/* * Copyright (c) 2012 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 #include #include #include "testing/gtest/include/gtest/gtest.h" #include "webrtc/common_video/libyuv/include/webrtc_libyuv.h" #include "webrtc/test/testsupport/fileutils.h" #include "webrtc/video_frame.h" namespace webrtc { namespace { void Calc16ByteAlignedStride(int width, int* stride_y, int* stride_uv) { *stride_y = 16 * ((width + 15) / 16); *stride_uv = 16 * ((width + 31) / 32); } } // Anonymous namespace class TestLibYuv : public ::testing::Test { protected: TestLibYuv(); virtual void SetUp(); virtual void TearDown(); FILE* source_file_; VideoFrame orig_frame_; std::unique_ptr orig_buffer_; const int width_; const int height_; const int size_y_; const int size_uv_; const size_t frame_length_; }; TestLibYuv::TestLibYuv() : source_file_(NULL), orig_frame_(), width_(352), height_(288), size_y_(width_ * height_), size_uv_(((width_ + 1) / 2) * ((height_ + 1) / 2)), frame_length_(CalcBufferSize(kI420, 352, 288)) { orig_buffer_.reset(new uint8_t[frame_length_]); } void TestLibYuv::SetUp() { const std::string input_file_name = webrtc::test::ResourcePath("foreman_cif", "yuv"); source_file_ = fopen(input_file_name.c_str(), "rb"); ASSERT_TRUE(source_file_ != NULL) << "Cannot read file: "<< input_file_name << "\n"; EXPECT_EQ(frame_length_, fread(orig_buffer_.get(), 1, frame_length_, source_file_)); orig_frame_.CreateFrame(orig_buffer_.get(), orig_buffer_.get() + size_y_, orig_buffer_.get() + size_y_ + size_uv_, width_, height_, width_, (width_ + 1) / 2, (width_ + 1) / 2, kVideoRotation_0); } void TestLibYuv::TearDown() { if (source_file_ != NULL) { ASSERT_EQ(0, fclose(source_file_)); } source_file_ = NULL; } TEST_F(TestLibYuv, ConvertSanityTest) { // TODO(mikhal) } TEST_F(TestLibYuv, ConvertTest) { // Reading YUV frame - testing on the first frame of the foreman sequence int j = 0; std::string output_file_name = webrtc::test::OutputPath() + "LibYuvTest_conversion.yuv"; FILE* output_file = fopen(output_file_name.c_str(), "wb"); ASSERT_TRUE(output_file != NULL); double psnr = 0.0; VideoFrame res_i420_frame; res_i420_frame.CreateEmptyFrame(width_, height_, width_, (width_ + 1) / 2, (width_ + 1) / 2); printf("\nConvert #%d I420 <-> I420 \n", j); std::unique_ptr out_i420_buffer(new uint8_t[frame_length_]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kI420, 0, out_i420_buffer.get())); EXPECT_EQ(0, ConvertToI420(kI420, out_i420_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } psnr = I420PSNR(&orig_frame_, &res_i420_frame); EXPECT_EQ(48.0, psnr); j++; printf("\nConvert #%d I420 <-> RGB24\n", j); std::unique_ptr res_rgb_buffer2(new uint8_t[width_ * height_ * 3]); // Align the stride values for the output frame. int stride_y = 0; int stride_uv = 0; Calc16ByteAlignedStride(width_, &stride_y, &stride_uv); res_i420_frame.CreateEmptyFrame(width_, height_, stride_y, stride_uv, stride_uv); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kRGB24, 0, res_rgb_buffer2.get())); EXPECT_EQ(0, ConvertToI420(kRGB24, res_rgb_buffer2.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } psnr = I420PSNR(&orig_frame_, &res_i420_frame); // Optimization Speed- quality trade-off => 45 dB only (platform dependant). EXPECT_GT(ceil(psnr), 44); j++; printf("\nConvert #%d I420 <-> UYVY\n", j); std::unique_ptr out_uyvy_buffer(new uint8_t[width_ * height_ * 2]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kUYVY, 0, out_uyvy_buffer.get())); EXPECT_EQ(0, ConvertToI420(kUYVY, out_uyvy_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); psnr = I420PSNR(&orig_frame_, &res_i420_frame); EXPECT_EQ(48.0, psnr); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } j++; printf("\nConvert #%d I420 <-> YUY2\n", j); std::unique_ptr out_yuy2_buffer(new uint8_t[width_ * height_ * 2]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kYUY2, 0, out_yuy2_buffer.get())); EXPECT_EQ(0, ConvertToI420(kYUY2, out_yuy2_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } psnr = I420PSNR(&orig_frame_, &res_i420_frame); EXPECT_EQ(48.0, psnr); printf("\nConvert #%d I420 <-> RGB565\n", j); std::unique_ptr out_rgb565_buffer( new uint8_t[width_ * height_ * 2]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kRGB565, 0, out_rgb565_buffer.get())); EXPECT_EQ(0, ConvertToI420(kRGB565, out_rgb565_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } j++; psnr = I420PSNR(&orig_frame_, &res_i420_frame); // TODO(leozwang) Investigate the right psnr should be set for I420ToRGB565, // Another example is I420ToRGB24, the psnr is 44 // TODO(mikhal): Add psnr for RGB565, 1555, 4444, convert to ARGB. EXPECT_GT(ceil(psnr), 40); printf("\nConvert #%d I420 <-> ARGB8888\n", j); std::unique_ptr out_argb8888_buffer( new uint8_t[width_ * height_ * 4]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kARGB, 0, out_argb8888_buffer.get())); EXPECT_EQ(0, ConvertToI420(kARGB, out_argb8888_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } psnr = I420PSNR(&orig_frame_, &res_i420_frame); // TODO(leozwang) Investigate the right psnr should be set for I420ToARGB8888, EXPECT_GT(ceil(psnr), 42); ASSERT_EQ(0, fclose(output_file)); } TEST_F(TestLibYuv, ConvertAlignedFrame) { // Reading YUV frame - testing on the first frame of the foreman sequence std::string output_file_name = webrtc::test::OutputPath() + "LibYuvTest_conversion.yuv"; FILE* output_file = fopen(output_file_name.c_str(), "wb"); ASSERT_TRUE(output_file != NULL); double psnr = 0.0; VideoFrame res_i420_frame; int stride_y = 0; int stride_uv = 0; Calc16ByteAlignedStride(width_, &stride_y, &stride_uv); res_i420_frame.CreateEmptyFrame(width_, height_, stride_y, stride_uv, stride_uv); std::unique_ptr out_i420_buffer(new uint8_t[frame_length_]); EXPECT_EQ(0, ConvertFromI420(orig_frame_, kI420, 0, out_i420_buffer.get())); EXPECT_EQ(0, ConvertToI420(kI420, out_i420_buffer.get(), 0, 0, width_, height_, 0, kVideoRotation_0, &res_i420_frame)); if (PrintVideoFrame(res_i420_frame, output_file) < 0) { return; } psnr = I420PSNR(&orig_frame_, &res_i420_frame); EXPECT_EQ(48.0, psnr); } TEST_F(TestLibYuv, RotateTest) { // Use ConvertToI420 for multiple roatations - see that nothing breaks, all // memory is properly allocated and end result is equal to the starting point. VideoFrame rotated_res_i420_frame; int rotated_width = height_; int rotated_height = width_; int stride_y; int stride_uv; Calc16ByteAlignedStride(rotated_width, &stride_y, &stride_uv); rotated_res_i420_frame.CreateEmptyFrame(rotated_width, rotated_height, stride_y, stride_uv, stride_uv); EXPECT_EQ(0, ConvertToI420(kI420, orig_buffer_.get(), 0, 0, width_, height_, 0, kVideoRotation_90, &rotated_res_i420_frame)); EXPECT_EQ(0, ConvertToI420(kI420, orig_buffer_.get(), 0, 0, width_, height_, 0, kVideoRotation_270, &rotated_res_i420_frame)); rotated_res_i420_frame.CreateEmptyFrame(width_, height_, width_, (width_ + 1) / 2, (width_ + 1) / 2); EXPECT_EQ(0, ConvertToI420(kI420, orig_buffer_.get(), 0, 0, width_, height_, 0, kVideoRotation_180, &rotated_res_i420_frame)); } } // namespace webrtc