| /* |
| * Copyright (c) 2014 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 "testing/gtest/include/gtest/gtest.h" |
| #include "webrtc/common_types.h" |
| |
| namespace webrtc { |
| |
| // Builds VP8 codec with 0 simulcast streams. |
| void BuildVP8Codec(webrtc::VideoCodec* video_codec) { |
| video_codec->codecType = kVideoCodecVP8; |
| strncpy(video_codec->plName, "VP8", 4); |
| video_codec->plType = 100; |
| video_codec->width = 1280; |
| video_codec->height = 720; |
| |
| video_codec->startBitrate = 1000; // kbps |
| video_codec->maxBitrate = 2000; // kbps |
| video_codec->minBitrate = 1000; // kbps |
| video_codec->maxFramerate = 30; |
| |
| video_codec->qpMax = 50; |
| video_codec->numberOfSimulcastStreams = 0; |
| video_codec->mode = kRealtimeVideo; |
| |
| // Set VP8 codec specific info. |
| video_codec->codecSpecific.VP8.pictureLossIndicationOn = true; |
| video_codec->codecSpecific.VP8.feedbackModeOn = true; |
| video_codec->codecSpecific.VP8.complexity = kComplexityNormal; |
| video_codec->codecSpecific.VP8.resilience = kResilienceOff; |
| video_codec->codecSpecific.VP8.numberOfTemporalLayers = 0; |
| video_codec->codecSpecific.VP8.denoisingOn = true; |
| video_codec->codecSpecific.VP8.errorConcealmentOn = true; |
| video_codec->codecSpecific.VP8.automaticResizeOn = true; |
| video_codec->codecSpecific.VP8.frameDroppingOn = true; |
| video_codec->codecSpecific.VP8.keyFrameInterval = 200; |
| } |
| |
| |
| void SetSimulcastSettings(webrtc::VideoCodec* video_codec) { |
| // Simulcast settings. |
| video_codec->numberOfSimulcastStreams = 1; |
| video_codec->simulcastStream[0].width = 320; |
| video_codec->simulcastStream[0].height = 180; |
| video_codec->simulcastStream[0].numberOfTemporalLayers = 0; |
| video_codec->simulcastStream[0].maxBitrate = 100; |
| video_codec->simulcastStream[0].targetBitrate = 100; |
| video_codec->simulcastStream[0].minBitrate = 0; |
| video_codec->simulcastStream[0].qpMax = video_codec->qpMax; |
| } |
| |
| |
| // This test compares two VideoCodecInst objects except codec specific and |
| // simulcast streams. |
| TEST(ViECodecTest, TestCompareCodecs) { |
| VideoCodec codec1, codec2; |
| memset(&codec1, 0, sizeof(VideoCodec)); |
| memset(&codec2, 0, sizeof(VideoCodec)); |
| |
| BuildVP8Codec(&codec1); |
| BuildVP8Codec(&codec2); |
| |
| EXPECT_TRUE(codec1 == codec2); |
| EXPECT_FALSE(codec1 != codec2); |
| |
| // plname is case insensitive. |
| strncpy(codec2.plName, "vp8", 4); |
| EXPECT_TRUE(codec1 == codec2); |
| |
| codec2.codecType = kVideoCodecUnknown; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modify pltype. |
| BuildVP8Codec(&codec2); |
| codec2.plType = 101; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modifing height and width. |
| BuildVP8Codec(&codec2); |
| codec2.width = 640; |
| codec2.height = 480; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modify framerate, default value is 30. |
| BuildVP8Codec(&codec2); |
| codec2.maxFramerate = 15; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modifying startBitrate, default value is 1000 kbps. |
| BuildVP8Codec(&codec2); |
| codec2.startBitrate = 2000; |
| EXPECT_FALSE(codec1 == codec2); |
| // maxBitrate |
| BuildVP8Codec(&codec2); |
| codec2.startBitrate = 3000; |
| EXPECT_FALSE(codec1 == codec2); |
| // minBirate |
| BuildVP8Codec(&codec2); |
| codec2.startBitrate = 500; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modify qpMax. |
| BuildVP8Codec(&codec2); |
| codec2.qpMax = 100; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Modify mode |
| BuildVP8Codec(&codec2); |
| codec2.mode = kScreensharing; |
| EXPECT_FALSE(codec1 == codec2); |
| } |
| |
| // Test VP8 specific comparision. |
| TEST(ViECodecTest, TestCompareVP8CodecSpecific) { |
| VideoCodec codec1, codec2; |
| memset(&codec1, 0, sizeof(VideoCodec)); |
| memset(&codec2, 0, sizeof(VideoCodec)); |
| |
| BuildVP8Codec(&codec1); |
| BuildVP8Codec(&codec2); |
| EXPECT_TRUE(codec1 == codec2); |
| |
| // pictureLossIndicationOn |
| codec2.codecSpecific.VP8.pictureLossIndicationOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // feedbackModeOn |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.feedbackModeOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // complexity |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.complexity = kComplexityHigh; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // resilience |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.resilience = kResilientStream; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // numberOfTemporalLayers |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.numberOfTemporalLayers = 2; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // denoisingOn |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.denoisingOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // errorConcealmentOn |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.errorConcealmentOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // pictureLossIndicationOn |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.automaticResizeOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // frameDroppingOn |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.frameDroppingOn = false; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // keyFrameInterval |
| BuildVP8Codec(&codec2); |
| codec2.codecSpecific.VP8.keyFrameInterval = 100; |
| EXPECT_FALSE(codec1 == codec2); |
| } |
| |
| // This test compares simulcast stream information in VideoCodec. |
| TEST(ViECodecTest, TestCompareSimulcastStreams) { |
| VideoCodec codec1, codec2; |
| memset(&codec1, 0, sizeof(VideoCodec)); |
| memset(&codec2, 0, sizeof(VideoCodec)); |
| |
| BuildVP8Codec(&codec1); |
| BuildVP8Codec(&codec2); |
| // Set simulacast settings. |
| SetSimulcastSettings(&codec1); |
| SetSimulcastSettings(&codec2); |
| EXPECT_TRUE(codec1 == codec2); |
| |
| // Modify number of streams. |
| codec2.numberOfSimulcastStreams = 2; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // Resetting steram count. |
| codec2.numberOfSimulcastStreams = 1; |
| // Modify height and width in codec2. |
| codec2.simulcastStream[0].width = 640; |
| codec2.simulcastStream[0].height = 480; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // numberOfTemporalLayers |
| SetSimulcastSettings(&codec2); |
| codec2.simulcastStream[0].numberOfTemporalLayers = 2; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // maxBitrate |
| SetSimulcastSettings(&codec2); |
| codec2.simulcastStream[0].maxBitrate = 1000; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // targetBitrate |
| SetSimulcastSettings(&codec2); |
| codec2.simulcastStream[0].targetBitrate = 1000; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // minBitrate |
| SetSimulcastSettings(&codec2); |
| codec2.simulcastStream[0].minBitrate = 50; |
| EXPECT_FALSE(codec1 == codec2); |
| |
| // qpMax |
| SetSimulcastSettings(&codec2); |
| codec2.simulcastStream[0].qpMax = 100; |
| EXPECT_FALSE(codec1 == codec2); |
| } |
| |
| } // namespace webrtc |
