load.c
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/*====================================================================
* load.c
*
* Copyright 1993, Silicon Graphics, Inc.
* All Rights Reserved.
*
* This is UNPUBLISHED PROPRIETARY SOURCE CODE of Silicon Graphics,
* Inc.; the contents of this file may not be disclosed to third
* parties, copied or duplicated in any form, in whole or in part,
* without the prior written permission of Silicon Graphics, Inc.
*
* RESTRICTED RIGHTS LEGEND:
* Use, duplication or disclosure by the Government is subject to
* restrictions as set forth in subdivision (c)(1)(ii) of the Rights
* in Technical Data and Computer Software clause at DFARS
* 252.227-7013, and/or in similar or successor clauses in the FAR,
* DOD or NASA FAR Supplement. Unpublished - rights reserved under the
* Copyright Laws of the United States.
*====================================================================*/
#include <libaudio.h>
#include "synthInternals.h"
#include <os.h>
#include <R4300.h>
#ifndef MIN
# define MIN(a,b) (((a)<(b))?(a):(b))
#endif
#ifdef AUD_PROFILE
extern u32 cnt_index, adpcm_num, adpcm_cnt, adpcm_max, adpcm_min, lastCnt[];
#endif
#define ADPCMFBYTES 9
#define LFSAMPLES 4
static
Acmd *_decodeChunk(Acmd *ptr, ALLoadFilter *f, s32 tsam, s32 nbytes, s16 outp, s16 inp, u32 flags);
Acmd *alAdpcmPull(void *filter, s16 *outp, s32 outCount, s32 sampleOffset, Acmd *p)
{
Acmd *ptr = p;
s16 inp;
s32 tsam;
s32 nframes;
s32 nbytes;
s32 overFlow;
s32 startZero;
s32 nOver;
s32 nSam;
s32 op;
s32 nLeft;
s32 bEnd;
s32 decoded = 0;
s32 looped = 0;
ALLoadFilter *f = (ALLoadFilter *)filter;
#ifdef AUD_PROFILE
lastCnt[++cnt_index] = osGetCount();
#endif
if (outCount == 0)
return ptr;
inp = AL_DECODER_IN;
aLoadADPCM(ptr++, f->bookSize,
K0_TO_PHYS(f->table->waveInfo.adpcmWave.book->book));
looped = (outCount + f->sample > f->loop.end) && (f->loop.count != 0);
if (looped)
nSam = f->loop.end - f->sample;
else
nSam = outCount;
if (f->lastsam)
nLeft = ADPCMFSIZE - f->lastsam;
else
nLeft = 0;
tsam = nSam - nLeft;
if (tsam<0) tsam = 0;
nframes = (tsam+ADPCMFSIZE-1)>>LFSAMPLES;
nbytes = nframes*ADPCMFBYTES;
if (looped){
ptr = _decodeChunk(ptr, f, tsam, nbytes, *outp, inp, f->first);
/*
* Fix up output pointer, which will be used as the input pointer
* by the following module.
*/
if (f->lastsam)
*outp += (f->lastsam<<1);
else
*outp += (ADPCMFSIZE<<1);
/*
* Now fix up state info to reflect the loop start point
*/
f->lastsam = f->loop.start &0xf;
f->memin = (s32) f->table->base + ADPCMFBYTES *
((s32) (f->loop.start>>LFSAMPLES) + 1);
f->sample = f->loop.start;
bEnd = *outp;
while (outCount > nSam){
outCount -= nSam;
/*
* Put next one after the end of the last lot - on the
* frame boundary (32 byte) after the end.
*/
op = (bEnd + ((nframes+1)<<(LFSAMPLES+1))) & ~0x1f;
/*
* The actual end of data
*/
bEnd += (nSam<<1);
/*
* -1 is loop forever - the loop count is not exact now
* for small loops!
*/
if ((f->loop.count != -1) && (f->loop.count != 0))
f->loop.count--;
/*
* What's left to compute.
*/
nSam = MIN(outCount, f->loop.end - f->loop.start);
tsam = nSam - ADPCMFSIZE + f->lastsam;
if (tsam<0) tsam = 0;
nframes = (tsam+ADPCMFSIZE-1)>>LFSAMPLES;
nbytes = nframes*ADPCMFBYTES;
ptr = _decodeChunk(ptr, f, tsam, nbytes, op, inp, f->first | A_LOOP);
/*
* Merge the two sections in DMEM.
*/
aDMEMMove(ptr++, op+(f->lastsam<<1), bEnd, nSam<<1);
}
f->lastsam = (outCount + f->lastsam) & 0xf;
f->sample += outCount;
f->memin += ADPCMFBYTES*nframes;
#ifdef AUD_PROFILE
PROFILE_AUD(adpcm_num, adpcm_cnt, adpcm_max, adpcm_min);
#endif
return ptr;
}
/*
* The unlooped case, which is executed most of the time
*/
nSam = nframes<<LFSAMPLES;
/*
* overFlow is the number of bytes past the end
* of the bitstream I try to generate
*/
overFlow = f->memin + nbytes - ((s32) f->table->base + f->table->len);
if (overFlow < 0)
overFlow = 0;
nOver = (overFlow/ADPCMFBYTES)<<LFSAMPLES;
if (nOver > nSam + nLeft)
nOver = nSam + nLeft;
nbytes -= overFlow;
if ((nOver - (nOver & 0xf))< outCount){
decoded = 1;
ptr = _decodeChunk(ptr, f, nSam - nOver, nbytes, *outp, inp, f->first);
if (f->lastsam)
*outp += (f->lastsam<<1);
else
*outp += (ADPCMFSIZE<<1);
f->lastsam = (outCount + f->lastsam) & 0xf;
f->sample += outCount;
f->memin += ADPCMFBYTES*nframes;
} else {
f->lastsam = 0;
f->memin += ADPCMFBYTES*nframes;
}
/*
* Put zeros in if necessary
*/
if (nOver){
f->lastsam = 0;
if (decoded)
startZero = (nLeft + nSam - nOver)<<1;
else
startZero = 0;
aClearBuffer(ptr++, startZero + *outp, nOver<<1);
}
#ifdef AUD_PROFILE
PROFILE_AUD(adpcm_num, adpcm_cnt, adpcm_max, adpcm_min);
#endif
return ptr;
}
Acmd *alRaw16Pull(void *filter, s16 *outp, s32 outCount, s32 sampleOffset, Acmd *p)
{
Acmd *ptr = p;
s32 nbytes;
s32 dramLoc;
s32 dramAlign;
s32 dmemAlign;
s32 overFlow;
s32 startZero;
s32 nSam;
s32 op;
ALLoadFilter *f = (ALLoadFilter *)filter;
ALFilter *a = (ALFilter *) filter;
if (outCount == 0)
return ptr;
if ((outCount + f->sample > f->loop.end) && (f->loop.count != 0)){
nSam = f->loop.end - f->sample;
nbytes = nSam<<1;
if (nSam > 0){
dramLoc = (f->dma)(f->memin, nbytes, f->dmaState);
/*
* Make sure enough is loaded into DMEM to take care
* of 8 byte alignment
*/
dramAlign = dramLoc & 0x7;
nbytes += dramAlign;
aSetBuffer(ptr++, 0, *outp, 0, nbytes + 8 - (nbytes & 0x7));
aLoadBuffer(ptr++, dramLoc - dramAlign);
} else
dramAlign = 0;
/*
* Fix up output pointer to allow for dram alignment
*/
*outp += dramAlign;
f->memin = (s32) f->table->base + (f->loop.start<<1);
f->sample = f->loop.start;
op = *outp;
while (outCount > nSam){
op += (nSam<<1);
outCount -= nSam;
/*
* -1 is loop forever
*/
if ((f->loop.count != -1) && (f->loop.count != 0))
f->loop.count--;
/*
* What to compute.
*/
nSam = MIN(outCount, f->loop.end - f->loop.start);
nbytes = nSam<<1;
/*
* Do the next section, same as last.
*/
dramLoc = (f->dma)(f->memin, nbytes, f->dmaState);
/*
* Make sure enough is loaded into DMEM to take care
* of 8 byte alignment
*/
dramAlign = dramLoc & 0x7;
nbytes += dramAlign;
if (op & 0x7)
dmemAlign = 8 - (op & 0x7);
else
dmemAlign = 0;
aSetBuffer(ptr++, 0, op + dmemAlign, 0, nbytes + 8 - (nbytes & 0x7));
aLoadBuffer(ptr++, dramLoc - dramAlign);
/*
* Merge the two sections in DMEM.
*/
if (dramAlign || dmemAlign)
aDMEMMove(ptr++, op+dramAlign+dmemAlign, op, nSam<<1);
}
f->sample += outCount;
f->memin += (outCount<<1);
return ptr;
}
/*
* The unlooped case, which is executed most of the time
*
* overFlow is the number of bytes past the end
* of the bitstream I try to generate
*/
nbytes = outCount<<1;
overFlow = f->memin + nbytes - ((s32) f->table->base + f->table->len);
if (overFlow < 0)
overFlow = 0;
if (overFlow > nbytes)
overFlow = nbytes;
if (overFlow < nbytes){
if (outCount > 0){
nbytes -= overFlow;
dramLoc = (f->dma)(f->memin, nbytes, f->dmaState);
/*
* Make sure enough is loaded into DMEM to take care
* of 8 byte alignment
*/
dramAlign = dramLoc & 0x7;
nbytes += dramAlign;
aSetBuffer(ptr++, 0, *outp, 0, nbytes + 8 - (nbytes & 0x7));
aLoadBuffer(ptr++, dramLoc - dramAlign);
} else
dramAlign = 0;
*outp += dramAlign;
f->sample += outCount;
f->memin += outCount<<1;
} else {
f->memin += outCount<<1;
}
/*
* Put zeros in if necessary
*/
if (overFlow){
startZero = (outCount<<1) - overFlow;
if (startZero < 0)
startZero = 0;
aClearBuffer(ptr++, startZero + *outp, overFlow);
}
return ptr;
}
s32
alLoadParam(void *filter, s32 paramID, void *param)
{
ALLoadFilter *a = (ALLoadFilter *) filter;
ALFilter *f = (ALFilter *) filter;
switch (paramID) {
case (AL_FILTER_SET_WAVETABLE):
a->table = (ALWaveTable *) param;
a->memin = (s32) a->table->base;
a->sample = 0;
switch (a->table->type){
case (AL_ADPCM_WAVE):
/*
* Set up the correct handler
*/
f->handler = alAdpcmPull;
/*
* Make sure the table length is an integer number of
* frames
*/
a->table->len = ADPCMFBYTES *
((s32) (a->table->len/ADPCMFBYTES));
a->bookSize = 2*a->table->waveInfo.adpcmWave.book->order*
a->table->waveInfo.adpcmWave.book->npredictors*ADPCMVSIZE;
if (a->table->waveInfo.adpcmWave.loop) {
a->loop.start = a->table->waveInfo.adpcmWave.loop->start;
a->loop.end = a->table->waveInfo.adpcmWave.loop->end;
a->loop.count = a->table->waveInfo.adpcmWave.loop->count;
alCopy(a->table->waveInfo.adpcmWave.loop->state,
a->lstate, sizeof(ADPCM_STATE));
} else {
a->loop.start = a->loop.end = a->loop.count = 0;
}
break;
case (AL_RAW16_WAVE):
f->handler = alRaw16Pull;
if (a->table->waveInfo.rawWave.loop) {
a->loop.start = a->table->waveInfo.rawWave.loop->start;
a->loop.end = a->table->waveInfo.rawWave.loop->end;
a->loop.count = a->table->waveInfo.rawWave.loop->count;
} else {
a->loop.start = a->loop.end = a->loop.count = 0;
}
break;
default:
break;
}
break;
case (AL_FILTER_RESET):
a->lastsam = 0;
a->first = 1;
a->sample = 0;
/* sct 2/14/96 - Check table since it is initialized to null and */
/* Get loop info according to table type. */
if (a->table)
{
a->memin = (s32) a->table->base;
if (a->table->type == AL_ADPCM_WAVE)
{
if (a->table->waveInfo.adpcmWave.loop)
a->loop.count = a->table->waveInfo.adpcmWave.loop->count;
}
else if (a->table->type == AL_RAW16_WAVE)
{
if (a->table->waveInfo.rawWave.loop)
a->loop.count = a->table->waveInfo.rawWave.loop->count;
}
}
break;
default:
break;
}
}
Acmd *_decodeChunk(Acmd *ptr, ALLoadFilter *f, s32 tsam, s32 nbytes, s16 outp, s16 inp, u32 flags)
{
s32
dramAlign,
dramLoc;
if (nbytes > 0){
dramLoc = (f->dma)(f->memin, nbytes, f->dmaState);
/*
* Make sure enough is loaded into DMEM to take care
* of 8 byte alignment
*/
dramAlign = dramLoc & 0x7;
nbytes += dramAlign;
aSetBuffer(ptr++, 0, inp, 0, nbytes + 8 - (nbytes & 0x7));
aLoadBuffer(ptr++, dramLoc - dramAlign);
} else
dramAlign = 0;
if (flags & A_LOOP){
aSetLoop(ptr++, K0_TO_PHYS(f->lstate));
}
aSetBuffer(ptr++, 0, inp + dramAlign, outp, tsam<<1);
aADPCMdec(ptr++, flags, K0_TO_PHYS(f->state));
f->first = 0;
return ptr;
}