/* * 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 "audio/utility/audio_frame_operations.h" #include "rtc_base/checks.h" #include "test/gtest.h" namespace webrtc { namespace { class AudioFrameOperationsTest : public ::testing::Test { protected: AudioFrameOperationsTest() { // Set typical values. frame_.samples_per_channel_ = 320; frame_.num_channels_ = 2; } AudioFrame frame_; }; class AudioFrameOperationsDeathTest : public AudioFrameOperationsTest {}; void SetFrameData(int16_t ch1, int16_t ch2, int16_t ch3, int16_t ch4, AudioFrame* frame) { int16_t* frame_data = frame->mutable_data(); for (size_t i = 0; i < frame->samples_per_channel_ * 4; i += 4) { frame_data[i] = ch1; frame_data[i + 1] = ch2; frame_data[i + 2] = ch3; frame_data[i + 3] = ch4; } } void SetFrameData(int16_t left, int16_t right, AudioFrame* frame) { int16_t* frame_data = frame->mutable_data(); for (size_t i = 0; i < frame->samples_per_channel_ * 2; i += 2) { frame_data[i] = left; frame_data[i + 1] = right; } } void SetFrameData(int16_t data, AudioFrame* frame) { int16_t* frame_data = frame->mutable_data(); for (size_t i = 0; i < frame->samples_per_channel_ * frame->num_channels_; i++) { frame_data[i] = data; } } void VerifyFramesAreEqual(const AudioFrame& frame1, const AudioFrame& frame2) { EXPECT_EQ(frame1.num_channels_, frame2.num_channels_); EXPECT_EQ(frame1.samples_per_channel_, frame2.samples_per_channel_); const int16_t* frame1_data = frame1.data(); const int16_t* frame2_data = frame2.data(); for (size_t i = 0; i < frame1.samples_per_channel_ * frame1.num_channels_; i++) { EXPECT_EQ(frame1_data[i], frame2_data[i]); } EXPECT_EQ(frame1.muted(), frame2.muted()); } void InitFrame(AudioFrame* frame, size_t channels, size_t samples_per_channel, int16_t left_data, int16_t right_data) { RTC_DCHECK(frame); RTC_DCHECK_GE(2, channels); RTC_DCHECK_GE(AudioFrame::kMaxDataSizeSamples, samples_per_channel * channels); frame->samples_per_channel_ = samples_per_channel; frame->num_channels_ = channels; if (channels == 2) { SetFrameData(left_data, right_data, frame); } else if (channels == 1) { SetFrameData(left_data, frame); } } int16_t GetChannelData(const AudioFrame& frame, size_t channel, size_t index) { RTC_DCHECK_LT(channel, frame.num_channels_); RTC_DCHECK_LT(index, frame.samples_per_channel_); return frame.data()[index * frame.num_channels_ + channel]; } void VerifyFrameDataBounds(const AudioFrame& frame, size_t channel, int16_t max, int16_t min) { for (size_t i = 0; i < frame.samples_per_channel_; ++i) { int16_t s = GetChannelData(frame, channel, i); EXPECT_LE(min, s); EXPECT_GE(max, s); } } #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID) TEST_F(AudioFrameOperationsDeathTest, MonoToStereoFailsWithBadParameters) { EXPECT_DEATH(AudioFrameOperations::UpmixChannels(2, &frame_), ""); frame_.samples_per_channel_ = AudioFrame::kMaxDataSizeSamples; frame_.num_channels_ = 1; EXPECT_DEATH(AudioFrameOperations::UpmixChannels(2, &frame_), ""); } #endif TEST_F(AudioFrameOperationsTest, MonoToStereoSucceeds) { frame_.num_channels_ = 1; SetFrameData(1, &frame_); AudioFrameOperations::UpmixChannels(2, &frame_); EXPECT_EQ(2u, frame_.num_channels_); AudioFrame stereo_frame; stereo_frame.samples_per_channel_ = 320; stereo_frame.num_channels_ = 2; SetFrameData(1, 1, &stereo_frame); VerifyFramesAreEqual(stereo_frame, frame_); } TEST_F(AudioFrameOperationsTest, MonoToStereoMuted) { frame_.num_channels_ = 1; ASSERT_TRUE(frame_.muted()); AudioFrameOperations::UpmixChannels(2, &frame_); EXPECT_EQ(2u, frame_.num_channels_); EXPECT_TRUE(frame_.muted()); } #if RTC_DCHECK_IS_ON && GTEST_HAS_DEATH_TEST && !defined(WEBRTC_ANDROID) TEST_F(AudioFrameOperationsDeathTest, StereoToMonoFailsWithBadParameters) { frame_.num_channels_ = 1; EXPECT_DEATH(AudioFrameOperations::DownmixChannels(1, &frame_), ""); } #endif TEST_F(AudioFrameOperationsTest, StereoToMonoSucceeds) { SetFrameData(4, 2, &frame_); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(3, &mono_frame); VerifyFramesAreEqual(mono_frame, frame_); } TEST_F(AudioFrameOperationsTest, StereoToMonoMuted) { ASSERT_TRUE(frame_.muted()); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, StereoToMonoBufferSucceeds) { AudioFrame target_frame; SetFrameData(4, 2, &frame_); target_frame.num_channels_ = 1; target_frame.samples_per_channel_ = frame_.samples_per_channel_; AudioFrameOperations::DownmixChannels(frame_.data(), 2, frame_.samples_per_channel_, 1, target_frame.mutable_data()); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(3, &mono_frame); VerifyFramesAreEqual(mono_frame, target_frame); } TEST_F(AudioFrameOperationsTest, StereoToMonoDoesNotWrapAround) { SetFrameData(-32768, -32768, &frame_); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(-32768, &mono_frame); VerifyFramesAreEqual(mono_frame, frame_); } TEST_F(AudioFrameOperationsTest, QuadToMonoSucceeds) { frame_.num_channels_ = 4; SetFrameData(4, 2, 6, 8, &frame_); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(5, &mono_frame); VerifyFramesAreEqual(mono_frame, frame_); } TEST_F(AudioFrameOperationsTest, QuadToMonoMuted) { frame_.num_channels_ = 4; ASSERT_TRUE(frame_.muted()); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, QuadToMonoBufferSucceeds) { AudioFrame target_frame; frame_.num_channels_ = 4; SetFrameData(4, 2, 6, 8, &frame_); target_frame.num_channels_ = 1; target_frame.samples_per_channel_ = frame_.samples_per_channel_; AudioFrameOperations::DownmixChannels(frame_.data(), 4, frame_.samples_per_channel_, 1, target_frame.mutable_data()); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(5, &mono_frame); VerifyFramesAreEqual(mono_frame, target_frame); } TEST_F(AudioFrameOperationsTest, QuadToMonoDoesNotWrapAround) { frame_.num_channels_ = 4; SetFrameData(-32768, -32768, -32768, -32768, &frame_); AudioFrameOperations::DownmixChannels(1, &frame_); EXPECT_EQ(1u, frame_.num_channels_); AudioFrame mono_frame; mono_frame.samples_per_channel_ = 320; mono_frame.num_channels_ = 1; SetFrameData(-32768, &mono_frame); VerifyFramesAreEqual(mono_frame, frame_); } TEST_F(AudioFrameOperationsTest, QuadToStereoFailsWithBadParameters) { frame_.num_channels_ = 1; EXPECT_EQ(-1, AudioFrameOperations::QuadToStereo(&frame_)); frame_.num_channels_ = 2; EXPECT_EQ(-1, AudioFrameOperations::QuadToStereo(&frame_)); } TEST_F(AudioFrameOperationsTest, QuadToStereoSucceeds) { frame_.num_channels_ = 4; SetFrameData(4, 2, 6, 8, &frame_); EXPECT_EQ(0, AudioFrameOperations::QuadToStereo(&frame_)); AudioFrame stereo_frame; stereo_frame.samples_per_channel_ = 320; stereo_frame.num_channels_ = 2; SetFrameData(3, 7, &stereo_frame); VerifyFramesAreEqual(stereo_frame, frame_); } TEST_F(AudioFrameOperationsTest, QuadToStereoMuted) { frame_.num_channels_ = 4; ASSERT_TRUE(frame_.muted()); EXPECT_EQ(0, AudioFrameOperations::QuadToStereo(&frame_)); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, QuadToStereoBufferSucceeds) { AudioFrame target_frame; frame_.num_channels_ = 4; SetFrameData(4, 2, 6, 8, &frame_); target_frame.num_channels_ = 2; target_frame.samples_per_channel_ = frame_.samples_per_channel_; AudioFrameOperations::QuadToStereo(frame_.data(), frame_.samples_per_channel_, target_frame.mutable_data()); AudioFrame stereo_frame; stereo_frame.samples_per_channel_ = 320; stereo_frame.num_channels_ = 2; SetFrameData(3, 7, &stereo_frame); VerifyFramesAreEqual(stereo_frame, target_frame); } TEST_F(AudioFrameOperationsTest, QuadToStereoDoesNotWrapAround) { frame_.num_channels_ = 4; SetFrameData(-32768, -32768, -32768, -32768, &frame_); EXPECT_EQ(0, AudioFrameOperations::QuadToStereo(&frame_)); AudioFrame stereo_frame; stereo_frame.samples_per_channel_ = 320; stereo_frame.num_channels_ = 2; SetFrameData(-32768, -32768, &stereo_frame); VerifyFramesAreEqual(stereo_frame, frame_); } TEST_F(AudioFrameOperationsTest, SwapStereoChannelsSucceedsOnStereo) { SetFrameData(0, 1, &frame_); AudioFrame swapped_frame; swapped_frame.samples_per_channel_ = 320; swapped_frame.num_channels_ = 2; SetFrameData(1, 0, &swapped_frame); AudioFrameOperations::SwapStereoChannels(&frame_); VerifyFramesAreEqual(swapped_frame, frame_); } TEST_F(AudioFrameOperationsTest, SwapStereoChannelsMuted) { ASSERT_TRUE(frame_.muted()); AudioFrameOperations::SwapStereoChannels(&frame_); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, SwapStereoChannelsFailsOnMono) { frame_.num_channels_ = 1; // Set data to "stereo", despite it being a mono frame. SetFrameData(0, 1, &frame_); AudioFrame orig_frame; orig_frame.CopyFrom(frame_); AudioFrameOperations::SwapStereoChannels(&frame_); // Verify that no swap occurred. VerifyFramesAreEqual(orig_frame, frame_); } TEST_F(AudioFrameOperationsTest, MuteDisabled) { SetFrameData(1000, -1000, &frame_); AudioFrameOperations::Mute(&frame_, false, false); AudioFrame muted_frame; muted_frame.samples_per_channel_ = 320; muted_frame.num_channels_ = 2; SetFrameData(1000, -1000, &muted_frame); VerifyFramesAreEqual(muted_frame, frame_); } TEST_F(AudioFrameOperationsTest, MuteEnabled) { SetFrameData(1000, -1000, &frame_); AudioFrameOperations::Mute(&frame_, true, true); AudioFrame muted_frame; muted_frame.samples_per_channel_ = frame_.samples_per_channel_; muted_frame.num_channels_ = frame_.num_channels_; ASSERT_TRUE(muted_frame.muted()); VerifyFramesAreEqual(muted_frame, frame_); } // Verify that *beginning* to mute works for short and long (>128) frames, mono // and stereo. Beginning mute should yield a ramp down to zero. TEST_F(AudioFrameOperationsTest, MuteBeginMonoLong) { InitFrame(&frame_, 1, 228, 1000, -1000); AudioFrameOperations::Mute(&frame_, false, true); VerifyFrameDataBounds(frame_, 0, 1000, 0); EXPECT_EQ(1000, GetChannelData(frame_, 0, 99)); EXPECT_EQ(992, GetChannelData(frame_, 0, 100)); EXPECT_EQ(7, GetChannelData(frame_, 0, 226)); EXPECT_EQ(0, GetChannelData(frame_, 0, 227)); } TEST_F(AudioFrameOperationsTest, MuteBeginMonoShort) { InitFrame(&frame_, 1, 93, 1000, -1000); AudioFrameOperations::Mute(&frame_, false, true); VerifyFrameDataBounds(frame_, 0, 1000, 0); EXPECT_EQ(989, GetChannelData(frame_, 0, 0)); EXPECT_EQ(978, GetChannelData(frame_, 0, 1)); EXPECT_EQ(10, GetChannelData(frame_, 0, 91)); EXPECT_EQ(0, GetChannelData(frame_, 0, 92)); } TEST_F(AudioFrameOperationsTest, MuteBeginStereoLong) { InitFrame(&frame_, 2, 228, 1000, -1000); AudioFrameOperations::Mute(&frame_, false, true); VerifyFrameDataBounds(frame_, 0, 1000, 0); VerifyFrameDataBounds(frame_, 1, 0, -1000); EXPECT_EQ(1000, GetChannelData(frame_, 0, 99)); EXPECT_EQ(-1000, GetChannelData(frame_, 1, 99)); EXPECT_EQ(992, GetChannelData(frame_, 0, 100)); EXPECT_EQ(-992, GetChannelData(frame_, 1, 100)); EXPECT_EQ(7, GetChannelData(frame_, 0, 226)); EXPECT_EQ(-7, GetChannelData(frame_, 1, 226)); EXPECT_EQ(0, GetChannelData(frame_, 0, 227)); EXPECT_EQ(0, GetChannelData(frame_, 1, 227)); } TEST_F(AudioFrameOperationsTest, MuteBeginStereoShort) { InitFrame(&frame_, 2, 93, 1000, -1000); AudioFrameOperations::Mute(&frame_, false, true); VerifyFrameDataBounds(frame_, 0, 1000, 0); VerifyFrameDataBounds(frame_, 1, 0, -1000); EXPECT_EQ(989, GetChannelData(frame_, 0, 0)); EXPECT_EQ(-989, GetChannelData(frame_, 1, 0)); EXPECT_EQ(978, GetChannelData(frame_, 0, 1)); EXPECT_EQ(-978, GetChannelData(frame_, 1, 1)); EXPECT_EQ(10, GetChannelData(frame_, 0, 91)); EXPECT_EQ(-10, GetChannelData(frame_, 1, 91)); EXPECT_EQ(0, GetChannelData(frame_, 0, 92)); EXPECT_EQ(0, GetChannelData(frame_, 1, 92)); } // Verify that *ending* to mute works for short and long (>128) frames, mono // and stereo. Ending mute should yield a ramp up from zero. TEST_F(AudioFrameOperationsTest, MuteEndMonoLong) { InitFrame(&frame_, 1, 228, 1000, -1000); AudioFrameOperations::Mute(&frame_, true, false); VerifyFrameDataBounds(frame_, 0, 1000, 0); EXPECT_EQ(7, GetChannelData(frame_, 0, 0)); EXPECT_EQ(15, GetChannelData(frame_, 0, 1)); EXPECT_EQ(1000, GetChannelData(frame_, 0, 127)); EXPECT_EQ(1000, GetChannelData(frame_, 0, 128)); } TEST_F(AudioFrameOperationsTest, MuteEndMonoShort) { InitFrame(&frame_, 1, 93, 1000, -1000); AudioFrameOperations::Mute(&frame_, true, false); VerifyFrameDataBounds(frame_, 0, 1000, 0); EXPECT_EQ(10, GetChannelData(frame_, 0, 0)); EXPECT_EQ(21, GetChannelData(frame_, 0, 1)); EXPECT_EQ(989, GetChannelData(frame_, 0, 91)); EXPECT_EQ(999, GetChannelData(frame_, 0, 92)); } TEST_F(AudioFrameOperationsTest, MuteEndStereoLong) { InitFrame(&frame_, 2, 228, 1000, -1000); AudioFrameOperations::Mute(&frame_, true, false); VerifyFrameDataBounds(frame_, 0, 1000, 0); VerifyFrameDataBounds(frame_, 1, 0, -1000); EXPECT_EQ(7, GetChannelData(frame_, 0, 0)); EXPECT_EQ(-7, GetChannelData(frame_, 1, 0)); EXPECT_EQ(15, GetChannelData(frame_, 0, 1)); EXPECT_EQ(-15, GetChannelData(frame_, 1, 1)); EXPECT_EQ(1000, GetChannelData(frame_, 0, 127)); EXPECT_EQ(-1000, GetChannelData(frame_, 1, 127)); EXPECT_EQ(1000, GetChannelData(frame_, 0, 128)); EXPECT_EQ(-1000, GetChannelData(frame_, 1, 128)); } TEST_F(AudioFrameOperationsTest, MuteEndStereoShort) { InitFrame(&frame_, 2, 93, 1000, -1000); AudioFrameOperations::Mute(&frame_, true, false); VerifyFrameDataBounds(frame_, 0, 1000, 0); VerifyFrameDataBounds(frame_, 1, 0, -1000); EXPECT_EQ(10, GetChannelData(frame_, 0, 0)); EXPECT_EQ(-10, GetChannelData(frame_, 1, 0)); EXPECT_EQ(21, GetChannelData(frame_, 0, 1)); EXPECT_EQ(-21, GetChannelData(frame_, 1, 1)); EXPECT_EQ(989, GetChannelData(frame_, 0, 91)); EXPECT_EQ(-989, GetChannelData(frame_, 1, 91)); EXPECT_EQ(999, GetChannelData(frame_, 0, 92)); EXPECT_EQ(-999, GetChannelData(frame_, 1, 92)); } TEST_F(AudioFrameOperationsTest, MuteBeginAlreadyMuted) { ASSERT_TRUE(frame_.muted()); AudioFrameOperations::Mute(&frame_, false, true); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, MuteEndAlreadyMuted) { ASSERT_TRUE(frame_.muted()); AudioFrameOperations::Mute(&frame_, true, false); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, ApplyHalfGainSucceeds) { SetFrameData(2, &frame_); AudioFrame half_gain_frame; half_gain_frame.num_channels_ = frame_.num_channels_; half_gain_frame.samples_per_channel_ = frame_.samples_per_channel_; SetFrameData(1, &half_gain_frame); AudioFrameOperations::ApplyHalfGain(&frame_); VerifyFramesAreEqual(half_gain_frame, frame_); } TEST_F(AudioFrameOperationsTest, ApplyHalfGainMuted) { ASSERT_TRUE(frame_.muted()); AudioFrameOperations::ApplyHalfGain(&frame_); EXPECT_TRUE(frame_.muted()); } // TODO(andrew): should not allow negative scales. TEST_F(AudioFrameOperationsTest, DISABLED_ScaleFailsWithBadParameters) { frame_.num_channels_ = 1; EXPECT_EQ(-1, AudioFrameOperations::Scale(1.0, 1.0, &frame_)); frame_.num_channels_ = 3; EXPECT_EQ(-1, AudioFrameOperations::Scale(1.0, 1.0, &frame_)); frame_.num_channels_ = 2; EXPECT_EQ(-1, AudioFrameOperations::Scale(-1.0, 1.0, &frame_)); EXPECT_EQ(-1, AudioFrameOperations::Scale(1.0, -1.0, &frame_)); } // TODO(andrew): fix the wraparound bug. We should always saturate. TEST_F(AudioFrameOperationsTest, DISABLED_ScaleDoesNotWrapAround) { SetFrameData(4000, -4000, &frame_); EXPECT_EQ(0, AudioFrameOperations::Scale(10.0, 10.0, &frame_)); AudioFrame clipped_frame; clipped_frame.samples_per_channel_ = 320; clipped_frame.num_channels_ = 2; SetFrameData(32767, -32768, &clipped_frame); VerifyFramesAreEqual(clipped_frame, frame_); } TEST_F(AudioFrameOperationsTest, ScaleSucceeds) { SetFrameData(1, -1, &frame_); EXPECT_EQ(0, AudioFrameOperations::Scale(2.0, 3.0, &frame_)); AudioFrame scaled_frame; scaled_frame.samples_per_channel_ = 320; scaled_frame.num_channels_ = 2; SetFrameData(2, -3, &scaled_frame); VerifyFramesAreEqual(scaled_frame, frame_); } TEST_F(AudioFrameOperationsTest, ScaleMuted) { ASSERT_TRUE(frame_.muted()); EXPECT_EQ(0, AudioFrameOperations::Scale(2.0, 3.0, &frame_)); EXPECT_TRUE(frame_.muted()); } // TODO(andrew): should fail with a negative scale. TEST_F(AudioFrameOperationsTest, DISABLED_ScaleWithSatFailsWithBadParameters) { EXPECT_EQ(-1, AudioFrameOperations::ScaleWithSat(-1.0, &frame_)); } TEST_F(AudioFrameOperationsTest, ScaleWithSatDoesNotWrapAround) { frame_.num_channels_ = 1; SetFrameData(4000, &frame_); EXPECT_EQ(0, AudioFrameOperations::ScaleWithSat(10.0, &frame_)); AudioFrame clipped_frame; clipped_frame.samples_per_channel_ = 320; clipped_frame.num_channels_ = 1; SetFrameData(32767, &clipped_frame); VerifyFramesAreEqual(clipped_frame, frame_); SetFrameData(-4000, &frame_); EXPECT_EQ(0, AudioFrameOperations::ScaleWithSat(10.0, &frame_)); SetFrameData(-32768, &clipped_frame); VerifyFramesAreEqual(clipped_frame, frame_); } TEST_F(AudioFrameOperationsTest, ScaleWithSatSucceeds) { frame_.num_channels_ = 1; SetFrameData(1, &frame_); EXPECT_EQ(0, AudioFrameOperations::ScaleWithSat(2.0, &frame_)); AudioFrame scaled_frame; scaled_frame.samples_per_channel_ = 320; scaled_frame.num_channels_ = 1; SetFrameData(2, &scaled_frame); VerifyFramesAreEqual(scaled_frame, frame_); } TEST_F(AudioFrameOperationsTest, ScaleWithSatMuted) { ASSERT_TRUE(frame_.muted()); EXPECT_EQ(0, AudioFrameOperations::ScaleWithSat(2.0, &frame_)); EXPECT_TRUE(frame_.muted()); } TEST_F(AudioFrameOperationsTest, AddingXToEmptyGivesX) { // When samples_per_channel_ is 0, the frame counts as empty and zero. AudioFrame frame_to_add_to; frame_to_add_to.mutable_data(); // Unmute the frame. ASSERT_FALSE(frame_to_add_to.muted()); frame_to_add_to.samples_per_channel_ = 0; frame_to_add_to.num_channels_ = frame_.num_channels_; SetFrameData(1000, &frame_); AudioFrameOperations::Add(frame_, &frame_to_add_to); VerifyFramesAreEqual(frame_, frame_to_add_to); } TEST_F(AudioFrameOperationsTest, AddingXToMutedGivesX) { AudioFrame frame_to_add_to; ASSERT_TRUE(frame_to_add_to.muted()); frame_to_add_to.samples_per_channel_ = frame_.samples_per_channel_; frame_to_add_to.num_channels_ = frame_.num_channels_; SetFrameData(1000, &frame_); AudioFrameOperations::Add(frame_, &frame_to_add_to); VerifyFramesAreEqual(frame_, frame_to_add_to); } TEST_F(AudioFrameOperationsTest, AddingMutedToXGivesX) { AudioFrame frame_to_add_to; frame_to_add_to.samples_per_channel_ = frame_.samples_per_channel_; frame_to_add_to.num_channels_ = frame_.num_channels_; SetFrameData(1000, &frame_to_add_to); AudioFrame frame_copy; frame_copy.CopyFrom(frame_to_add_to); ASSERT_TRUE(frame_.muted()); AudioFrameOperations::Add(frame_, &frame_to_add_to); VerifyFramesAreEqual(frame_copy, frame_to_add_to); } TEST_F(AudioFrameOperationsTest, AddingTwoFramesProducesTheirSum) { AudioFrame frame_to_add_to; frame_to_add_to.samples_per_channel_ = frame_.samples_per_channel_; frame_to_add_to.num_channels_ = frame_.num_channels_; SetFrameData(1000, &frame_to_add_to); SetFrameData(2000, &frame_); AudioFrameOperations::Add(frame_, &frame_to_add_to); SetFrameData(frame_.data()[0] + 1000, &frame_); VerifyFramesAreEqual(frame_, frame_to_add_to); } } // namespace } // namespace webrtc