ioq3quest/code/client/snd_mem.c

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/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
This file is part of Quake III Arena source code.
Quake III Arena source code is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.
Quake III Arena source code 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with Quake III Arena source code; if not, write to the Free Software
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Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
===========================================================================
*/
/*****************************************************************************
* name: snd_mem.c
*
* desc: sound caching
*
* $Archive: /MissionPack/code/client/snd_mem.c $
*
*****************************************************************************/
#include "snd_local.h"
#include "snd_codec.h"
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#define DEF_COMSOUNDMEGS "8"
/*
===============================================================================
memory management
===============================================================================
*/
static sndBuffer *buffer = NULL;
static sndBuffer *freelist = NULL;
static int inUse = 0;
static int totalInUse = 0;
short *sfxScratchBuffer = NULL;
sfx_t *sfxScratchPointer = NULL;
int sfxScratchIndex = 0;
void SND_free(sndBuffer *v) {
*(sndBuffer **)v = freelist;
freelist = (sndBuffer*)v;
inUse += sizeof(sndBuffer);
}
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sndBuffer* SND_malloc(void) {
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sndBuffer *v;
redo:
if (freelist == NULL) {
S_FreeOldestSound();
goto redo;
}
inUse -= sizeof(sndBuffer);
totalInUse += sizeof(sndBuffer);
v = freelist;
freelist = *(sndBuffer **)freelist;
v->next = NULL;
return v;
}
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void SND_setup(void) {
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sndBuffer *p, *q;
cvar_t *cv;
int scs;
cv = Cvar_Get( "com_soundMegs", DEF_COMSOUNDMEGS, CVAR_LATCH | CVAR_ARCHIVE );
scs = (cv->integer*1536);
buffer = malloc(scs*sizeof(sndBuffer) );
// allocate the stack based hunk allocator
sfxScratchBuffer = malloc(SND_CHUNK_SIZE * sizeof(short) * 4); //Hunk_Alloc(SND_CHUNK_SIZE * sizeof(short) * 4);
sfxScratchPointer = NULL;
inUse = scs*sizeof(sndBuffer);
p = buffer;;
q = p + scs;
while (--q > p)
*(sndBuffer **)q = q-1;
*(sndBuffer **)q = NULL;
freelist = p + scs - 1;
Com_Printf("Sound memory manager started\n");
}
void SND_shutdown(void)
{
free(sfxScratchBuffer);
free(buffer);
}
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/*
================
ResampleSfx
resample / decimate to the current source rate
================
*/
static int ResampleSfx( sfx_t *sfx, int channels, int inrate, int inwidth, int samples, byte *data, qboolean compressed ) {
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int outcount;
int srcsample;
float stepscale;
int i, j;
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int sample, samplefrac, fracstep;
int part;
sndBuffer *chunk;
stepscale = (float)inrate / dma.speed; // this is usually 0.5, 1, or 2
outcount = samples / stepscale;
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srcsample = 0;
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samplefrac = 0;
fracstep = stepscale * 256 * channels;
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chunk = sfx->soundData;
for (i=0 ; i<outcount ; i++)
{
srcsample += samplefrac >> 8;
samplefrac &= 255;
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samplefrac += fracstep;
for (j=0 ; j<channels ; j++)
{
if( inwidth == 2 ) {
sample = ( ((short *)data)[srcsample+j] );
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} else {
sample = (unsigned int)( (unsigned char)(data[srcsample+j]) - 128) << 8;
}
part = (i*channels+j)&(SND_CHUNK_SIZE-1);
if (part == 0) {
sndBuffer *newchunk;
newchunk = SND_malloc();
if (chunk == NULL) {
sfx->soundData = newchunk;
} else {
chunk->next = newchunk;
}
chunk = newchunk;
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}
chunk->sndChunk[part] = sample;
}
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}
return outcount;
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}
/*
================
ResampleSfx
resample / decimate to the current source rate
================
*/
static int ResampleSfxRaw( short *sfx, int channels, int inrate, int inwidth, int samples, byte *data ) {
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int outcount;
int srcsample;
float stepscale;
int i, j;
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int sample, samplefrac, fracstep;
stepscale = (float)inrate / dma.speed; // this is usually 0.5, 1, or 2
outcount = samples / stepscale;
srcsample = 0;
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samplefrac = 0;
fracstep = stepscale * 256 * channels;
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for (i=0 ; i<outcount ; i++)
{
srcsample += samplefrac >> 8;
samplefrac &= 255;
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samplefrac += fracstep;
for (j=0 ; j<channels ; j++)
{
if( inwidth == 2 ) {
sample = LittleShort ( ((short *)data)[srcsample+j] );
} else {
sample = (int)( (unsigned char)(data[srcsample+j]) - 128) << 8;
}
sfx[i*channels+j] = sample;
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}
}
return outcount;
}
//=============================================================================
/*
==============
S_LoadSound
The filename may be different than sfx->name in the case
of a forced fallback of a player specific sound
==============
*/
qboolean S_LoadSound( sfx_t *sfx )
{
byte *data;
short *samples;
snd_info_t info;
// int size;
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// load it in
data = S_CodecLoad(sfx->soundName, &info);
if(!data)
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return qfalse;
if ( info.width == 1 ) {
Com_DPrintf(S_COLOR_YELLOW "WARNING: %s is a 8 bit audio file\n", sfx->soundName);
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}
if ( info.rate != 22050 ) {
Com_DPrintf(S_COLOR_YELLOW "WARNING: %s is not a 22kHz audio file\n", sfx->soundName);
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}
samples = Hunk_AllocateTempMemory(info.channels * info.samples * sizeof(short) * 2);
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sfx->lastTimeUsed = Com_Milliseconds()+1;
// each of these compression schemes works just fine
// but the 16bit quality is much nicer and with a local
// install assured we can rely upon the sound memory
// manager to do the right thing for us and page
// sound in as needed
if( info.channels == 1 && sfx->soundCompressed == qtrue) {
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sfx->soundCompressionMethod = 1;
sfx->soundData = NULL;
sfx->soundLength = ResampleSfxRaw( samples, info.channels, info.rate, info.width, info.samples, data + info.dataofs );
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S_AdpcmEncodeSound(sfx, samples);
#if 0
} else if (info.channels == 1 && info.samples>(SND_CHUNK_SIZE*16) && info.width >1) {
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sfx->soundCompressionMethod = 3;
sfx->soundData = NULL;
sfx->soundLength = ResampleSfxRaw( samples, info.channels, info.rate, info.width, info.samples, (data + info.dataofs) );
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encodeMuLaw( sfx, samples);
} else if (info.channels == 1 && info.samples>(SND_CHUNK_SIZE*6400) && info.width >1) {
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sfx->soundCompressionMethod = 2;
sfx->soundData = NULL;
sfx->soundLength = ResampleSfxRaw( samples, info.channels, info.rate, info.width, info.samples, (data + info.dataofs) );
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encodeWavelet( sfx, samples);
#endif
} else {
sfx->soundCompressionMethod = 0;
sfx->soundData = NULL;
sfx->soundLength = ResampleSfx( sfx, info.channels, info.rate, info.width, info.samples, data + info.dataofs, qfalse );
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}
sfx->soundChannels = info.channels;
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Hunk_FreeTempMemory(samples);
Hunk_FreeTempMemory(data);
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return qtrue;
}
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void S_DisplayFreeMemory(void) {
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Com_Printf("%d bytes free sound buffer memory, %d total used\n", inUse, totalInUse);
}