// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "remoting/codec/video_encoder_vpx.h" #include #include #include "base/memory/scoped_ptr.h" #include "remoting/codec/codec_test.h" #include "remoting/proto/video.pb.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/webrtc/modules/desktop_capture/desktop_frame.h" namespace remoting { // xRGB pixel colors for use by tests. const uint32 kBlueColor = 0x0000ff; const uint32 kGreenColor = 0x00ff00; // Creates a frame stippled between blue and red pixels, which is useful for // lossy/lossless encode and color tests. By default all pixels in the frame // are included in the updated_region(). static scoped_ptr CreateTestFrame( const webrtc::DesktopSize& frame_size) { scoped_ptr frame( new webrtc::BasicDesktopFrame(frame_size)); for (int x = 0; x < frame_size.width(); ++x) { for (int y = 0; y < frame_size.height(); ++y) { uint8* pixel_u8 = frame->data() + (y * frame->stride()) + (x * webrtc::DesktopFrame::kBytesPerPixel); *(reinterpret_cast(pixel_u8)) = ((x + y) & 1) ? kGreenColor : kBlueColor; } } frame->mutable_updated_region()->SetRect( webrtc::DesktopRect::MakeSize(frame_size)); return frame.Pass(); } TEST(VideoEncoderVpxTest, Vp8) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP8()); TestVideoEncoder(encoder.get(), false); } TEST(VideoEncoderVpxTest, Vp9) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); // VP9 encoder defaults to lossless encode and lossy (I420) color. TestVideoEncoder(encoder.get(), false); } // Test that the VP9 encoder can switch between lossy & lossless encode. TEST(VideoEncoderVpxTest, Vp9LossyEncodeSwitching) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); webrtc::DesktopSize frame_size(100, 100); scoped_ptr frame(CreateTestFrame(frame_size)); // Lossy encode the first frame. encoder->SetLosslessEncode(false); scoped_ptr lossy_packet = encoder->Encode(*frame); // Lossless encode the second frame. encoder->SetLosslessEncode(true); scoped_ptr lossless_packet = encoder->Encode(*frame); // Lossless encode is so good that the frames are smaller than the lossy // encodes. This comparison needs to be revisited. // http://crbug.com/439166 // EXPECT_GT(lossless_packet->data().size(), lossy_packet->data().size()); // Lossy encode one more frame. encoder->SetLosslessEncode(false); lossy_packet = encoder->Encode(*frame); // Same bug as above. // EXPECT_LT(lossy_packet->data().size(), lossless_packet->data().size()); } // Test that the VP9 encoder can switch between lossy & lossless color. TEST(VideoEncoderVpxTest, Vp9LossyColorSwitching) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); webrtc::DesktopSize frame_size(100, 100); scoped_ptr frame(CreateTestFrame(frame_size)); // Lossy encode the first frame. encoder->SetLosslessColor(false); scoped_ptr lossy_packet = encoder->Encode(*frame); // Lossless encode the second frame. encoder->SetLosslessColor(true); scoped_ptr lossless_packet = encoder->Encode(*frame); // Lossy encode one more frame. encoder->SetLosslessColor(false); lossy_packet = encoder->Encode(*frame); } // Test that the VP8 encoder ignores lossless modes without crashing. TEST(VideoEncoderVpxTest, Vp8IgnoreLossy) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP8()); webrtc::DesktopSize frame_size(100, 100); scoped_ptr frame(CreateTestFrame(frame_size)); // Encode a frame, to give the encoder a chance to crash if misconfigured. encoder->SetLosslessEncode(true); encoder->SetLosslessColor(true); scoped_ptr packet = encoder->Encode(*frame); EXPECT_TRUE(packet); } // Test that calling Encode with a larger frame size than the initial one // does not cause VP8 to crash. TEST(VideoEncoderVpxTest, Vp8SizeChangeNoCrash) { webrtc::DesktopSize frame_size(100, 100); scoped_ptr encoder(VideoEncoderVpx::CreateForVP8()); // Create first frame & encode it. scoped_ptr frame(CreateTestFrame(frame_size)); scoped_ptr packet = encoder->Encode(*frame); EXPECT_TRUE(packet); // Double the size of the frame, and updated region, and encode again. frame_size.set(frame_size.width() * 2, frame_size.height() * 2); frame = CreateTestFrame(frame_size); packet = encoder->Encode(*frame); EXPECT_TRUE(packet); } // Test that calling Encode with a larger frame size than the initial one // does not cause VP9 to crash. TEST(VideoEncoderVpxTest, Vp9SizeChangeNoCrash) { webrtc::DesktopSize frame_size(100, 100); scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); // Create first frame & encode it. scoped_ptr frame(CreateTestFrame(frame_size)); scoped_ptr packet = encoder->Encode(*frame); EXPECT_TRUE(packet); // Double the size of the frame, and updated region, and encode again. frame_size.set(frame_size.width() * 2, frame_size.height() * 2); frame = CreateTestFrame(frame_size); packet = encoder->Encode(*frame); EXPECT_TRUE(packet); } // Test that the DPI information is correctly propagated from the // webrtc::DesktopFrame to the VideoPacket. TEST(VideoEncoderVpxTest, DpiPropagation) { webrtc::DesktopSize frame_size(32, 32); scoped_ptr encoder(VideoEncoderVpx::CreateForVP8()); scoped_ptr frame(CreateTestFrame(frame_size)); frame->set_dpi(webrtc::DesktopVector(96, 97)); scoped_ptr packet = encoder->Encode(*frame); EXPECT_EQ(packet->format().x_dpi(), 96); EXPECT_EQ(packet->format().y_dpi(), 97); } TEST(VideoEncoderVpxTest, Vp8EncodeUnchangedFrame) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP8()); TestVideoEncoderEmptyFrames(encoder.get(), 0); } TEST(VideoEncoderVpxTest, Vp9LosslessUnchangedFrame) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); encoder->SetLosslessEncode(true); TestVideoEncoderEmptyFrames(encoder.get(), 0); } TEST(VideoEncoderVpxTest, Vp9LossyUnchangedFrame) { scoped_ptr encoder(VideoEncoderVpx::CreateForVP9()); encoder->SetLosslessEncode(false); // Expect that VP9+CR should generate no more than 10 top-off frames // per cycle, and take no more than 2 cycles to top-off. TestVideoEncoderEmptyFrames(encoder.get(), 20); } } // namespace remoting