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SDL_audio.c
1232 lines (1077 loc) · 35.7 KB
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/*
SDL - Simple DirectMedia Layer
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Copyright (C) 1997-2009 Sam Lantinga
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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Sam Lantinga
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slouken@libsdl.org
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*/
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#include "SDL_config.h"
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/* Allow access to a raw mixing buffer */
#include "SDL.h"
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#include "SDL_audio.h"
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#include "SDL_audio_c.h"
#include "SDL_audiomem.h"
#include "SDL_sysaudio.h"
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#define _THIS SDL_AudioDevice *this
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static SDL_AudioDriver current_audio;
static SDL_AudioDevice *open_devices[16];
/* !!! FIXME: These are wordy and unlocalized... */
#define DEFAULT_OUTPUT_DEVNAME "System audio output device"
#define DEFAULT_INPUT_DEVNAME "System audio capture device"
/*
* Not all of these will be compiled and linked in, but it's convenient
* to have a complete list here and saves yet-another block of #ifdefs...
* Please see bootstrap[], below, for the actual #ifdef mess.
*/
extern AudioBootStrap BSD_AUDIO_bootstrap;
extern AudioBootStrap DSP_bootstrap;
extern AudioBootStrap DMA_bootstrap;
extern AudioBootStrap ALSA_bootstrap;
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extern AudioBootStrap PULSEAUDIO_bootstrap;
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extern AudioBootStrap QSAAUDIO_bootstrap;
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extern AudioBootStrap SUNAUDIO_bootstrap;
extern AudioBootStrap DMEDIA_bootstrap;
extern AudioBootStrap ARTS_bootstrap;
extern AudioBootStrap ESD_bootstrap;
extern AudioBootStrap NAS_bootstrap;
extern AudioBootStrap DSOUND_bootstrap;
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extern AudioBootStrap WINWAVEOUT_bootstrap;
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extern AudioBootStrap PAUDIO_bootstrap;
extern AudioBootStrap BEOSAUDIO_bootstrap;
extern AudioBootStrap COREAUDIO_bootstrap;
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extern AudioBootStrap COREAUDIOIPHONE_bootstrap;
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extern AudioBootStrap SNDMGR_bootstrap;
extern AudioBootStrap MINTAUDIO_GSXB_bootstrap;
extern AudioBootStrap MINTAUDIO_MCSN_bootstrap;
extern AudioBootStrap MINTAUDIO_STFA_bootstrap;
extern AudioBootStrap MINTAUDIO_XBIOS_bootstrap;
extern AudioBootStrap MINTAUDIO_DMA8_bootstrap;
extern AudioBootStrap DISKAUD_bootstrap;
extern AudioBootStrap DUMMYAUD_bootstrap;
extern AudioBootStrap DCAUD_bootstrap;
extern AudioBootStrap MMEAUDIO_bootstrap;
extern AudioBootStrap DART_bootstrap;
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extern AudioBootStrap NDSAUD_bootstrap;
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extern AudioBootStrap FUSIONSOUND_bootstrap;
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/* Available audio drivers */
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static const AudioBootStrap *const bootstrap[] = {
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#if SDL_AUDIO_DRIVER_BSD
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&BSD_AUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_PULSEAUDIO
&PULSEAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_ALSA
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&ALSA_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_OSS
&DSP_bootstrap,
&DMA_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_QSA
&QSAAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_SUNAUDIO
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&SUNAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_DMEDIA
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&DMEDIA_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_ARTS
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&ARTS_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_ESD
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&ESD_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_NAS
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&NAS_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_DSOUND
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&DSOUND_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_WINWAVEOUT
&WINWAVEOUT_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_PAUDIO
&PAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_BEOSAUDIO
&BEOSAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_COREAUDIO
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&COREAUDIO_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_COREAUDIOIPHONE
&COREAUDIOIPHONE_bootstrap,
#endif
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#if SDL_AUDIO_DRIVER_MINT
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&MINTAUDIO_GSXB_bootstrap,
&MINTAUDIO_MCSN_bootstrap,
&MINTAUDIO_STFA_bootstrap,
&MINTAUDIO_XBIOS_bootstrap,
&MINTAUDIO_DMA8_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_DISK
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&DISKAUD_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_DUMMY
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&DUMMYAUD_bootstrap,
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#endif
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#if SDL_AUDIO_DRIVER_MMEAUDIO
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&MMEAUDIO_bootstrap,
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#endif
#if SDL_AUDIO_DRIVER_DART
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&DART_bootstrap,
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#endif
#if SDL_AUDIO_DRIVER_NDS
&NDSAUD_bootstrap,
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#endif
#if SDL_AUDIO_DRIVER_FUSIONSOUND
&FUSIONSOUND_bootstrap,
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#endif
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NULL
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};
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static SDL_AudioDevice *
get_audio_device(SDL_AudioDeviceID id)
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{
id--;
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if ((id >= SDL_arraysize(open_devices)) || (open_devices[id] == NULL)) {
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SDL_SetError("Invalid audio device ID");
return NULL;
}
return open_devices[id];
}
/* stubs for audio drivers that don't need a specific entry point... */
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static int
SDL_AudioDetectDevices_Default(int iscapture)
{
return -1;
}
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static void
SDL_AudioThreadInit_Default(_THIS)
{ /* no-op. */
}
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static void
SDL_AudioWaitDevice_Default(_THIS)
{ /* no-op. */
}
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static void
SDL_AudioPlayDevice_Default(_THIS)
{ /* no-op. */
}
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static Uint8 *
SDL_AudioGetDeviceBuf_Default(_THIS)
{
return NULL;
}
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static void
SDL_AudioWaitDone_Default(_THIS)
{ /* no-op. */
}
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static void
SDL_AudioCloseDevice_Default(_THIS)
{ /* no-op. */
}
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static void
SDL_AudioDeinitialize_Default(void)
{ /* no-op. */
}
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static int
SDL_AudioOpenDevice_Default(_THIS, const char *devname, int iscapture)
{
return 0;
}
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static const char *
SDL_AudioGetDeviceName_Default(int index, int iscapture)
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{
SDL_SetError("No such device");
return NULL;
}
static void
SDL_AudioLockDevice_Default(SDL_AudioDevice * device)
{
if (device->thread && (SDL_ThreadID() == device->threadid)) {
return;
}
SDL_mutexP(device->mixer_lock);
}
static void
SDL_AudioUnlockDevice_Default(SDL_AudioDevice * device)
{
if (device->thread && (SDL_ThreadID() == device->threadid)) {
return;
}
SDL_mutexV(device->mixer_lock);
}
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static void
finalize_audio_entry_points(void)
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{
/*
* Fill in stub functions for unused driver entry points. This lets us
* blindly call them without having to check for validity first.
*/
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#define FILL_STUB(x) \
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if (current_audio.impl.x == NULL) { \
current_audio.impl.x = SDL_Audio##x##_Default; \
}
FILL_STUB(DetectDevices);
FILL_STUB(GetDeviceName);
FILL_STUB(OpenDevice);
FILL_STUB(ThreadInit);
FILL_STUB(WaitDevice);
FILL_STUB(PlayDevice);
FILL_STUB(GetDeviceBuf);
FILL_STUB(WaitDone);
FILL_STUB(CloseDevice);
FILL_STUB(LockDevice);
FILL_STUB(UnlockDevice);
FILL_STUB(Deinitialize);
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#undef FILL_STUB
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}
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/* Streaming functions (for when the input and output buffer sizes are different) */
/* Write [length] bytes from buf into the streamer */
void
SDL_StreamWrite(SDL_AudioStreamer * stream, Uint8 * buf, int length)
{
int i;
for (i = 0; i < length; ++i) {
stream->buffer[stream->write_pos] = buf[i];
++stream->write_pos;
}
}
/* Read [length] bytes out of the streamer into buf */
void
SDL_StreamRead(SDL_AudioStreamer * stream, Uint8 * buf, int length)
{
int i;
for (i = 0; i < length; ++i) {
buf[i] = stream->buffer[stream->read_pos];
++stream->read_pos;
}
}
int
SDL_StreamLength(SDL_AudioStreamer * stream)
{
return (stream->write_pos - stream->read_pos) % stream->max_len;
}
/* Initialize the stream by allocating the buffer and setting the read/write heads to the beginning */
int
SDL_StreamInit(SDL_AudioStreamer * stream, int max_len, Uint8 silence)
{
/* First try to allocate the buffer */
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stream->buffer = (Uint8 *) SDL_malloc(max_len);
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if (stream->buffer == NULL) {
return -1;
}
stream->max_len = max_len;
stream->read_pos = 0;
stream->write_pos = 0;
/* Zero out the buffer */
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SDL_memset(stream->buffer, silence, max_len);
return 0;
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}
/* Deinitialize the stream simply by freeing the buffer */
void
SDL_StreamDeinit(SDL_AudioStreamer * stream)
{
if (stream->buffer != NULL) {
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SDL_free(stream->buffer);
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}
}
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/* The general mixing thread function */
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int SDLCALL
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SDL_RunAudio(void *devicep)
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{
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SDL_AudioDevice *device = (SDL_AudioDevice *) devicep;
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Uint8 *stream;
int stream_len;
void *udata;
void (SDLCALL * fill) (void *userdata, Uint8 * stream, int len);
int silence;
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/* For streaming when the buffer sizes don't match up */
Uint8 *istream;
int istream_len;
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/* Perform any thread setup */
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device->threadid = SDL_ThreadID();
current_audio.impl.ThreadInit(device);
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/* Set up the mixing function */
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fill = device->spec.callback;
udata = device->spec.userdata;
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/* By default do not stream */
device->use_streamer = 0;
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if (device->convert.needed) {
if (device->convert.src_format == AUDIO_U8) {
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silence = 0x80;
} else {
silence = 0;
}
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#if 0 /* !!! FIXME: I took len_div out of the structure. Use rate_incr instead? */
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/* If the result of the conversion alters the length, i.e. resampling is being used, use the streamer */
if (device->convert.len_mult != 1 || device->convert.len_div != 1) {
/* The streamer's maximum length should be twice whichever is larger: spec.size or len_cvt */
stream_max_len = 2 * device->spec.size;
if (device->convert.len_mult > device->convert.len_div) {
stream_max_len *= device->convert.len_mult;
stream_max_len /= device->convert.len_div;
}
if (SDL_StreamInit(&device->streamer, stream_max_len, silence) <
0)
return -1;
device->use_streamer = 1;
/* istream_len should be the length of what we grab from the callback and feed to conversion,
so that we get close to spec_size. I.e. we want device.spec_size = istream_len * u / d
*/
istream_len =
device->spec.size * device->convert.len_div /
device->convert.len_mult;
}
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#endif
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/* stream_len = device->convert.len; */
stream_len = device->spec.size;
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} else {
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silence = device->spec.silence;
stream_len = device->spec.size;
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}
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/* Determine if the streamer is necessary here */
if (device->use_streamer == 1) {
/* This code is almost the same as the old code. The difference is, instead of reding
directly from the callback into "stream", then converting and sending the audio off,
we go: callback -> "istream" -> (conversion) -> streamer -> stream -> device.
However, reading and writing with streamer are done separately:
- We only call the callback and write to the streamer when the streamer does not
contain enough samples to output to the device.
- We only read from the streamer and tell the device to play when the streamer
does have enough samples to output.
This allows us to perform resampling in the conversion step, where the output of the
resampling process can be any number. We will have to see what a good size for the
stream's maximum length is, but I suspect 2*max(len_cvt, stream_len) is a good figure.
*/
while (device->enabled) {
/* Only read in audio if the streamer doesn't have enough already (if it does not have enough samples to output) */
if (SDL_StreamLength(&device->streamer) < stream_len) {
/* Set up istream */
if (device->convert.needed) {
if (device->convert.buf) {
istream = device->convert.buf;
} else {
continue;
}
} else {
istream = current_audio.impl.GetDeviceBuf(device);
if (istream == NULL) {
istream = device->fake_stream;
}
}
/* Read from the callback into the _input_ stream */
if (!device->paused) {
SDL_mutexP(device->mixer_lock);
(*fill) (udata, istream, istream_len);
SDL_mutexV(device->mixer_lock);
}
/* Convert the audio if necessary and write to the streamer */
if (device->convert.needed) {
SDL_ConvertAudio(&device->convert);
if (istream == NULL) {
istream = device->fake_stream;
}
/*SDL_memcpy(istream, device->convert.buf, device->convert.len_cvt); */
SDL_StreamWrite(&device->streamer, device->convert.buf,
device->convert.len_cvt);
} else {
SDL_StreamWrite(&device->streamer, istream, istream_len);
}
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}
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/* Only output audio if the streamer has enough to output */
if (SDL_StreamLength(&device->streamer) >= stream_len) {
/* Set up the output stream */
if (device->convert.needed) {
if (device->convert.buf) {
stream = device->convert.buf;
} else {
continue;
}
} else {
stream = current_audio.impl.GetDeviceBuf(device);
if (stream == NULL) {
stream = device->fake_stream;
}
}
/* Now read from the streamer */
SDL_StreamRead(&device->streamer, stream, stream_len);
/* Ready current buffer for play and change current buffer */
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if (stream != device->fake_stream && !device->paused) {
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current_audio.impl.PlayDevice(device);
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/* Wait for an audio buffer to become available */
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current_audio.impl.WaitDevice(device);
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} else {
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SDL_Delay((device->spec.samples * 1000) /
device->spec.freq);
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}
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}
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}
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} else {
/* Otherwise, do not use the streamer. This is the old code. */
/* Loop, filling the audio buffers */
while (device->enabled) {
/* Fill the current buffer with sound */
if (device->convert.needed) {
if (device->convert.buf) {
stream = device->convert.buf;
} else {
continue;
}
} else {
stream = current_audio.impl.GetDeviceBuf(device);
if (stream == NULL) {
stream = device->fake_stream;
}
}
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if (!device->paused) {
SDL_mutexP(device->mixer_lock);
(*fill) (udata, stream, stream_len);
SDL_mutexV(device->mixer_lock);
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}
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/* Convert the audio if necessary */
if (device->convert.needed) {
SDL_ConvertAudio(&device->convert);
stream = current_audio.impl.GetDeviceBuf(device);
if (stream == NULL) {
stream = device->fake_stream;
}
SDL_memcpy(stream, device->convert.buf,
device->convert.len_cvt);
}
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/* Ready current buffer for play and change current buffer */
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if (stream != device->fake_stream && !device->paused) {
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current_audio.impl.PlayDevice(device);
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/* Wait for an audio buffer to become available */
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current_audio.impl.WaitDevice(device);
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} else {
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SDL_Delay((device->spec.samples * 1000) / device->spec.freq);
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}
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}
}
/* Wait for the audio to drain.. */
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current_audio.impl.WaitDone(device);
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/* If necessary, deinit the streamer */
if (device->use_streamer == 1)
SDL_StreamDeinit(&device->streamer);
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return (0);
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}
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static SDL_AudioFormat
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SDL_ParseAudioFormat(const char *string)
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{
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#define CHECK_FMT_STRING(x) if (SDL_strcmp(string, #x) == 0) return AUDIO_##x
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CHECK_FMT_STRING(U8);
CHECK_FMT_STRING(S8);
CHECK_FMT_STRING(U16LSB);
CHECK_FMT_STRING(S16LSB);
CHECK_FMT_STRING(U16MSB);
CHECK_FMT_STRING(S16MSB);
CHECK_FMT_STRING(U16SYS);
CHECK_FMT_STRING(S16SYS);
CHECK_FMT_STRING(U16);
CHECK_FMT_STRING(S16);
CHECK_FMT_STRING(S32LSB);
CHECK_FMT_STRING(S32MSB);
CHECK_FMT_STRING(S32SYS);
CHECK_FMT_STRING(S32);
CHECK_FMT_STRING(F32LSB);
CHECK_FMT_STRING(F32MSB);
CHECK_FMT_STRING(F32SYS);
CHECK_FMT_STRING(F32);
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#undef CHECK_FMT_STRING
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return 0;
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}
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int
SDL_GetNumAudioDrivers(void)
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{
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return (SDL_arraysize(bootstrap) - 1);
}
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const char *
SDL_GetAudioDriver(int index)
{
if (index >= 0 && index < SDL_GetNumAudioDrivers()) {
return (bootstrap[index]->name);
}
return (NULL);
}
int
SDL_AudioInit(const char *driver_name)
{
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int i = 0;
int initialized = 0;
int tried_to_init = 0;
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int rc = 0;
int best_choice = -1;
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if (SDL_WasInit(SDL_INIT_AUDIO)) {
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SDL_AudioQuit(); /* shutdown driver if already running. */
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}
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SDL_memset(¤t_audio, '\0', sizeof(current_audio));
SDL_memset(open_devices, '\0', sizeof(open_devices));
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/* Select the proper audio driver */
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if (driver_name == NULL) {
driver_name = SDL_getenv("SDL_AUDIODRIVER");
}
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for (i = 0; (!initialized) && (bootstrap[i]); ++i) {
/* make sure we should even try this driver before doing so... */
const AudioBootStrap *backend = bootstrap[i];
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if (((driver_name) && (SDL_strcasecmp(backend->name, driver_name))) ||
((!driver_name) && (backend->demand_only))) {
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continue;
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}
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tried_to_init = 1;
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SDL_memset(¤t_audio, 0, sizeof(current_audio));
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current_audio.name = backend->name;
current_audio.desc = backend->desc;
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rc = backend->init(¤t_audio.impl);
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if (rc == 2) { /* init'd, and devices available. Take it! */
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initialized = 1;
best_choice = i;
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} else if (rc == 1) { /* init'd, but can't see any devices. */
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if (current_audio.impl.Deinitialize) {
current_audio.impl.Deinitialize();
}
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if (best_choice == -1) {
best_choice = i;
}
}
}
/* No definite choice. Pick one that works but can't promise a device. */
if ((!initialized) && (best_choice != -1)) {
const AudioBootStrap *backend = bootstrap[best_choice];
SDL_memset(¤t_audio, 0, sizeof(current_audio));
current_audio.name = backend->name;
current_audio.desc = backend->desc;
initialized = (backend->init(¤t_audio.impl) > 0);
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}
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if (!initialized) {
/* specific drivers will set the error message if they fail... */
if (!tried_to_init) {
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if (driver_name) {
SDL_SetError("%s not available", driver_name);
} else {
SDL_SetError("No available audio device");
}
}
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SDL_memset(¤t_audio, 0, sizeof(current_audio));
return (-1); /* No driver was available, so fail. */
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}
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finalize_audio_entry_points();
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return (0);
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}
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/*
* Get the current audio driver name
*/
const char *
SDL_GetCurrentAudioDriver()
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{
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return current_audio.name;
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}
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int
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SDL_GetNumAudioDevices(int iscapture)
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{
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if (!SDL_WasInit(SDL_INIT_AUDIO)) {
return -1;
}
if ((iscapture) && (!current_audio.impl.HasCaptureSupport)) {
return 0;
}
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if ((iscapture) && (current_audio.impl.OnlyHasDefaultInputDevice)) {
return 1;
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}
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if ((!iscapture) && (current_audio.impl.OnlyHasDefaultOutputDevice)) {
return 1;
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}
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return current_audio.impl.DetectDevices(iscapture);
}
const char *
SDL_GetAudioDeviceName(int index, int iscapture)
{
if (!SDL_WasInit(SDL_INIT_AUDIO)) {
SDL_SetError("Audio subsystem is not initialized");
return NULL;
693
}
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if ((iscapture) && (!current_audio.impl.HasCaptureSupport)) {
SDL_SetError("No capture support");
return NULL;
698
}
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if (index < 0) {
SDL_SetError("No such device");
return NULL;
}
if ((iscapture) && (current_audio.impl.OnlyHasDefaultInputDevice)) {
return DEFAULT_INPUT_DEVNAME;
}
if ((!iscapture) && (current_audio.impl.OnlyHasDefaultOutputDevice)) {
return DEFAULT_OUTPUT_DEVNAME;
}
return current_audio.impl.GetDeviceName(index, iscapture);
}
static void
718
close_audio_device(SDL_AudioDevice * device)
719
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721
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{
device->enabled = 0;
if (device->thread != NULL) {
SDL_WaitThread(device->thread, NULL);
}
if (device->mixer_lock != NULL) {
SDL_DestroyMutex(device->mixer_lock);
726
}
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728
if (device->fake_stream != NULL) {
SDL_FreeAudioMem(device->fake_stream);
729
}
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731
732
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734
735
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739
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if (device->convert.needed) {
SDL_FreeAudioMem(device->convert.buf);
}
if (device->opened) {
current_audio.impl.CloseDevice(device);
device->opened = 0;
}
SDL_FreeAudioMem(device);
}
/*
* Sanity check desired AudioSpec for SDL_OpenAudio() in (orig).
* Fills in a sanitized copy in (prepared).
* Returns non-zero if okay, zero on fatal parameters in (orig).
*/
static int
747
prepare_audiospec(const SDL_AudioSpec * orig, SDL_AudioSpec * prepared)
748
{
749
SDL_memcpy(prepared, orig, sizeof(SDL_AudioSpec));
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if (orig->callback == NULL) {
SDL_SetError("SDL_OpenAudio() passed a NULL callback");
return 0;
}
if (orig->freq == 0) {
const char *env = SDL_getenv("SDL_AUDIO_FREQUENCY");
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759
if ((!env) || ((prepared->freq = SDL_atoi(env)) == 0)) {
prepared->freq = 22050; /* a reasonable default */
760
761
}
}
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764
765
if (orig->format == 0) {
const char *env = SDL_getenv("SDL_AUDIO_FORMAT");
if ((!env) || ((prepared->format = SDL_ParseAudioFormat(env)) == 0)) {
766
prepared->format = AUDIO_S16; /* a reasonable default */
767
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769
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}
}
switch (orig->channels) {
771
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case 0:{
const char *env = SDL_getenv("SDL_AUDIO_CHANNELS");
773
if ((!env) || ((prepared->channels = (Uint8) SDL_atoi(env)) == 0)) {
774
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776
prepared->channels = 2; /* a reasonable default */
}
break;
777
}
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case 1: /* Mono */
case 2: /* Stereo */
case 4: /* surround */
case 6: /* surround with center and lfe */
break;
default:
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785
SDL_SetError("Unsupported number of audio channels.");
return 0;
786
}
787
788
789
if (orig->samples == 0) {
const char *env = SDL_getenv("SDL_AUDIO_SAMPLES");
790
if ((!env) || ((prepared->samples = (Uint16) SDL_atoi(env)) == 0)) {
791
792
793
794
795
796
797
798
/* Pick a default of ~46 ms at desired frequency */
/* !!! FIXME: remove this when the non-Po2 resampling is in. */
const int samples = (prepared->freq / 1000) * 46;
int power2 = 1;
while (power2 < samples) {
power2 *= 2;
}
prepared->samples = power2;
799
800
}
}
801
802
803
804
805
806
807
808
809
810
/* Calculate the silence and size of the audio specification */
SDL_CalculateAudioSpec(prepared);
return 1;
}
static SDL_AudioDeviceID
open_audio_device(const char *devname, int iscapture,
811
812
const SDL_AudioSpec * desired, SDL_AudioSpec * obtained,
int allowed_changes, int min_id)
813
814
{
SDL_AudioDeviceID id = 0;
815
SDL_AudioSpec _obtained;
816
SDL_AudioDevice *device;
817
SDL_bool build_cvt;
818
819
820
821
822
int i = 0;
if (!SDL_WasInit(SDL_INIT_AUDIO)) {
SDL_SetError("Audio subsystem is not initialized");
return 0;
823
}
824
825
826
827
if ((iscapture) && (!current_audio.impl.HasCaptureSupport)) {
SDL_SetError("No capture support");
return 0;
828
}
829
830
831
832
833
if (!obtained) {
obtained = &_obtained;
}
if (!prepare_audiospec(desired, obtained)) {
834
835
return 0;
}
836
837
838
839
840
/* If app doesn't care about a specific device, let the user override. */
if (devname == NULL) {
devname = SDL_getenv("SDL_AUDIO_DEVICE_NAME");
}
841
842
843
844
845
846
847
848
849
850
/*
* Catch device names at the high level for the simple case...
* This lets us have a basic "device enumeration" for systems that
* don't have multiple devices, but makes sure the device name is
* always NULL when it hits the low level.
*
* Also make sure that the simple case prevents multiple simultaneous
* opens of the default system device.
*/
851
852
853
854
855
856
857
if ((iscapture) && (current_audio.impl.OnlyHasDefaultInputDevice)) {
if ((devname) && (SDL_strcmp(devname, DEFAULT_INPUT_DEVNAME) != 0)) {
SDL_SetError("No such device");
return 0;
}
devname = NULL;
858
859
860
861
862
863
864
for (i = 0; i < SDL_arraysize(open_devices); i++) {
if ((open_devices[i]) && (open_devices[i]->iscapture)) {
SDL_SetError("Audio device already open");
return 0;
}
}
865
866
}
867
868
869
870
871
872
if ((!iscapture) && (current_audio.impl.OnlyHasDefaultOutputDevice)) {
if ((devname) && (SDL_strcmp(devname, DEFAULT_OUTPUT_DEVNAME) != 0)) {
SDL_SetError("No such device");
return 0;
}
devname = NULL;
873
874
875
876
877
878
879
880
for (i = 0; i < SDL_arraysize(open_devices); i++) {
if ((open_devices[i]) && (!open_devices[i]->iscapture)) {
SDL_SetError("Audio device already open");
return 0;
}
}
}
881
882
device = (SDL_AudioDevice *) SDL_AllocAudioMem(sizeof(SDL_AudioDevice));
883
884
885
if (device == NULL) {
SDL_OutOfMemory();
return 0;
886
}
887
SDL_memset(device, '\0', sizeof(SDL_AudioDevice));
888
device->spec = *obtained;
889
890
891
device->enabled = 1;
device->paused = 1;
device->iscapture = iscapture;
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
/* Create a semaphore for locking the sound buffers */
if (!current_audio.impl.SkipMixerLock) {
device->mixer_lock = SDL_CreateMutex();
if (device->mixer_lock == NULL) {
close_audio_device(device);
SDL_SetError("Couldn't create mixer lock");
return 0;
}
}
if (!current_audio.impl.OpenDevice(device, devname, iscapture)) {
close_audio_device(device);
return 0;
}
device->opened = 1;
908
909
/* Allocate a fake audio memory buffer */
910
911
912
device->fake_stream = SDL_AllocAudioMem(device->spec.size);
if (device->fake_stream == NULL) {
close_audio_device(device);
913
SDL_OutOfMemory();
914
return 0;
915
916
}
917
918
919
920
921
922
/* If the audio driver changes the buffer size, accept it */
if (device->spec.samples != obtained->samples) {
obtained->samples = device->spec.samples;
SDL_CalculateAudioSpec(obtained);
}
923
/* See if we need to do any conversion */
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
build_cvt = SDL_FALSE;
if (obtained->freq != device->spec.freq) {
if (allowed_changes & SDL_AUDIO_ALLOW_FREQUENCY_CHANGE) {
obtained->freq = device->spec.freq;
} else {
build_cvt = SDL_TRUE;
}
}
if (obtained->format != device->spec.format) {
if (allowed_changes & SDL_AUDIO_ALLOW_FORMAT_CHANGE) {
obtained->format = device->spec.format;
} else {
build_cvt = SDL_TRUE;
}
}
if (obtained->channels != device->spec.channels) {
if (allowed_changes & SDL_AUDIO_ALLOW_CHANNELS_CHANGE) {
obtained->channels = device->spec.channels;
} else {
build_cvt = SDL_TRUE;
}
}
if (build_cvt) {
947
/* Build an audio conversion block */
948
if (SDL_BuildAudioCVT(&device->convert,
949
950
obtained->format, obtained->channels,
obtained->freq,
951
952
953
954
device->spec.format, device->spec.channels,
device->spec.freq) < 0) {
close_audio_device(device);
return 0;
955
}
956
if (device->convert.needed) {
957
device->convert.len = (int) (((double) obtained->size) /
958
device->convert.len_ratio);
959
960
961
962
963
964
device->convert.buf =
(Uint8 *) SDL_AllocAudioMem(device->convert.len *
device->convert.len_mult);
if (device->convert.buf == NULL) {
close_audio_device(device);
965
SDL_OutOfMemory();
966
return 0;
967
968
969
}
}
}
970
971
/* Find an available device ID and store the structure... */
972
for (id = min_id - 1; id < SDL_arraysize(open_devices); id++) {
973
974
975
976
977
978
979
980
981
982
983
984
if (open_devices[id] == NULL) {
open_devices[id] = device;
break;
}
}
if (id == SDL_arraysize(open_devices)) {
SDL_SetError("Too many open audio devices");
close_audio_device(device);
return 0;
}
985
/* Start the audio thread if necessary */
986
if (!current_audio.impl.ProvidesOwnCallbackThread) {
987
/* Start the audio thread */
988
/* !!! FIXME: this is nasty. */
989
#if (defined(__WIN32__) && !defined(_WIN32_WCE)) && !defined(HAVE_LIBC)
990
#undef SDL_CreateThread
991
device->thread = SDL_CreateThread(SDL_RunAudio, device, NULL, NULL);
992
#else
993
device->thread = SDL_CreateThread(SDL_RunAudio, device);
994
#endif
995
if (device->thread == NULL) {
996
SDL_CloseAudioDevice(id + 1);
997
SDL_SetError("Couldn't create audio thread");
998
999
1000
return 0;
}
}