Ignore title parameter for navigator.registerProtocolHandler
[chromium-blink-merge.git] / media / base / test_helpers.cc
blob929b2f3c725c70ee4fa26fc770ee0e9e827112d6
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 "media/base/test_helpers.h"
7 #include "base/bind.h"
8 #include "base/logging.h"
9 #include "base/message_loop/message_loop.h"
10 #include "base/pickle.h"
11 #include "base/test/test_timeouts.h"
12 #include "base/time/time.h"
13 #include "base/timer/timer.h"
14 #include "media/base/audio_buffer.h"
15 #include "media/base/bind_to_current_loop.h"
16 #include "media/base/decoder_buffer.h"
17 #include "ui/gfx/rect.h"
19 using ::testing::_;
20 using ::testing::StrictMock;
22 namespace media {
24 // Utility mock for testing methods expecting Closures and PipelineStatusCBs.
25 class MockCallback : public base::RefCountedThreadSafe<MockCallback> {
26 public:
27 MockCallback();
28 MOCK_METHOD0(Run, void());
29 MOCK_METHOD1(RunWithStatus, void(PipelineStatus));
31 protected:
32 friend class base::RefCountedThreadSafe<MockCallback>;
33 virtual ~MockCallback();
35 private:
36 DISALLOW_COPY_AND_ASSIGN(MockCallback);
39 MockCallback::MockCallback() {}
40 MockCallback::~MockCallback() {}
42 base::Closure NewExpectedClosure() {
43 StrictMock<MockCallback>* callback = new StrictMock<MockCallback>();
44 EXPECT_CALL(*callback, Run());
45 return base::Bind(&MockCallback::Run, callback);
48 PipelineStatusCB NewExpectedStatusCB(PipelineStatus status) {
49 StrictMock<MockCallback>* callback = new StrictMock<MockCallback>();
50 EXPECT_CALL(*callback, RunWithStatus(status));
51 return base::Bind(&MockCallback::RunWithStatus, callback);
54 WaitableMessageLoopEvent::WaitableMessageLoopEvent()
55 : message_loop_(base::MessageLoop::current()),
56 signaled_(false),
57 status_(PIPELINE_OK) {
58 DCHECK(message_loop_);
61 WaitableMessageLoopEvent::~WaitableMessageLoopEvent() {}
63 base::Closure WaitableMessageLoopEvent::GetClosure() {
64 DCHECK_EQ(message_loop_, base::MessageLoop::current());
65 return BindToCurrentLoop(base::Bind(
66 &WaitableMessageLoopEvent::OnCallback, base::Unretained(this),
67 PIPELINE_OK));
70 PipelineStatusCB WaitableMessageLoopEvent::GetPipelineStatusCB() {
71 DCHECK_EQ(message_loop_, base::MessageLoop::current());
72 return BindToCurrentLoop(base::Bind(
73 &WaitableMessageLoopEvent::OnCallback, base::Unretained(this)));
76 void WaitableMessageLoopEvent::RunAndWait() {
77 RunAndWaitForStatus(PIPELINE_OK);
80 void WaitableMessageLoopEvent::RunAndWaitForStatus(PipelineStatus expected) {
81 DCHECK_EQ(message_loop_, base::MessageLoop::current());
82 if (signaled_) {
83 EXPECT_EQ(expected, status_);
84 return;
87 base::Timer timer(false, false);
88 timer.Start(FROM_HERE, TestTimeouts::action_timeout(), base::Bind(
89 &WaitableMessageLoopEvent::OnTimeout, base::Unretained(this)));
91 message_loop_->Run();
92 EXPECT_TRUE(signaled_);
93 EXPECT_EQ(expected, status_);
96 void WaitableMessageLoopEvent::OnCallback(PipelineStatus status) {
97 DCHECK_EQ(message_loop_, base::MessageLoop::current());
98 signaled_ = true;
99 status_ = status;
100 message_loop_->QuitWhenIdle();
103 void WaitableMessageLoopEvent::OnTimeout() {
104 DCHECK_EQ(message_loop_, base::MessageLoop::current());
105 ADD_FAILURE() << "Timed out waiting for message loop to quit";
106 message_loop_->QuitWhenIdle();
109 static VideoDecoderConfig GetTestConfig(VideoCodec codec,
110 gfx::Size coded_size,
111 bool is_encrypted) {
112 gfx::Rect visible_rect(coded_size.width(), coded_size.height());
113 gfx::Size natural_size = coded_size;
115 return VideoDecoderConfig(codec, VIDEO_CODEC_PROFILE_UNKNOWN,
116 VideoFrame::YV12, coded_size, visible_rect, natural_size,
117 NULL, 0, is_encrypted);
120 static const gfx::Size kNormalSize(320, 240);
121 static const gfx::Size kLargeSize(640, 480);
123 VideoDecoderConfig TestVideoConfig::Invalid() {
124 return GetTestConfig(kUnknownVideoCodec, kNormalSize, false);
127 VideoDecoderConfig TestVideoConfig::Normal() {
128 return GetTestConfig(kCodecVP8, kNormalSize, false);
131 VideoDecoderConfig TestVideoConfig::NormalEncrypted() {
132 return GetTestConfig(kCodecVP8, kNormalSize, true);
135 VideoDecoderConfig TestVideoConfig::Large() {
136 return GetTestConfig(kCodecVP8, kLargeSize, false);
139 VideoDecoderConfig TestVideoConfig::LargeEncrypted() {
140 return GetTestConfig(kCodecVP8, kLargeSize, true);
143 gfx::Size TestVideoConfig::NormalCodedSize() {
144 return kNormalSize;
147 gfx::Size TestVideoConfig::LargeCodedSize() {
148 return kLargeSize;
151 template <class T>
152 scoped_refptr<AudioBuffer> MakeAudioBuffer(SampleFormat format,
153 ChannelLayout channel_layout,
154 size_t channel_count,
155 int sample_rate,
156 T start,
157 T increment,
158 size_t frames,
159 base::TimeDelta timestamp) {
160 const size_t channels = ChannelLayoutToChannelCount(channel_layout);
161 scoped_refptr<AudioBuffer> output =
162 AudioBuffer::CreateBuffer(format,
163 channel_layout,
164 static_cast<int>(channel_count),
165 sample_rate,
166 static_cast<int>(frames));
167 output->set_timestamp(timestamp);
169 const bool is_planar =
170 format == kSampleFormatPlanarS16 || format == kSampleFormatPlanarF32;
172 // Values in channel 0 will be:
173 // start
174 // start + increment
175 // start + 2 * increment, ...
176 // While, values in channel 1 will be:
177 // start + frames * increment
178 // start + (frames + 1) * increment
179 // start + (frames + 2) * increment, ...
180 for (size_t ch = 0; ch < channels; ++ch) {
181 T* buffer =
182 reinterpret_cast<T*>(output->channel_data()[is_planar ? ch : 0]);
183 const T v = static_cast<T>(start + ch * frames * increment);
184 for (size_t i = 0; i < frames; ++i) {
185 buffer[is_planar ? i : ch + i * channels] =
186 static_cast<T>(v + i * increment);
189 return output;
192 // Instantiate all the types of MakeAudioBuffer() and
193 // MakeAudioBuffer() needed.
194 #define DEFINE_MAKE_AUDIO_BUFFER_INSTANCE(type) \
195 template scoped_refptr<AudioBuffer> MakeAudioBuffer<type>( \
196 SampleFormat format, \
197 ChannelLayout channel_layout, \
198 size_t channel_count, \
199 int sample_rate, \
200 type start, \
201 type increment, \
202 size_t frames, \
203 base::TimeDelta start_time)
204 DEFINE_MAKE_AUDIO_BUFFER_INSTANCE(uint8);
205 DEFINE_MAKE_AUDIO_BUFFER_INSTANCE(int16);
206 DEFINE_MAKE_AUDIO_BUFFER_INSTANCE(int32);
207 DEFINE_MAKE_AUDIO_BUFFER_INSTANCE(float);
209 static const char kFakeVideoBufferHeader[] = "FakeVideoBufferForTest";
211 scoped_refptr<DecoderBuffer> CreateFakeVideoBufferForTest(
212 const VideoDecoderConfig& config,
213 base::TimeDelta timestamp, base::TimeDelta duration) {
214 Pickle pickle;
215 pickle.WriteString(kFakeVideoBufferHeader);
216 pickle.WriteInt(config.coded_size().width());
217 pickle.WriteInt(config.coded_size().height());
218 pickle.WriteInt64(timestamp.InMilliseconds());
220 scoped_refptr<DecoderBuffer> buffer = DecoderBuffer::CopyFrom(
221 static_cast<const uint8*>(pickle.data()),
222 static_cast<int>(pickle.size()));
223 buffer->set_timestamp(timestamp);
224 buffer->set_duration(duration);
226 return buffer;
229 bool VerifyFakeVideoBufferForTest(
230 const scoped_refptr<DecoderBuffer>& buffer,
231 const VideoDecoderConfig& config) {
232 // Check if the input |buffer| matches the |config|.
233 PickleIterator pickle(Pickle(reinterpret_cast<const char*>(buffer->data()),
234 buffer->data_size()));
235 std::string header;
236 int width = 0;
237 int height = 0;
238 bool success = pickle.ReadString(&header) && pickle.ReadInt(&width) &&
239 pickle.ReadInt(&height);
240 return (success && header == kFakeVideoBufferHeader &&
241 width == config.coded_size().width() &&
242 height == config.coded_size().height());
245 } // namespace media