// Copyright (c) 2012 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. // TODO(henrika): add test which included |start_frame| in Consume() call. #include "media/base/audio_fifo.h" #include "testing/gtest/include/gtest/gtest.h" namespace media { class AudioFifoTest : public testing::Test { public: AudioFifoTest() {} virtual ~AudioFifoTest() {} void VerifyValue(const float data[], int size, float value) { for (int i = 0; i < size; ++i) ASSERT_FLOAT_EQ(value, data[i]) << "i=" << i; } protected: DISALLOW_COPY_AND_ASSIGN(AudioFifoTest); }; // Verify that construction works as intended. TEST_F(AudioFifoTest, Construct) { static const int kChannels = 6; static const int kMaxFrameCount = 128; AudioFifo fifo(kChannels, kMaxFrameCount); EXPECT_EQ(fifo.frames(), 0); } // Pushes audio bus objects to a FIFO and fill it up to different degrees. TEST_F(AudioFifoTest, Push) { static const int kChannels = 2; static const int kMaxFrameCount = 128; AudioFifo fifo(kChannels, kMaxFrameCount); { SCOPED_TRACE("Push 50%"); scoped_ptr bus = AudioBus::Create(kChannels, kMaxFrameCount / 2); EXPECT_EQ(fifo.frames(), 0); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), bus->frames()); fifo.Clear(); } { SCOPED_TRACE("Push 100%"); scoped_ptr bus = AudioBus::Create(kChannels, kMaxFrameCount); EXPECT_EQ(fifo.frames(), 0); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), bus->frames()); fifo.Clear(); } } // Consumes audio bus objects from a FIFO and empty it to different degrees. TEST_F(AudioFifoTest, Consume) { static const int kChannels = 2; static const int kMaxFrameCount = 128; AudioFifo fifo(kChannels, kMaxFrameCount); { scoped_ptr bus = AudioBus::Create(kChannels, kMaxFrameCount); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), kMaxFrameCount); } { SCOPED_TRACE("Consume 50%"); scoped_ptr bus = AudioBus::Create(kChannels, kMaxFrameCount / 2); fifo.Consume(bus.get(), 0, bus->frames()); EXPECT_TRUE(fifo.frames() == bus->frames()); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), kMaxFrameCount); } { SCOPED_TRACE("Consume 100%"); scoped_ptr bus = AudioBus::Create(kChannels, kMaxFrameCount); fifo.Consume(bus.get(), 0, bus->frames()); EXPECT_EQ(fifo.frames(), 0); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), kMaxFrameCount); } } // Verify that the frames() method of the FIFO works as intended while // appending and removing audio bus elements to/from the FIFO. TEST_F(AudioFifoTest, FramesInFifo) { static const int kChannels = 2; static const int kMaxFrameCount = 64; AudioFifo fifo(kChannels, kMaxFrameCount); // Fill up the FIFO and verify that the size grows as it should while adding // one audio frame each time. scoped_ptr bus = AudioBus::Create(kChannels, 1); int n = 0; while (fifo.frames() < kMaxFrameCount) { fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), ++n); } EXPECT_EQ(fifo.frames(), kMaxFrameCount); // Empty the FIFO and verify that the size decreases as it should. // Reduce the size of the FIFO by one frame each time. while (fifo.frames() > 0) { fifo.Consume(bus.get(), 0, bus->frames()); EXPECT_EQ(fifo.frames(), --n); } EXPECT_EQ(fifo.frames(), 0); // Verify that a steady-state size of #frames in the FIFO is maintained // during a sequence of Push/Consume calls which involves wrapping. We ensure // wrapping by selecting a buffer size which does divides the FIFO size // with a remainder of one. scoped_ptr bus2 = AudioBus::Create(kChannels, (kMaxFrameCount / 4) - 1); const int frames_in_fifo = bus2->frames(); fifo.Push(bus2.get()); EXPECT_EQ(fifo.frames(), frames_in_fifo); for (int n = 0; n < kMaxFrameCount; ++n) { fifo.Push(bus2.get()); fifo.Consume(bus2.get(), 0, frames_in_fifo); EXPECT_EQ(fifo.frames(), frames_in_fifo); } } // Perform a sequence of Push/Consume calls and verify that the data written // to the FIFO is correctly retrieved, i.e., that the order is correct and the // values are correct. TEST_F(AudioFifoTest, VerifyDataValues) { static const int kChannels = 2; static const int kFrameCount = 2; static const int kFifoFrameCount = 5 * kFrameCount; AudioFifo fifo(kChannels, kFifoFrameCount); scoped_ptr bus = AudioBus::Create(kChannels, kFrameCount); EXPECT_EQ(fifo.frames(), 0); EXPECT_EQ(bus->frames(), kFrameCount); // Start by filling up the FIFO with audio frames. The first audio frame // will contain all 1's, the second all 2's etc. All channels contain the // same value. int value = 1; while (fifo.frames() < kFifoFrameCount) { for (int j = 0; j < bus->channels(); ++j) std::fill(bus->channel(j), bus->channel(j) + bus->frames(), value); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), bus->frames() * value); ++value; } // FIFO should be full now. EXPECT_EQ(fifo.frames(), kFifoFrameCount); // Consume all audio frames in the FIFO and verify that the stored values // are correct. In this example, we shall read out: 1, 2, 3, 4, 5 in that // order. Note that we set |frames_to_consume| to half the size of the bus. // It means that we shall read out the same value two times in row. value = 1; int n = 1; const int frames_to_consume = bus->frames() / 2; while (fifo.frames() > 0) { fifo.Consume(bus.get(), 0, frames_to_consume); for (int j = 0; j < bus->channels(); ++j) VerifyValue(bus->channel(j), frames_to_consume, value); if (n++ % 2 == 0) ++value; // counts 1, 1, 2, 2, 3, 3,... } // FIFO should be empty now. EXPECT_EQ(fifo.frames(), 0); // Push one audio bus to the FIFO and fill it with 1's. value = 1; for (int j = 0; j < bus->channels(); ++j) std::fill(bus->channel(j), bus->channel(j) + bus->frames(), value); fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), bus->frames()); // Keep calling Consume/Push a few rounds and verify that we read out the // correct values. The number of elements shall be fixed (kFrameCount) during // this phase. for (int i = 0; i < 5 * kFifoFrameCount; i++) { fifo.Consume(bus.get(), 0, bus->frames()); for (int j = 0; j < bus->channels(); ++j) { VerifyValue(bus->channel(j), bus->channels(), value); std::fill(bus->channel(j), bus->channel(j) + bus->frames(), value + 1); } fifo.Push(bus.get()); EXPECT_EQ(fifo.frames(), bus->frames()); ++value; } } } // namespace media