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nana/source/audio/detail/audio_device.cpp

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#include <nana/audio/detail/audio_device.hpp>
#ifdef NANA_ENABLE_AUDIO
#include <nana/system/platform.hpp>
#if defined(NANA_LINUX)
#include <pthread.h>
#include <unistd.h>
#include <sys/time.h>
#include <errno.h>
#endif
namespace nana{namespace audio
{
namespace detail
{
#if defined(NANA_WINDOWS)
class wave_native
{
typedef MMRESULT (__stdcall *out_open_t)(LPHWAVEOUT, UINT_PTR, LPWAVEFORMATEX, DWORD_PTR, DWORD_PTR, DWORD);
typedef MMRESULT (__stdcall *out_close_t)(HWAVEOUT);
typedef MMRESULT (__stdcall *out_op_header_t)(HWAVEOUT, LPWAVEHDR, UINT);
public:
out_open_t out_open;
out_close_t out_close;
out_op_header_t out_write;
out_op_header_t out_prepare;
out_op_header_t out_unprepare;
wave_native()
{
HMODULE winmm = ::GetModuleHandleA("Winmm.DLL");
if(0 == winmm)
winmm = ::LoadLibraryA("Winmm.DLL");
out_open = reinterpret_cast<out_open_t>(::GetProcAddress(winmm, "waveOutOpen"));
out_close = reinterpret_cast<out_close_t>(::GetProcAddress(winmm, "waveOutClose"));
out_write = reinterpret_cast<out_op_header_t>(::GetProcAddress(winmm, "waveOutWrite"));
out_prepare = reinterpret_cast<out_op_header_t>(::GetProcAddress(winmm, "waveOutPrepareHeader"));
out_unprepare = reinterpret_cast<out_op_header_t>(::GetProcAddress(winmm, "waveOutUnprepareHeader"));
}
}wave_native_if;
#endif
//class audio_device
audio_device::audio_device()
#if defined(NANA_WINDOWS)
: handle_(nullptr), buf_prep_(nullptr)
#elif defined(NANA_LINUX)
: handle_(nullptr), buf_prep_(nullptr)
#endif
{}
audio_device::~audio_device()
{
close();
}
bool audio_device::empty() const
{
return (nullptr == handle_);
}
bool audio_device::open(std::size_t channels, std::size_t rate, std::size_t bits_per_sample)
{
#if defined(NANA_WINDOWS)
close();
WAVEFORMATEX wfx;
wfx.wFormatTag = WAVE_FORMAT_PCM;
wfx.nChannels = static_cast<WORD>(channels);
wfx.nSamplesPerSec = static_cast<DWORD>(rate);
wfx.wBitsPerSample = static_cast<WORD>(bits_per_sample);
wfx.nBlockAlign = (wfx.wBitsPerSample >> 3 ) * wfx.nChannels;
wfx.nAvgBytesPerSec = wfx.nBlockAlign * wfx.nSamplesPerSec;
wfx.cbSize = 0;
MMRESULT mmr = wave_native_if.out_open(&handle_, WAVE_MAPPER, &wfx, reinterpret_cast<DWORD_PTR>(&audio_device::_m_dev_callback), reinterpret_cast<DWORD_PTR>(this), CALLBACK_FUNCTION);
return (mmr == MMSYSERR_NOERROR);
#elif defined(NANA_LINUX)
if(nullptr == handle_)
{
if(::snd_pcm_open(&handle_, "plughw:0,0", SND_PCM_STREAM_PLAYBACK, 0) < 0)
return false;
}
if(handle_)
{
channels_ = channels;
rate_ = rate;
bytes_per_sample_ = (bits_per_sample >> 3);
bytes_per_frame_ = bytes_per_sample_ * channels;
snd_pcm_hw_params_t * params;
if(snd_pcm_hw_params_malloc(&params) < 0)
{
close();
return false;
}
if(::snd_pcm_hw_params_any(handle_, params) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
if(::snd_pcm_hw_params_set_access(handle_, params, SND_PCM_ACCESS_RW_INTERLEAVED) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
snd_pcm_format_t format = SND_PCM_FORMAT_U8;
switch(bits_per_sample)
{
case 8:
format = SND_PCM_FORMAT_U8; break;
case 16:
format = SND_PCM_FORMAT_S16_LE; break;
case 32:
format = SND_PCM_FORMAT_S32_LE; break;
}
if(::snd_pcm_hw_params_set_format(handle_, params, format) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
unsigned tmp = rate;
if(::snd_pcm_hw_params_set_rate_near(handle_, params, &tmp, 0) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
if(::snd_pcm_hw_params_set_channels(handle_, params, channels) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
if(::snd_pcm_hw_params(handle_, params) < 0)
{
close();
::snd_pcm_hw_params_free(params);
return false;
}
::snd_pcm_hw_params_free(params);
::snd_pcm_prepare(handle_);
return true;
}
return false;
#endif
}
void audio_device::close()
{
if(handle_)
{
#if defined(NANA_WINDOWS)
wave_native_if.out_close(handle_);
#elif defined(NANA_LINUX)
::snd_pcm_close(handle_);
#endif
handle_ = nullptr;
}
}
void audio_device::prepare(buffer_preparation & buf_prep)
{
buf_prep_ = & buf_prep;
}
void audio_device::write(buffer_preparation::meta * m)
{
#if defined(NANA_WINDOWS)
std::lock_guard<decltype(queue_lock_)> lock(queue_lock_);
done_queue_.push_back(m);
if(m->dwFlags & WHDR_PREPARED)
wave_native_if.out_unprepare(handle_, m, sizeof(WAVEHDR));
wave_native_if.out_prepare(handle_, m, sizeof(WAVEHDR));
wave_native_if.out_write(handle_, m, sizeof(WAVEHDR));
#elif defined(NANA_LINUX)
std::size_t frames = m->bufsize / bytes_per_frame_;
std::size_t buffered = 0; //in bytes
while(frames > 0)
{
int err = ::snd_pcm_writei(handle_, m->buf + buffered, frames);
if(err > 0)
{
frames -= err;
buffered += err * bytes_per_frame_;
}
else if(-EPIPE == err)
::snd_pcm_prepare(handle_);
}
buf_prep_->revert(m);
#endif
}
void audio_device::wait_for_drain() const
{
#if defined(NANA_WINDOWS)
while(buf_prep_->data_finished() == false)
nana::system::sleep(200);
#elif defined(NANA_LINUX)
while(::snd_pcm_state(handle_) == SND_PCM_STATE_RUNNING)
nana::system::sleep(200);
#endif
}
#if defined(NANA_WINDOWS)
void __stdcall audio_device::_m_dev_callback(HWAVEOUT handle, UINT msg, audio_device * self, DWORD_PTR, DWORD_PTR)
{
if(WOM_DONE == msg)
{
buffer_preparation::meta * m;
{
std::lock_guard<decltype(queue_lock_)> lock(self->queue_lock_);
m = self->done_queue_.front();
self->done_queue_.erase(self->done_queue_.begin());
}
wave_native_if.out_unprepare(handle, m, sizeof(WAVEHDR));
self->buf_prep_->revert(m);
}
}
#endif
//end class audio_device
}//end namespace detail
}//end namespace audio
}//end namespace nana
#endif //NANA_ENABLE_AUDIO
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