Add helper method to determine the current application horizontal size classes.
[chromium-blink-merge.git] / media / base / multi_channel_resampler_unittest.cc
blobefaf0c54bddc490fa58b2907a47c8ca84bba4c2c
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include <cmath>
7 #include "base/bind.h"
8 #include "base/bind_helpers.h"
9 #include "base/logging.h"
10 #include "base/memory/scoped_ptr.h"
11 #include "media/base/audio_bus.h"
12 #include "media/base/multi_channel_resampler.h"
13 #include "testing/gtest/include/gtest/gtest.h"
15 namespace media {
17 // Just test a basic resampling case. The SincResampler unit test will take
18 // care of accuracy testing; we just need to check that multichannel works as
19 // expected within some tolerance.
20 static const float kScaleFactor = 192000.0f / 44100.0f;
22 // Simulate large and small sample requests used by the different audio paths.
23 static const int kHighLatencySize = 8192;
24 // Low latency buffers show a larger error than high latency ones. Which makes
25 // sense since each error represents a larger portion of the total request.
26 static const int kLowLatencySize = 128;
28 // Test fill value.
29 static const float kFillValue = 0.1f;
31 // Chosen arbitrarily based on what each resampler reported during testing.
32 static const double kLowLatencyMaxRMSError = 0.0036;
33 static const double kLowLatencyMaxError = 0.04;
34 static const double kHighLatencyMaxRMSError = 0.0036;
35 static const double kHighLatencyMaxError = 0.04;
37 class MultiChannelResamplerTest
38 : public testing::TestWithParam<int> {
39 public:
40 MultiChannelResamplerTest()
41 : last_frame_delay_(-1) {
43 virtual ~MultiChannelResamplerTest() {}
45 void InitializeAudioData(int channels, int frames) {
46 frames_ = frames;
47 audio_bus_ = AudioBus::Create(channels, frames);
50 // MultiChannelResampler::MultiChannelAudioSourceProvider implementation, just
51 // fills the provided audio_data with |kFillValue|.
52 virtual void ProvideInput(int frame_delay, AudioBus* audio_bus) {
53 EXPECT_GE(frame_delay, last_frame_delay_);
54 last_frame_delay_ = frame_delay;
56 float fill_value = fill_junk_values_ ? (1 / kFillValue) : kFillValue;
57 EXPECT_EQ(audio_bus->channels(), audio_bus_->channels());
58 for (int i = 0; i < audio_bus->channels(); ++i)
59 for (int j = 0; j < audio_bus->frames(); ++j)
60 audio_bus->channel(i)[j] = fill_value;
63 void MultiChannelTest(int channels, int frames, double expected_max_rms_error,
64 double expected_max_error) {
65 InitializeAudioData(channels, frames);
66 MultiChannelResampler resampler(
67 channels, kScaleFactor, SincResampler::kDefaultRequestSize, base::Bind(
68 &MultiChannelResamplerTest::ProvideInput, base::Unretained(this)));
70 // First prime the resampler with some junk data, so we can verify Flush().
71 fill_junk_values_ = true;
72 resampler.Resample(1, audio_bus_.get());
73 resampler.Flush();
74 fill_junk_values_ = false;
76 // The last frame delay should be strictly less than the total frame count.
77 EXPECT_LT(last_frame_delay_, audio_bus_->frames());
78 last_frame_delay_ = -1;
80 // If Flush() didn't work, the rest of the tests will fail.
81 resampler.Resample(frames, audio_bus_.get());
82 TestValues(expected_max_rms_error, expected_max_error);
85 void HighLatencyTest(int channels) {
86 MultiChannelTest(channels, kHighLatencySize, kHighLatencyMaxRMSError,
87 kHighLatencyMaxError);
90 void LowLatencyTest(int channels) {
91 MultiChannelTest(channels, kLowLatencySize, kLowLatencyMaxRMSError,
92 kLowLatencyMaxError);
95 void TestValues(double expected_max_rms_error, double expected_max_error ) {
96 // Calculate Root-Mean-Square-Error for the resampling.
97 double max_error = 0.0;
98 double sum_of_squares = 0.0;
99 for (int i = 0; i < audio_bus_->channels(); ++i) {
100 for (int j = 0; j < frames_; ++j) {
101 // Ensure all values are accounted for.
102 ASSERT_NE(audio_bus_->channel(i)[j], 0);
104 double error = fabs(audio_bus_->channel(i)[j] - kFillValue);
105 max_error = std::max(max_error, error);
106 sum_of_squares += error * error;
110 double rms_error = sqrt(
111 sum_of_squares / (frames_ * audio_bus_->channels()));
113 EXPECT_LE(rms_error, expected_max_rms_error);
114 EXPECT_LE(max_error, expected_max_error);
117 protected:
118 int frames_;
119 bool fill_junk_values_;
120 scoped_ptr<AudioBus> audio_bus_;
121 int last_frame_delay_;
123 DISALLOW_COPY_AND_ASSIGN(MultiChannelResamplerTest);
126 TEST_P(MultiChannelResamplerTest, HighLatency) {
127 HighLatencyTest(GetParam());
130 TEST_P(MultiChannelResamplerTest, LowLatency) {
131 LowLatencyTest(GetParam());
134 // Test common channel layouts: mono, stereo, 5.1, 7.1.
135 INSTANTIATE_TEST_CASE_P(
136 MultiChannelResamplerTest, MultiChannelResamplerTest,
137 testing::Values(1, 2, 6, 8));
139 } // namespace media