\r
#include "externals.h"\r
#include "registers.h"\r
-#include "regs.h"\r
-#include "reverb.h"\r
\r
-/*\r
-// adsr time values (in ms) by James Higgs ... see the end of\r
-// the adsr.c source for details\r
-\r
-#define ATTACK_MS 514L\r
-#define DECAYHALF_MS 292L\r
-#define DECAY_MS 584L\r
-#define SUSTAIN_MS 450L\r
-#define RELEASE_MS 446L\r
-*/\r
-\r
-// we have a timebase of 1.020408f ms, not 1 ms... so adjust adsr defines\r
-#define ATTACK_MS 494L\r
-#define DECAYHALF_MS 286L\r
-#define DECAY_MS 572L\r
-#define SUSTAIN_MS 441L\r
-#define RELEASE_MS 437L\r
+static void SoundOn(int start,int end,unsigned short val);\r
+static void SoundOff(int start,int end,unsigned short val);\r
+static void FModOn(int start,int end,unsigned short val);\r
+static void NoiseOn(int start,int end,unsigned short val);\r
+static void SetVolumeL(unsigned char ch,short vol);\r
+static void SetVolumeR(unsigned char ch,short vol);\r
+static void SetPitch(int ch,unsigned short val);\r
+static void ReverbOn(int start,int end,unsigned short val);\r
\r
////////////////////////////////////////////////////////////////////////\r
// WRITE REGISTERS: called by main emu\r
break;\r
//------------------------------------------------// start\r
case 6: \r
- // Brain Dead 13 - align to 16 boundary\r
- s_chan[ch].pStart= spuMemC+(unsigned long)((val<<3)&~0xf);\r
+ // taken from regArea later\r
break;\r
//------------------------------------------------// level with pre-calcs\r
case 8:\r
s_chan[ch].ADSRX.DecayRate=(lval>>4) & 0x000f;\r
s_chan[ch].ADSRX.SustainLevel=lval & 0x000f;\r
//---------------------------------------------//\r
-#if 0\r
- if(!iDebugMode) break;\r
- //---------------------------------------------// stuff below is only for debug mode\r
-\r
- s_chan[ch].ADSR.AttackModeExp=(lval&0x8000)?1:0; //0x007f\r
-\r
- lx=(((lval>>8) & 0x007f)>>2); // attack time to run from 0 to 100% volume\r
- lx=min(31,lx); // no overflow on shift!\r
- if(lx) \r
- { \r
- lx = (1<<lx);\r
- if(lx<2147483) lx=(lx*ATTACK_MS)/10000L; // another overflow check\r
- else lx=(lx/10000L)*ATTACK_MS;\r
- if(!lx) lx=1;\r
- }\r
- s_chan[ch].ADSR.AttackTime=lx; \r
-\r
- s_chan[ch].ADSR.SustainLevel= // our adsr vol runs from 0 to 1024, so scale the sustain level\r
- (1024*((lval) & 0x000f))/15;\r
-\r
- lx=(lval>>4) & 0x000f; // decay:\r
- if(lx) // our const decay value is time it takes from 100% to 0% of volume\r
- {\r
- lx = ((1<<(lx))*DECAY_MS)/10000L;\r
- if(!lx) lx=1;\r
- }\r
- s_chan[ch].ADSR.DecayTime = // so calc how long does it take to run from 100% to the wanted sus level\r
- (lx*(1024-s_chan[ch].ADSR.SustainLevel))/1024;\r
-#endif\r
}\r
break;\r
//------------------------------------------------// adsr times with pre-calcs\r
s_chan[ch].ADSRX.ReleaseModeExp = (lval&0x0020)?1:0;\r
s_chan[ch].ADSRX.ReleaseRate = lval & 0x001f;\r
//----------------------------------------------//\r
-#if 0\r
- if(!iDebugMode) break;\r
- //----------------------------------------------// stuff below is only for debug mode\r
-\r
- s_chan[ch].ADSR.SustainModeExp = (lval&0x8000)?1:0;\r
- s_chan[ch].ADSR.ReleaseModeExp = (lval&0x0020)?1:0;\r
- \r
- lx=((((lval>>6) & 0x007f)>>2)); // sustain time... often very high\r
- lx=min(31,lx); // values are used to hold the volume\r
- if(lx) // until a sound stop occurs\r
- { // the highest value we reach (due to \r
- lx = (1<<lx); // overflow checking) is: \r
- if(lx<2147483) lx=(lx*SUSTAIN_MS)/10000L; // 94704 seconds = 1578 minutes = 26 hours... \r
- else lx=(lx/10000L)*SUSTAIN_MS; // should be enuff... if the stop doesn't \r
- if(!lx) lx=1; // come in this time span, I don't care :)\r
- }\r
- s_chan[ch].ADSR.SustainTime = lx;\r
-\r
- lx=(lval & 0x001f);\r
- s_chan[ch].ADSR.ReleaseVal =lx;\r
- if(lx) // release time from 100% to 0%\r
- { // note: the release time will be\r
- lx = (1<<lx); // adjusted when a stop is coming,\r
- if(lx<2147483) lx=(lx*RELEASE_MS)/10000L; // so at this time the adsr vol will \r
- else lx=(lx/10000L)*RELEASE_MS; // run from (current volume) to 0%\r
- if(!lx) lx=1;\r
- }\r
- s_chan[ch].ADSR.ReleaseTime=lx;\r
-\r
- if(lval & 0x4000) // add/dec flag\r
- s_chan[ch].ADSR.SustainModeDec=-1;\r
- else s_chan[ch].ADSR.SustainModeDec=1;\r
-#endif\r
}\r
break;\r
//------------------------------------------------// adsr volume... mmm have to investigate this\r
break;\r
//------------------------------------------------//\r
case 14: // loop?\r
- //WaitForSingleObject(s_chan[ch].hMutex,2000); // -> no multithread fuckups\r
- s_chan[ch].pLoop=spuMemC+((unsigned long)((val<<3)&~0xf));\r
- s_chan[ch].bIgnoreLoop=1;\r
- //ReleaseMutex(s_chan[ch].hMutex); // -> oki, on with the thread\r
+ s_chan[ch].pLoop=spuMemC+((val&~1)<<3);\r
break;\r
//------------------------------------------------//\r
}\r
- iSpuAsyncWait=0;\r
return;\r
}\r
\r
break;\r
//-------------------------------------------------//\r
case H_SPUctrl:\r
+ if(!(spuCtrl & CTRL_IRQ))\r
+ spuStat&=~STAT_IRQ;\r
spuCtrl=val;\r
break;\r
//-------------------------------------------------//\r
{\r
rvb.StartAddr=(unsigned long)val<<2;\r
rvb.CurrAddr=rvb.StartAddr;\r
+ // sync-with-decode-buffers hack..\r
+ if(rvb.StartAddr==0x3ff00)\r
+ rvb.CurrAddr+=decode_pos/2;\r
}\r
}\r
+ rvb.dirty = 1;\r
break;\r
//-------------------------------------------------//\r
case H_SPUirqAddr:\r
spuIrq = val;\r
- pSpuIrq=spuMemC+((unsigned long) val<<3);\r
+ pSpuIrq=spuMemC+(((unsigned long) val<<3)&~0xf);\r
break;\r
//-------------------------------------------------//\r
case H_SPUrvolL:\r
ReverbOn(16,24,val);\r
break;\r
//-------------------------------------------------//\r
- case H_Reverb+0:\r
-\r
- rvb.FB_SRC_A=val;\r
-\r
- // OK, here's the fake REVERB stuff...\r
- // depending on effect we do more or less delay and repeats... bah\r
- // still... better than nothing :)\r
-\r
- SetREVERB(val);\r
- break;\r
-\r
-\r
- case H_Reverb+2 : rvb.FB_SRC_B=(short)val; break;\r
+ case H_Reverb+0 : rvb.FB_SRC_A=val*4; break;\r
+ case H_Reverb+2 : rvb.FB_SRC_B=val*4; break;\r
case H_Reverb+4 : rvb.IIR_ALPHA=(short)val; break;\r
case H_Reverb+6 : rvb.ACC_COEF_A=(short)val; break;\r
case H_Reverb+8 : rvb.ACC_COEF_B=(short)val; break;\r
case H_Reverb+14 : rvb.IIR_COEF=(short)val; break;\r
case H_Reverb+16 : rvb.FB_ALPHA=(short)val; break;\r
case H_Reverb+18 : rvb.FB_X=(short)val; break;\r
- case H_Reverb+20 : rvb.IIR_DEST_A0=(short)val; break;\r
- case H_Reverb+22 : rvb.IIR_DEST_A1=(short)val; break;\r
- case H_Reverb+24 : rvb.ACC_SRC_A0=(short)val; break;\r
- case H_Reverb+26 : rvb.ACC_SRC_A1=(short)val; break;\r
- case H_Reverb+28 : rvb.ACC_SRC_B0=(short)val; break;\r
- case H_Reverb+30 : rvb.ACC_SRC_B1=(short)val; break;\r
- case H_Reverb+32 : rvb.IIR_SRC_A0=(short)val; break;\r
- case H_Reverb+34 : rvb.IIR_SRC_A1=(short)val; break;\r
- case H_Reverb+36 : rvb.IIR_DEST_B0=(short)val; break;\r
- case H_Reverb+38 : rvb.IIR_DEST_B1=(short)val; break;\r
- case H_Reverb+40 : rvb.ACC_SRC_C0=(short)val; break;\r
- case H_Reverb+42 : rvb.ACC_SRC_C1=(short)val; break;\r
- case H_Reverb+44 : rvb.ACC_SRC_D0=(short)val; break;\r
- case H_Reverb+46 : rvb.ACC_SRC_D1=(short)val; break;\r
- case H_Reverb+48 : rvb.IIR_SRC_B1=(short)val; break;\r
- case H_Reverb+50 : rvb.IIR_SRC_B0=(short)val; break;\r
- case H_Reverb+52 : rvb.MIX_DEST_A0=(short)val; break;\r
- case H_Reverb+54 : rvb.MIX_DEST_A1=(short)val; break;\r
- case H_Reverb+56 : rvb.MIX_DEST_B0=(short)val; break;\r
- case H_Reverb+58 : rvb.MIX_DEST_B1=(short)val; break;\r
+ case H_Reverb+20 : rvb.IIR_DEST_A0=val*4; break;\r
+ case H_Reverb+22 : rvb.IIR_DEST_A1=val*4; break;\r
+ case H_Reverb+24 : rvb.ACC_SRC_A0=val*4; break;\r
+ case H_Reverb+26 : rvb.ACC_SRC_A1=val*4; break;\r
+ case H_Reverb+28 : rvb.ACC_SRC_B0=val*4; break;\r
+ case H_Reverb+30 : rvb.ACC_SRC_B1=val*4; break;\r
+ case H_Reverb+32 : rvb.IIR_SRC_A0=val*4; break;\r
+ case H_Reverb+34 : rvb.IIR_SRC_A1=val*4; break;\r
+ case H_Reverb+36 : rvb.IIR_DEST_B0=val*4; break;\r
+ case H_Reverb+38 : rvb.IIR_DEST_B1=val*4; break;\r
+ case H_Reverb+40 : rvb.ACC_SRC_C0=val*4; break;\r
+ case H_Reverb+42 : rvb.ACC_SRC_C1=val*4; break;\r
+ case H_Reverb+44 : rvb.ACC_SRC_D0=val*4; break;\r
+ case H_Reverb+46 : rvb.ACC_SRC_D1=val*4; break;\r
+ case H_Reverb+48 : rvb.IIR_SRC_B1=val*4; break;\r
+ case H_Reverb+50 : rvb.IIR_SRC_B0=val*4; break;\r
+ case H_Reverb+52 : rvb.MIX_DEST_A0=val*4; break;\r
+ case H_Reverb+54 : rvb.MIX_DEST_A1=val*4; break;\r
+ case H_Reverb+56 : rvb.MIX_DEST_B0=val*4; break;\r
+ case H_Reverb+58 : rvb.MIX_DEST_B1=val*4; break;\r
case H_Reverb+60 : rvb.IN_COEF_L=(short)val; break;\r
case H_Reverb+62 : rvb.IN_COEF_R=(short)val; break;\r
}\r
\r
- iSpuAsyncWait=0;\r
+ if ((r & ~0x3f) == H_Reverb)\r
+ rvb.dirty = 1; // recalculate on next update\r
}\r
\r
////////////////////////////////////////////////////////////////////////\r
{\r
const unsigned long r=reg&0xfff;\r
\r
- iSpuAsyncWait=0;\r
-\r
if(r>=0x0c00 && r<0x0d80)\r
{\r
switch(r&0x0f)\r
case 14: // get loop address\r
{\r
const int ch=(r>>4)-0xc0;\r
- if(s_chan[ch].pLoop==NULL) return 0;\r
return (unsigned short)((s_chan[ch].pLoop-spuMemC)>>3);\r
}\r
}\r
// SOUND ON register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void SoundOn(int start,int end,unsigned short val) // SOUND ON PSX COMAND\r
+static void SoundOn(int start,int end,unsigned short val)\r
{\r
int ch;\r
\r
for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
{\r
- if((val&1) && s_chan[ch].pStart) // mmm... start has to be set before key on !?!\r
+ if((val&1) && regAreaGet(ch,6)) // mmm... start has to be set before key on !?!\r
{\r
- s_chan[ch].bIgnoreLoop=0;\r
-\r
// do this here, not in StartSound\r
// - fixes fussy timing issues\r
s_chan[ch].bStop=0;\r
- s_chan[ch].pCurr=s_chan[ch].pStart;\r
+ s_chan[ch].pCurr=spuMemC+((regAreaGet(ch,6)&~1)<<3); // must be block aligned\r
+ s_chan[ch].pLoop=spuMemC+((regAreaGet(ch,14)&~1)<<3);\r
+ s_chan[ch].prevflags=2;\r
\r
dwNewChannel|=(1<<ch); // bitfield for faster testing\r
dwChannelOn|=1<<ch;\r
+ dwChannelDead&=~(1<<ch);\r
}\r
}\r
}\r
// SOUND OFF register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void SoundOff(int start,int end,unsigned short val) // SOUND OFF PSX COMMAND\r
+static void SoundOff(int start,int end,unsigned short val)\r
{\r
int ch;\r
for(ch=start;ch<end;ch++,val>>=1) // loop channels\r
// FMOD register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void FModOn(int start,int end,unsigned short val) // FMOD ON PSX COMMAND\r
+static void FModOn(int start,int end,unsigned short val)\r
{\r
int ch;\r
\r
else\r
{\r
s_chan[ch].bFMod=0; // --> turn off fmod\r
+ if(ch>0&&s_chan[ch-1].bFMod==2)\r
+ s_chan[ch-1].bFMod=0;\r
}\r
}\r
}\r
// NOISE register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void NoiseOn(int start,int end,unsigned short val) // NOISE ON PSX COMMAND\r
+static void NoiseOn(int start,int end,unsigned short val)\r
{\r
int ch;\r
\r
// please note: sweep and phase invert are wrong... but I've never seen\r
// them used\r
\r
-void SetVolumeL(unsigned char ch,short vol) // LEFT VOLUME\r
+static void SetVolumeL(unsigned char ch,short vol) // LEFT VOLUME\r
{\r
if(vol&0x8000) // sweep?\r
{\r
// RIGHT VOLUME register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void SetVolumeR(unsigned char ch,short vol) // RIGHT VOLUME\r
+static void SetVolumeR(unsigned char ch,short vol) // RIGHT VOLUME\r
{\r
if(vol&0x8000) // comments... see above :)\r
{\r
// PITCH register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void SetPitch(int ch,unsigned short val) // SET PITCH\r
+static void SetPitch(int ch,unsigned short val) // SET PITCH\r
{\r
int NP;\r
if(val>0x3fff) NP=0x3fff; // get pitch val\r
else NP=val;\r
\r
s_chan[ch].iRawPitch=NP;\r
-\r
- NP=(44100L*NP)/4096L; // calc frequency\r
- if(NP<1) NP=1; // some security\r
- s_chan[ch].iActFreq=NP; // store frequency\r
+ s_chan[ch].sinc=(NP<<4)|8;\r
+ if(iUseInterpolation==1) s_chan[ch].SB[32]=1; // -> freq change in simple interpolation mode: set flag\r
}\r
\r
////////////////////////////////////////////////////////////////////////\r
// REVERB register write\r
////////////////////////////////////////////////////////////////////////\r
\r
-void ReverbOn(int start,int end,unsigned short val) // REVERB ON PSX COMMAND\r
+static void ReverbOn(int start,int end,unsigned short val)\r
{\r
int ch;\r
\r