// Copyright 2014 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.
#include "base/time/time.h"
#include "media/audio/audio_power_monitor.h"
#include "media/base/audio_block_fifo.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace media {
class AudioBlockFifoTest : public testing::Test {
public:
AudioBlockFifoTest() {}
virtual ~AudioBlockFifoTest() {}
void PushAndVerify(AudioBlockFifo* fifo, int frames_to_push,
int channels, int block_frames, int max_frames) {
for (int filled_frames = max_frames - fifo->GetUnfilledFrames();
filled_frames + frames_to_push <= max_frames;) {
Push(fifo, frames_to_push, channels);
filled_frames += frames_to_push;
EXPECT_EQ(max_frames - filled_frames, fifo->GetUnfilledFrames());
EXPECT_EQ(static_cast<int>(filled_frames / block_frames),
fifo->available_blocks());
}
}
void Push(AudioBlockFifo* fifo, int frames_to_push, int channels) {
DCHECK_LE(frames_to_push, fifo->GetUnfilledFrames());
const int bytes_per_sample = 2;
const int data_byte_size = bytes_per_sample * channels * frames_to_push;
scoped_ptr<uint8[]> data(new uint8[data_byte_size]);
memset(data.get(), 1, data_byte_size);
fifo->Push(data.get(), frames_to_push, bytes_per_sample);
}
void ConsumeAndVerify(AudioBlockFifo* fifo, int expected_unfilled_frames,
int expected_available_blocks) {
const AudioBus* bus = fifo->Consume();
EXPECT_EQ(fifo->GetUnfilledFrames(), expected_unfilled_frames);
EXPECT_EQ(fifo->available_blocks(), expected_available_blocks);
// Verify the audio data is not 0.
for (int i = 0; i < bus->channels(); ++i) {
EXPECT_GT(bus->channel(i)[0], 0.0f);
EXPECT_GT(bus->channel(i)[bus->frames() - 1], 0.0f);
}
}
private:
DISALLOW_COPY_AND_ASSIGN(AudioBlockFifoTest);
};
// Verify that construction works as intended.
TEST_F(AudioBlockFifoTest, Construct) {
const int channels = 6;
const int frames = 128;
const int blocks = 4;
AudioBlockFifo fifo(channels, frames, blocks);
EXPECT_EQ(0, fifo.available_blocks());
EXPECT_EQ(frames * blocks, fifo.GetUnfilledFrames());
}
// Pushes audio bus objects to/from a FIFO up to different degrees.
TEST_F(AudioBlockFifoTest, Push) {
const int channels = 2;
const int frames = 128;
const int blocks = 2;
AudioBlockFifo fifo(channels, frames, blocks);
// Push frames / 2 of data until FIFO is full.
PushAndVerify(&fifo, frames / 2, channels, frames, frames * blocks);
fifo.Clear();
// Push frames of data until FIFO is full.
PushAndVerify(&fifo, frames, channels, frames, frames * blocks);
fifo.Clear();
// Push 1.5 * frames of data.
PushAndVerify(&fifo, frames * 1.5, channels, frames, frames * blocks);
fifo.Clear();
}
// Perform a sequence of Push/Consume calls to different degrees, and verify
// things are correct.
TEST_F(AudioBlockFifoTest, PushAndConsume) {
const int channels = 2;
const int frames = 441;
const int blocks = 4;
AudioBlockFifo fifo(channels, frames, blocks);
PushAndVerify(&fifo, frames, channels, frames, frames * blocks);
EXPECT_TRUE(fifo.GetUnfilledFrames() == 0);
EXPECT_TRUE(fifo.available_blocks() == blocks);
// Consume 1 block of data.
const AudioBus* bus = fifo.Consume();
EXPECT_TRUE(channels == bus->channels());
EXPECT_TRUE(frames == bus->frames());
EXPECT_TRUE(fifo.available_blocks() == (blocks - 1));
EXPECT_TRUE(fifo.GetUnfilledFrames() == frames);
// Fill it up again.
PushAndVerify(&fifo, frames, channels, frames, frames * blocks);
EXPECT_TRUE(fifo.GetUnfilledFrames() == 0);
EXPECT_TRUE(fifo.available_blocks() == blocks);
// Consume all blocks of data.
for (int i = 1; i <= blocks; ++i) {
const AudioBus* bus = fifo.Consume();
EXPECT_TRUE(channels == bus->channels());
EXPECT_TRUE(frames == bus->frames());
EXPECT_TRUE(fifo.GetUnfilledFrames() == frames * i);
EXPECT_TRUE(fifo.available_blocks() == (blocks - i));
}
EXPECT_TRUE(fifo.GetUnfilledFrames() == frames * blocks);
EXPECT_TRUE(fifo.available_blocks() == 0);
fifo.Clear();
int new_push_frames = 128;
// Change the input frame and try to fill up the FIFO.
PushAndVerify(&fifo, new_push_frames, channels, frames,
frames * blocks);
EXPECT_TRUE(fifo.GetUnfilledFrames() != 0);
EXPECT_TRUE(fifo.available_blocks() == blocks -1);
// Consume all the existing filled blocks of data.
while (fifo.available_blocks()) {
const AudioBus* bus = fifo.Consume();
EXPECT_TRUE(channels == bus->channels());
EXPECT_TRUE(frames == bus->frames());
}
// Since one block of FIFO has not been completely filled up, there should
// be remaining frames.
const int number_of_push =
static_cast<int>(frames * blocks / new_push_frames);
const int remain_frames = frames * blocks - fifo.GetUnfilledFrames();
EXPECT_EQ(number_of_push * new_push_frames - frames * (blocks - 1),
remain_frames);
// Completely fill up the buffer again.
new_push_frames = frames * blocks - remain_frames;
PushAndVerify(&fifo, new_push_frames, channels, frames,
frames * blocks);
EXPECT_TRUE(fifo.GetUnfilledFrames() == 0);
EXPECT_TRUE(fifo.available_blocks() == blocks);
}
// Perform a sequence of Push/Consume calls to a 1 block FIFO.
TEST_F(AudioBlockFifoTest, PushAndConsumeOneBlockFifo) {
static const int channels = 2;
static const int frames = 441;
static const int blocks = 1;
AudioBlockFifo fifo(channels, frames, blocks);
PushAndVerify(&fifo, frames, channels, frames, frames * blocks);
EXPECT_TRUE(fifo.GetUnfilledFrames() == 0);
EXPECT_TRUE(fifo.available_blocks() == blocks);
// Consume 1 block of data.
const AudioBus* bus = fifo.Consume();
EXPECT_TRUE(channels == bus->channels());
EXPECT_TRUE(frames == bus->frames());
EXPECT_TRUE(fifo.available_blocks() == 0);
EXPECT_TRUE(fifo.GetUnfilledFrames() == frames);
}
// Dynamically increase the capacity of FIFO and verify buffers are correct.
TEST_F(AudioBlockFifoTest, DynamicallyIncreaseCapacity) {
// Create a FIFO with default blocks of buffers.
const int channels = 2;
const int frames = 441;
const int default_blocks = 2;
AudioBlockFifo fifo(channels, frames, default_blocks);
Push(&fifo, frames, channels);
int expected_unfilled_frames = frames;
int expected_available_blocks = 1;
EXPECT_EQ(expected_unfilled_frames, fifo.GetUnfilledFrames());
EXPECT_EQ(expected_available_blocks, fifo.available_blocks());
// Increase the capacity dynamically for the first time.
const int new_blocks_1 = 3;
fifo.IncreaseCapacity(new_blocks_1);
expected_unfilled_frames += new_blocks_1 * frames;
EXPECT_EQ(fifo.GetUnfilledFrames(), expected_unfilled_frames);
EXPECT_EQ(fifo.available_blocks(), expected_available_blocks);
// Verify the previous buffer is not affected by the dynamic capacity
// increment.
expected_unfilled_frames += frames;
expected_available_blocks -= 1;
ConsumeAndVerify(&fifo, expected_unfilled_frames, expected_available_blocks);
// Fill another |new_blocks_1 + 0.5| blocks of data to the FIFO.
const int frames_to_push = static_cast<int>((new_blocks_1 + 0.5) * frames);
int max_frames = frames * (default_blocks + new_blocks_1);
Push(&fifo, frames_to_push, channels);
expected_unfilled_frames = max_frames - frames_to_push;
expected_available_blocks = new_blocks_1;
EXPECT_EQ(fifo.GetUnfilledFrames(), expected_unfilled_frames);
EXPECT_EQ(fifo.available_blocks(), expected_available_blocks);
// Increase the capacity dynamically for the second time.
const int new_blocks_2 = 2;
fifo.IncreaseCapacity(new_blocks_2);
max_frames += new_blocks_2 * frames;
expected_unfilled_frames += new_blocks_2 * frames;
EXPECT_EQ(fifo.GetUnfilledFrames(), expected_unfilled_frames);
EXPECT_EQ(fifo.available_blocks(), expected_available_blocks);
// Verify the previous buffers are not affected by the dynamic capacity
// increment.
while (fifo.available_blocks()) {
expected_unfilled_frames += frames;
expected_available_blocks -= 1;
ConsumeAndVerify(&fifo, expected_unfilled_frames,
expected_available_blocks);
}
// Fill up one block of buffer and consume it, FIFO should then be empty.
const int available_frames = max_frames - expected_unfilled_frames;
Push(&fifo, frames - available_frames, channels);
ConsumeAndVerify(&fifo, max_frames, 0);
}
} // namespace media