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// Copyright (c) 2006-2008 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 "media/audio/audio_output.h"
#include <windows.h>
#include <mmsystem.h>
#include "base/at_exit.h"
#include "base/basictypes.h"
#include "media/audio/win/audio_manager_win.h"
#include "media/audio/win/waveout_output_win.h"
// A do-nothing audio stream. It behaves like a regular audio stream but does
// not have any side effect, except possibly the creation and tear-down of
// of a thread. It is useful to test code that uses audio streams such as
// audio sources.
class AudioOutputStreamMockWin : public AudioOutputStream {
public:
explicit AudioOutputStreamMockWin(AudioManagerWin* manager)
: manager_(manager),
callback_(NULL),
buffer_(NULL),
packet_size_(0),
left_volume_(1.0),
right_volume_(1.0) {
}
virtual ~AudioOutputStreamMockWin() {
delete[] buffer_;
packet_size_ = 0;
}
virtual bool Open(size_t packet_size) {
if (packet_size < sizeof(int16))
return false;
packet_size_ = packet_size;
buffer_ = new char[packet_size_];
return true;
}
virtual void Start(AudioSourceCallback* callback) {
callback_ = callback;
memset(buffer_, 0, packet_size_);
callback_->OnMoreData(this, buffer_, packet_size_);
}
// TODO(cpu): flesh out Start and Stop methods. We need a thread to
// perform periodic callbacks.
virtual void Stop() {
}
virtual void SetVolume(double left_level, double right_level) {
left_volume_ = left_level;
right_volume_ = right_level;
}
virtual void GetVolume(double* left_level, double* right_level) {
*left_level = left_volume_;
*right_level = right_volume_;
}
virtual size_t GetNumBuffers() {
return 1;
}
virtual void Close() {
callback_->OnClose(this);
callback_ = NULL;
manager_->ReleaseStream(this);
}
char* buffer() {
return buffer_;
}
private:
AudioManagerWin* manager_;
AudioSourceCallback* callback_;
char* buffer_;
size_t packet_size_;
double left_volume_;
double right_volume_;
};
namespace {
// The next 3 constants are some sensible limits to prevent integer overflow
// at this layer.
// Up to 6 channels can be passed to the driver.
// This should work, given the right drivers, but graceful error handling is
// needed.
// In theory 7.1 could also be supported, but it has not been tested.
// The 192 Khz constant is the frequency of quicktime lossless audio codec.
// MP4 is limited to 96 Khz, and mp3 is limited to 48 Khz.
// OGG vorbis was initially limited to 96 Khz, but recent tools are unlimited.
// 192 Khz is also the limit on most PC audio hardware. The minimum is 100 Hz.
// Humans range is 20 to 20000 Hz. Below 20 can be felt (woofer).
const int kMaxChannels = 6;
const int kMaxSampleRate = 192000;
const int kMaxBitsPerSample = 64;
AudioOutputStreamMockWin* g_last_mock_stream = NULL;
AudioManagerWin* g_audio_manager = NULL;
void ReplaceLastMockStream(AudioOutputStreamMockWin* newer) {
if (g_last_mock_stream)
delete g_last_mock_stream;
g_last_mock_stream = newer;
}
} // namespace.
bool AudioManagerWin::HasAudioDevices() {
return (::waveOutGetNumDevs() != 0);
}
// Factory for the implementations of AudioOutputStream. Two implementations
// should suffice most windows user's needs.
// - PCMWaveOutAudioOutputStream: Based on the waveOutWrite API (in progress)
// - PCMDXSoundAudioOutputStream: Based on DirectSound or XAudio (future work).
AudioOutputStream* AudioManagerWin::MakeAudioStream(Format format, int channels,
int sample_rate,
char bits_per_sample) {
if ((channels > kMaxChannels) || (channels <= 0) ||
(sample_rate > kMaxSampleRate) || (sample_rate <= 0) ||
(bits_per_sample > kMaxBitsPerSample) || (bits_per_sample <= 0))
return NULL;
if (format == AUDIO_MOCK) {
return new AudioOutputStreamMockWin(this);
} else if (format == AUDIO_PCM_LINEAR) {
return new PCMWaveOutAudioOutputStream(this, channels, sample_rate,
bits_per_sample, WAVE_MAPPER);
}
return NULL;
}
void AudioManagerWin::ReleaseStream(PCMWaveOutAudioOutputStream* stream) {
if (stream)
delete stream;
}
void AudioManagerWin::ReleaseStream(AudioOutputStreamMockWin *stream) {
// Note that we keep the last mock stream so GetLastMockBuffer() works.
ReplaceLastMockStream(stream);
}
const void* AudioManagerWin::GetLastMockBuffer() {
return (g_last_mock_stream) ? g_last_mock_stream->buffer() : NULL;
}
void AudioManagerWin::MuteAll() {
}
void AudioManagerWin::UnMuteAll() {
}
AudioManagerWin::~AudioManagerWin() {
ReplaceLastMockStream(NULL);
}
void DestroyAudioManagerWin(void* param) {
delete g_audio_manager;
g_audio_manager = NULL;
}
AudioManager* AudioManager::GetAudioManager() {
if (!g_audio_manager) {
g_audio_manager = new AudioManagerWin();
base::AtExitManager::RegisterCallback(&DestroyAudioManagerWin, NULL);
}
return g_audio_manager;
}
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