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reactos/base/applications/sndrec32/audio_waveout.cpp

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/* PROJECT: ReactOS sndrec32
* LICENSE: GPL - See COPYING in the top level directory
* FILE: base/applications/sndrec32/audio_waveout.cpp
* PURPOSE: Sound recording
* PROGRAMMERS: Marco Pagliaricci (irc: rendar)
*/
#include "stdafx.h"
#include "audio_waveout.hpp"
_AUDIO_NAMESPACE_START_
void
audio_waveout::init_(void)
{
ZeroMemory((LPVOID)&wave_format, sizeof(WAVEFORMATEX));
wave_format.cbSize = sizeof(WAVEFORMATEX);
waveout_handle = 0;
playthread_id = 0;
wakeup_playthread = 0;
buf_secs = _AUDIO_DEFAULT_WAVEOUTBUFSECS;
status = WAVEOUT_NOTREADY;
}
void
audio_waveout::alloc_buffers_mem_(unsigned int buffs, float secs)
{
unsigned int onebuf_size = 0, tot_size = 0;
/* Release old memory */
if (main_buffer)
delete[] main_buffer;
if (wave_headers)
delete[] wave_headers;
/* Calcs size of the buffers */
onebuf_size = (unsigned int)((float)aud_info.byte_rate() * secs);
tot_size = onebuf_size * buffs;
/* Allocs memory for the audio buffers */
main_buffer = new BYTE[tot_size];
/* Allocs memory for the `WAVEHDR' structures */
wave_headers = (WAVEHDR *) new BYTE[sizeof(WAVEHDR) * buffs];
/* Zeros memory */
ZeroMemory(main_buffer, tot_size);
ZeroMemory(wave_headers, sizeof(WAVEHDR) * buffs);
/* Updates total size of the buffers */
mb_size = tot_size;
}
void
audio_waveout::init_headers_(void)
{
/* If there is no memory for memory or headers, simply return */
if ((!wave_headers) || (!main_buffer))
return;
/* This is the size for one buffer */
DWORD buf_sz = mb_size / buffers;
/* This is the base address for one buffer */
BYTE *buf_addr = main_buffer;
ZeroMemory(wave_headers, sizeof(WAVEHDR) * buffers);
/* Initializes headers */
for (unsigned int i = 0; i < buffers; ++i)
{
/* Sets the correct base address and length for the little buffer */
wave_headers[i].dwBufferLength = mb_size / buffers;
wave_headers[i].lpData = (LPSTR) buf_addr;
/* Unsets the WHDR_DONE flag */
wave_headers[i].dwFlags &= ~WHDR_DONE;
/* Sets the WAVEHDR user data with an unique little buffer ID# */
wave_headers[i].dwUser = (unsigned int)i;
/* Increments little buffer base address */
buf_addr += buf_sz;
}
}
void
audio_waveout::prep_headers_(void)
{
MMRESULT err;
bool error = false;
/* If there is no memory for memory or headers, throw error */
if ((!wave_headers) || (!main_buffer) || (!waveout_handle))
{
/* TODO: throw error! */
}
for (unsigned int i = 0; i < buffers; ++i)
{
err = waveOutPrepareHeader(waveout_handle, &wave_headers[i], sizeof(WAVEHDR));
if (err != MMSYSERR_NOERROR)
error = true;
}
if (error)
{
/* TODO: throw error indicating which header i-th is errorneous */
}
}
void
audio_waveout::unprep_headers_(void)
{
MMRESULT err;
bool error = false;
/* If there is no memory for memory or headers, throw error */
if ((!wave_headers) || (!main_buffer) || (!waveout_handle))
{
/* TODO: throw error! */
}
for (unsigned int i = 0; i < buffers; ++i)
{
err = waveOutUnprepareHeader(waveout_handle, &wave_headers[i], sizeof(WAVEHDR));
if (err != MMSYSERR_NOERROR)
error = true;
}
if (error)
{
/* TODO: throw error indicating which header i-th is errorneous */
}
}
void
audio_waveout::free_buffers_mem_(void)
{
/* Frees memory */
if (main_buffer)
delete[] main_buffer;
if (wave_headers)
delete[] wave_headers;
main_buffer = 0;
wave_headers = 0;
}
void
audio_waveout::open(void)
{
MMRESULT err;
HANDLE playthread_handle = 0;
/* Checkin the status of the object */
if (status != WAVEOUT_NOTREADY)
{
/* TODO: throw error */
}
/* Creating the EVENT object that will be signaled when
the playing thread has to wake up */
wakeup_playthread = CreateEvent(0, FALSE, FALSE, 0);
if (!wakeup_playthread)
{
status = WAVEOUT_ERR;
/* TODO: throw error */
}
/* Inialize buffers for recording audio data from the wavein audio line */
alloc_buffers_mem_(buffers, buf_secs);
init_headers_();
/* Sound format that will be captured by wavein */
wave_format.wFormatTag = WAVE_FORMAT_PCM;
wave_format.nChannels = aud_info.channels();
wave_format.nSamplesPerSec = aud_info.sample_rate();
wave_format.wBitsPerSample = aud_info.bits();
wave_format.nBlockAlign = aud_info.block_align();
wave_format.nAvgBytesPerSec = aud_info.byte_rate();
/* Creating the recording thread */
playthread_handle = CreateThread(NULL,
0,
audio_waveout::playing_procedure,
(PVOID)this,
0,
&playthread_id);
/* Checking thread handle */
if (!playthread_handle)
{
/* Updating status */
status = WAVEOUT_ERR;
/* TODO: throw error */
}
/* We don't need the thread handle anymore, so we can close it from now.
(We'll just need the thread ID for the `waveInOpen' API) */
CloseHandle(playthread_handle);
/* Reset the `audio_source' to the start position */
audio_buf.set_position_start();
/* Opens the WAVE_OUT device */
err = waveOutOpen(&waveout_handle,
WAVE_MAPPER,
&wave_format,
playthread_id,
0,
CALLBACK_THREAD | WAVE_ALLOWSYNC);
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("waveOutOpen Error"), 0, 0);
/* TODO: throw error */
}
status = WAVEOUT_READY;
}
void
audio_waveout::play(void)
{
MMRESULT err;
unsigned int i;
if (!main_buffer)
{
/* TODO; throw error, or assert */
return;
}
/* If the status is PAUSED, we have to resume the audio playing */
if (status == WAVEOUT_PAUSED)
{
/* Updates status */
status = WAVEOUT_PLAYING;
/* Tells to the driver to resume audio playing */
waveOutRestart(waveout_handle);
/* Wakeup playing thread */
SetEvent(wakeup_playthread);
return;
} /* if status == WAVEOUT_PAUSED */
if (status != WAVEOUT_READY)
return;
/* Prepares WAVEHDR structures */
prep_headers_();
/* Sets correct status */
status = WAVEOUT_PLAYING;
/* Reads the audio from the start */
//audio_buf.set_position_start();
/* Reads the first N bytes from the audio buffer, where N = the total
size of all little buffers */
audio_buf.read(main_buffer, mb_size);
/* Wakeup the playing thread */
SetEvent(wakeup_playthread);
/* Sends all the little buffers to the audio driver, so it can play
the sound data */
for (i = 0; i < buffers; ++i)
{
err = waveOutWrite(waveout_handle, &wave_headers[i], sizeof(WAVEHDR));
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("waveOutWrite Error"), 0, 0);
/* TODO: throw error */
}
}
}
void
audio_waveout::pause(void)
{
MMRESULT err;
/* If the waveout object is not playing audio, do nothing */
if (status == WAVEOUT_PLAYING)
{
/* Updating status */
status = WAVEOUT_PAUSED;
/* Tells to audio driver to pause audio */
err = waveOutPause(waveout_handle);
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("waveOutPause Error"), 0, 0);
/* TODO: throw error */
}
}
}
void
audio_waveout::stop(void)
{
MMRESULT err;
/* Checks the current status */
if ((status != WAVEOUT_PLAYING) &&
(status != WAVEOUT_FLUSHING) &&
(status != WAVEOUT_PAUSED))
{
/* Do nothing */
return;
}
/* Sets a new status */
status = WAVEOUT_STOP;
/* Flushes pending audio datas */
err = waveOutReset( waveout_handle );
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("err WaveOutReset.\n"),_T("ERROR"), 0);
/* TODO: throw error */
}
/* Sets the start position of the audio buffer */
audio_buf.set_position_start();
/* Cleans little buffers */
unprep_headers_();
init_headers_();
/* Refreshes the status */
status = WAVEOUT_READY;
}
void
audio_waveout::close(void)
{
MMRESULT err;
/* If the `wave_out' object is playing audio, or it is in paused state,
we have to call the `stop' member function, to flush pending buffers */
if ((status == WAVEOUT_PLAYING) || (status== WAVEOUT_PAUSED))
{
stop();
}
/* When we have flushed all pending buffers, the wave out handle can be successfully closed */
err = waveOutClose(waveout_handle);
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("waveOutClose Error"), 0, 0);
/* TODO: throw error */
}
free_buffers_mem_();
}
DWORD WINAPI
audio_waveout::playing_procedure(LPVOID arg)
{
MSG msg;
WAVEHDR *phdr;
MMRESULT err;
audio_waveout *_this = (audio_waveout *)arg;
unsigned int read_size;
/* Check the arg pointer */
if (_this == 0)
return 0;
/* The thread can go to sleep for now. It will be wake up only when
there is audio data to be recorded */
if (_this->wakeup_playthread)
WaitForSingleObject(_this->wakeup_playthread, INFINITE);
/* Entering main polling loop */
while (GetMessage(&msg, 0, 0, 0))
{
switch (msg.message)
{
case MM_WOM_DONE:
phdr = (WAVEHDR *)msg.lParam;
/* If the status of the `wave_out' object is different
than playing, then the thread can go to sleep */
if ((_this->status != WAVEOUT_PLAYING) &&
(_this->status != WAVEOUT_FLUSHING) &&
(_this->wakeup_playthread))
{
WaitForSingleObject(_this->wakeup_playthread, INFINITE);
}
/* The playing thread doesn't have to sleep, so let's checking
first if the little buffer has been sent to the audio driver
(it has the WHDR_DONE flag). If it is, we can read new audio
datas from the `audio_producer' object, refill the little buffer,
and resend it to the driver with waveOutWrite( ) API */
if (phdr->dwFlags & WHDR_DONE)
{
if (_this->status == WAVEOUT_PLAYING)
{
/* Here the thread is still playing a sound, so it can
read new audio data from the `audio_producer' object */
read_size = _this->audio_buf.read((BYTE *)phdr->lpData,
phdr->dwBufferLength);
} else
read_size = 0;
/* If the `audio_producer' object, has produced some
audio data, so `read_size' will be > 0 */
if (read_size)
{
/* Adjusts the correct effectively read size */
phdr->dwBufferLength = read_size;
/* Before sending the little buffer to the driver,
we have to remove the `WHDR_DONE' flag, because
the little buffer now contain new audio data that have to be played */
phdr->dwFlags &= ~WHDR_DONE;
/* Plays the sound of the little buffer */
err = waveOutWrite(_this->waveout_handle,
phdr,
sizeof(WAVEHDR));
/* Checking if any error has occured */
if (err != MMSYSERR_NOERROR)
{
MessageBox(0, _T("waveOutWrite Error"), 0, 0);
/* TODO: throw error */
}
}
else
{
/* Here `read_size' is 0, so the `audio_producer' object,
doesn't have any sound data to produce anymore. So,
now we have to see the little buffer #ID to establishing what to do */
if (phdr->dwUser == 0)
{
/* Here `read_size' is 0, and the buffer user data
contain 0, so this is the first of N little
buffers that came back with `WHDR_DONE' flag;
this means that this is the last little buffer
in which we have to read data to; so we can
_STOP_ reading data from the `audio_producer'
object: doing this is accomplished just setting
the current status as "WAVEOUT_FLUSHING" */
_this->status = WAVEOUT_FLUSHING;
}
else if (phdr->dwUser == (_this->buffers - 1))
{
/* Here `read_size' and the buffer user data, that
contain a buffer ID#, is equal to the number of
the total buffers - 1. This means that this is
the _LAST_ little buffer that has been played by
the audio driver. We can STOP the `wave_out'
object now, or restart the sound playing, if we have a infinite loop */
_this->stop();
/* Let the thread go to sleep */
if (_this->audio_buf.play_finished)
_this->audio_buf.play_finished();
if (_this->wakeup_playthread)
WaitForSingleObject(_this->wakeup_playthread,
INFINITE);
} /* if (phdr->dwUser == (_this->buffers - 1)) */
} /* if read_size != 0 */
} /* (phdr->dwFlags & WHDR_DONE) */
break; /* end case */
case MM_WOM_CLOSE:
/* The thread can exit now */
return 0;
break;
case MM_WOM_OPEN:
/* Do nothing */
break;
} /* end switch(msg.message) */
} /* end while(GetMessage(...)) */
return 0;
}
_AUDIO_NAMESPACE_END_
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