stream.temporal_layer_thresholds_bps.push_back(kHighScreenshareTl0Bps);
   video_stream.temporal_layer_thresholds_bps.push_back(kHighScreenshareTl1Bps);
   streams_.push_back(video_stream);
   EXPECT_TRUE(InitializeCodec());

   EXPECT_EQ(2u, codec_out_.numberOfSimulcastStreams);
   EXPECT_EQ(3u, codec_out_.VP8()->numberOfTemporalLayers);
   const uint32_t max_bitrate_bps =
       streams_[0].target_bitrate_bps + streams_[1].max_bitrate_bps;
   BitrateAllocation bitrate_allocation =
       bitrate_allocator_out_->GetAllocation(max_bitrate_bps, kDefaultFrameRate);
   EXPECT_EQ(max_bitrate_bps, bitrate_allocation.get_sum_bps());
   EXPECT_EQ(static_cast<uint32_t>(streams_[0].target_bitrate_bps),
             bitrate_allocation.GetSpatialLayerSum(0));
   EXPECT_EQ(static_cast<uint32_t>(streams_[1].max_bitrate_bps),
             bitrate_allocation.GetSpatialLayerSum(1));
   EXPECT_EQ(kHighScreenshareTl0Bps, bitrate_allocation.GetBitrate(1, 0));
   EXPECT_EQ(kHighScreenshareTl1Bps - kHighScreenshareTl0Bps,
             bitrate_allocation.GetBitrate(1, 1));
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2017 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 "api/video_codecs/video_encoder.h"
	#include "common_video/include/video_bitrate_allocator.h"
	#include "common_types.h" // NOLINT(build/include)
	#include "modules/video_coding/codecs/vp8/temporal_layers.h"
	#include "modules/video_coding/include/video_codec_initializer.h"
	#include "test/gtest.h"

	namespace webrtc {

	namespace {
	static const char* kVp8PayloadName = "VP8";
	static const int kVp8PayloadType = 100;
	static const int kDefaultWidth = 1280;
	static const int kDefaultHeight = 720;
	static const int kDefaultFrameRate = 30;
	static const uint32_t kDefaultMinBitrateBps = 60000;
	static const uint32_t kDefaultTargetBitrateBps = 2000000;
	static const uint32_t kDefaultMaxBitrateBps = 2000000;
	static const uint32_t kDefaultMinTransmitBitrateBps = 400000;
	static const int kDefaultMaxQp = 48;
	static const uint32_t kScreenshareTl0BitrateBps = 100000;
	static const uint32_t kScreenshareCodecTargetBitrateBps = 200000;
	static const uint32_t kScreenshareDefaultFramerate = 5;
	// Bitrates for the temporal layers of the higher screenshare simulcast stream.
	static const uint32_t kHighScreenshareTl0Bps = 800000;
	static const uint32_t kHighScreenshareTl1Bps = 1200000;
	} // namespace

	/*
	* static bool SetupCodec(
	const VideoEncoderConfig& config,
	const VideoSendStream::Config::EncoderSettings settings,
	const std::vector<VideoStream>& streams,
	bool nack_enabled,
	VideoCodec* codec,
	std::unique_ptr<VideoBitrateAllocator>* bitrate_allocator);

	// Create a bitrate allocator for the specified codec. \|tl_factory\| is
	// optional, if it is populated, ownership of that instance will be
	// transferred to the VideoBitrateAllocator instance.
	static std::unique_ptr<VideoBitrateAllocator> CreateBitrateAllocator(
	const VideoCodec& codec,
	std::unique_ptr<TemporalLayersFactory> tl_factory);
	*/

	// TODO(sprang): Extend coverage to handle the rest of the codec initializer.
	class VideoCodecInitializerTest : public ::testing::Test {
	public:
	VideoCodecInitializerTest() : nack_enabled_(false) {}
	virtual ~VideoCodecInitializerTest() {}

	protected:
	void SetUpFor(VideoCodecType type,
	int num_spatial_streams,
	int num_temporal_streams,
	bool screenshare) {
	config_ = VideoEncoderConfig();
	if (screenshare) {
	config_.min_transmit_bitrate_bps = kDefaultMinTransmitBitrateBps;
	config_.content_type = VideoEncoderConfig::ContentType::kScreen;
	}

	if (type == VideoCodecType::kVideoCodecVP8) {
	config_.number_of_streams = num_spatial_streams;
	VideoCodecVP8 vp8_settings = VideoEncoder::GetDefaultVp8Settings();
	vp8_settings.numberOfTemporalLayers = num_temporal_streams;
	config_.encoder_specific_settings = new rtc::RefCountedObject<
	webrtc::VideoEncoderConfig::Vp8EncoderSpecificSettings>(vp8_settings);
	settings_.payload_name = kVp8PayloadName;
	settings_.payload_type = kVp8PayloadType;
	} else {
	ADD_FAILURE() << "Unexpected codec type: " << type;
	}
	}

	bool InitializeCodec() {
	codec_out_ = VideoCodec();
	bitrate_allocator_out_.reset();
	temporal_layers_.clear();
	if (!VideoCodecInitializer::SetupCodec(config_, settings_, streams_,
	nack_enabled_, &codec_out_,
	&bitrate_allocator_out_)) {
	return false;
	}

	// Make sure temporal layers instances have been created.
	if (codec_out_.codecType == VideoCodecType::kVideoCodecVP8) {
	if (!codec_out_.VP8()->tl_factory)
	return false;

	for (int i = 0; i < codec_out_.numberOfSimulcastStreams; ++i) {
	temporal_layers_.emplace_back(codec_out_.VP8()->tl_factory->Create(
	i, streams_[i].temporal_layer_thresholds_bps.size() + 1, 0));
	}
	}
	return true;
	}

	VideoStream DefaultStream() {
	VideoStream stream;
	stream.width = kDefaultWidth;
	stream.height = kDefaultHeight;
	stream.max_framerate = kDefaultFrameRate;
	stream.min_bitrate_bps = kDefaultMinBitrateBps;
	stream.target_bitrate_bps = kDefaultTargetBitrateBps;
	stream.max_bitrate_bps = kDefaultMaxBitrateBps;
	stream.max_qp = kDefaultMaxQp;
	return stream;
	}

	VideoStream DefaultScreenshareStream() {
	VideoStream stream = DefaultStream();
	stream.min_bitrate_bps = 30000;
	stream.target_bitrate_bps = kScreenshareTl0BitrateBps;
	stream.max_bitrate_bps = 1000000;
	stream.max_framerate = kScreenshareDefaultFramerate;
	stream.temporal_layer_thresholds_bps.push_back(kScreenshareTl0BitrateBps);
	return stream;
	}

	// Input settings.
	VideoEncoderConfig config_;
	VideoSendStream::Config::EncoderSettings settings_;
	std::vector<VideoStream> streams_;
	bool nack_enabled_;

	// Output.
	VideoCodec codec_out_;
	std::unique_ptr<VideoBitrateAllocator> bitrate_allocator_out_;
	std::vector<std::unique_ptr<TemporalLayers>> temporal_layers_;
	};

	TEST_F(VideoCodecInitializerTest, SingleStreamVp8Screenshare) {
	SetUpFor(VideoCodecType::kVideoCodecVP8, 1, 1, true);
	streams_.push_back(DefaultStream());
	EXPECT_TRUE(InitializeCodec());

	BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
	kDefaultTargetBitrateBps, kDefaultFrameRate);
	EXPECT_EQ(1u, codec_out_.numberOfSimulcastStreams);
	EXPECT_EQ(1u, codec_out_.VP8()->numberOfTemporalLayers);
	EXPECT_EQ(kDefaultTargetBitrateBps, bitrate_allocation.get_sum_bps());
	}

	TEST_F(VideoCodecInitializerTest, TemporalLayeredVp8Screenshare) {
	SetUpFor(VideoCodecType::kVideoCodecVP8, 1, 2, true);
	streams_.push_back(DefaultScreenshareStream());
	EXPECT_TRUE(InitializeCodec());

	EXPECT_EQ(1u, codec_out_.numberOfSimulcastStreams);
	EXPECT_EQ(2u, codec_out_.VP8()->numberOfTemporalLayers);
	BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
	kScreenshareCodecTargetBitrateBps, kScreenshareDefaultFramerate);
	EXPECT_EQ(kScreenshareCodecTargetBitrateBps,
	bitrate_allocation.get_sum_bps());
	EXPECT_EQ(kScreenshareTl0BitrateBps, bitrate_allocation.GetBitrate(0, 0));
	}

	TEST_F(VideoCodecInitializerTest, SimlucastVp8Screenshare) {
	SetUpFor(VideoCodecType::kVideoCodecVP8, 2, 1, true);
	streams_.push_back(DefaultScreenshareStream());
	VideoStream video_stream = DefaultStream();
	video_stream.max_framerate = kScreenshareDefaultFramerate;
	streams_.push_back(video_stream);
	EXPECT_TRUE(InitializeCodec());

	EXPECT_EQ(2u, codec_out_.numberOfSimulcastStreams);
	EXPECT_EQ(1u, codec_out_.VP8()->numberOfTemporalLayers);
	const uint32_t max_bitrate_bps =
	streams_[0].target_bitrate_bps + streams_[1].max_bitrate_bps;
	BitrateAllocation bitrate_allocation = bitrate_allocator_out_->GetAllocation(
	max_bitrate_bps, kScreenshareDefaultFramerate);
	EXPECT_EQ(max_bitrate_bps, bitrate_allocation.get_sum_bps());
	EXPECT_EQ(static_cast<uint32_t>(streams_[0].target_bitrate_bps),
	bitrate_allocation.GetSpatialLayerSum(0));
	EXPECT_EQ(static_cast<uint32_t>(streams_[1].max_bitrate_bps),
	bitrate_allocation.GetSpatialLayerSum(1));
	}

	TEST_F(VideoCodecInitializerTest, HighFpsSimlucastVp8Screenshare) {
	// Two simulcast streams, the lower one using legacy settings (two temporal
	// streams, 5fps), the higher one using 3 temporal streams and 30fps.
	SetUpFor(VideoCodecType::kVideoCodecVP8, 2, 3, true);
	streams_.push_back(DefaultScreenshareStream());
	VideoStream video_stream = DefaultStream();
	video_stream.temporal_layer_thresholds_bps.push_back(kHighScreenshareTl0Bps);
	video_stream.temporal_layer_thresholds_bps.push_back(kHighScreenshareTl1Bps);
	streams_.push_back(video_stream);
	EXPECT_TRUE(InitializeCodec());

	EXPECT_EQ(2u, codec_out_.numberOfSimulcastStreams);
	EXPECT_EQ(3u, codec_out_.VP8()->numberOfTemporalLayers);
	const uint32_t max_bitrate_bps =
	streams_[0].target_bitrate_bps + streams_[1].max_bitrate_bps;
	BitrateAllocation bitrate_allocation =
	bitrate_allocator_out_->GetAllocation(max_bitrate_bps, kDefaultFrameRate);
	EXPECT_EQ(max_bitrate_bps, bitrate_allocation.get_sum_bps());
	EXPECT_EQ(static_cast<uint32_t>(streams_[0].target_bitrate_bps),
	bitrate_allocation.GetSpatialLayerSum(0));
	EXPECT_EQ(static_cast<uint32_t>(streams_[1].max_bitrate_bps),
	bitrate_allocation.GetSpatialLayerSum(1));
	EXPECT_EQ(kHighScreenshareTl0Bps, bitrate_allocation.GetBitrate(1, 0));
	EXPECT_EQ(kHighScreenshareTl1Bps - kHighScreenshareTl0Bps,
	bitrate_allocation.GetBitrate(1, 1));
	}

	} // namespace webrtc