- no early irqs, breaks games that setup irq on last block and then DMA
- don't cut last sample on bIRQReturn, fixes stereo under-decode
{s_chan[ch].spos=0x30000L;s_chan[ch].SB[28]=0;} // -> start with more decoding
else {s_chan[ch].spos=0x10000L;s_chan[ch].SB[31]=0;} // -> no/simple interpolation starts with one 44100 decoding
{s_chan[ch].spos=0x30000L;s_chan[ch].SB[28]=0;} // -> start with more decoding
else {s_chan[ch].spos=0x10000L;s_chan[ch].SB[31]=0;} // -> no/simple interpolation starts with one 44100 decoding
- check_irq(ch, s_chan[ch].pCurr); // just in case
-
dwNewChannel&=~(1<<ch); // clear new channel bit
}
dwNewChannel&=~(1<<ch); // clear new channel bit
}
start = s_chan[ch].pLoop;
}
start = s_chan[ch].pLoop;
}
+ else
+ ret = check_irq(ch, start); // hack, see check_irq below..
predict_nr=(int)start[0];
shift_factor=predict_nr&0xf;
predict_nr=(int)start[0];
shift_factor=predict_nr&0xf;
- if(flags&1) // 1: stop/loop
+ if(flags&1) { // 1: stop/loop
start = s_chan[ch].pLoop;
start = s_chan[ch].pLoop;
+ ret |= check_irq(ch, start); // hack.. :(
+ }
if (start - spuMemC >= 0x80000)
start = spuMemC;
if (start - spuMemC >= 0x80000)
start = spuMemC;
- ret = check_irq(ch, start);
-
s_chan[ch].pCurr = start; // store values for next cycle
s_chan[ch].prevflags = flags;
s_chan[ch].pCurr = start; // store values for next cycle
s_chan[ch].prevflags = flags;
{
unsigned char *start = s_chan[ch].pCurr;
int flags = start[1];
{
unsigned char *start = s_chan[ch].pCurr;
int flags = start[1];
+ int ret = check_irq(ch, start);
if(s_chan[ch].prevflags & 1)
start = s_chan[ch].pLoop;
if(s_chan[ch].prevflags & 1)
start = s_chan[ch].pLoop;
s_chan[ch].pCurr = start;
s_chan[ch].prevflags = flags;
s_chan[ch].pCurr = start;
s_chan[ch].prevflags = flags;
- return check_irq(ch, start);
}
#define make_do_samples(name, fmod_code, interp_start, interp1_code, interp2_code, interp_end) \
}
#define make_do_samples(name, fmod_code, interp_start, interp1_code, interp2_code, interp_end) \
sbpos = 0; \
d = decode_block(ch); \
if(d) \
sbpos = 0; \
d = decode_block(ch); \
if(d) \
- { \
- ret = ns; \
- goto out; \
- } \
+ ret = ns_to = ns + 1; \
} \
\
fa = SB[sbpos++]; \
} \
\
fa = SB[sbpos++]; \
s_chan[ch].sinc = sinc; \
s_chan[ch].spos = spos; \
s_chan[ch].iSBPos = sbpos; \
s_chan[ch].sinc = sinc; \
s_chan[ch].spos = spos; \
s_chan[ch].iSBPos = sbpos; \
static int do_samples_noise(int ch, int ns, int ns_to)
{
int level, shift, bit;
static int do_samples_noise(int ch, int ns, int ns_to)
{
int level, shift, bit;
s_chan[ch].spos += s_chan[ch].sinc * (ns_to - ns);
while (s_chan[ch].spos >= 28*0x10000)
{
s_chan[ch].spos += s_chan[ch].sinc * (ns_to - ns);
while (s_chan[ch].spos >= 28*0x10000)
{
+ d = skip_block(ch);
+ if (d)
+ ret = ns_to;
s_chan[ch].spos -= 28*0x10000;
}
s_chan[ch].spos -= 28*0x10000;
}
ChanBuf[ns] = (signed short)dwNoiseVal;
}
ChanBuf[ns] = (signed short)dwNoiseVal;
}
bIRQReturn=1;
lastch=ch;
lastns=ns_to=d;
bIRQReturn=1;
lastch=ch;
lastns=ns_to=d;
}
MixADSR(ch, ns_from, ns_to);
}
MixADSR(ch, ns_from, ns_to);