pcsx2/plugins/PeopsSPU2/registers.c

2096 lines
72 KiB
C

/***************************************************************************
registers.c - description
-------------------
begin : Wed May 15 2002
copyright : (C) 2002 by Pete Bernert
email : BlackDove@addcom.de
***************************************************************************/
/***************************************************************************
* *
* This program 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. See also the license.txt file for *
* additional informations. *
* *
***************************************************************************/
//*************************************************************************//
// History of changes:
//
// 2004/04/04 - Pete
// - changed plugin to emulate PS2 spu
//
// 2003/02/09 - kode54
// - removed &0x3fff from reverb volume registers, fixes a few games,
// hopefully won't be breaking anything
//
// 2003/01/19 - Pete
// - added Neill's reverb
//
// 2003/01/06 - Pete
// - added Neill's ADSR timings
//
// 2002/05/15 - Pete
// - generic cleanup for the Peops release
//
//*************************************************************************//
#include "stdafx.h"
#define _IN_REGISTERS
#include "externals.h"
#include "registers.h"
#include "regs.h"
#include "reverb.h"
#include "debug.h"
int MMIXC0 = 0, MMIXC1 = 0;
/*
// adsr time values (in ms) by James Higgs ... see the end of
// the adsr.c source for details
#define ATTACK_MS 514L
#define DECAYHALF_MS 292L
#define DECAY_MS 584L
#define SUSTAIN_MS 450L
#define RELEASE_MS 446L
*/
// we have a timebase of 1.020408f ms, not 1 ms... so adjust adsr defines
#define ATTACK_MS 494L
#define DECAYHALF_MS 286L
#define DECAY_MS 572L
#define SUSTAIN_MS 441L
#define RELEASE_MS 437L
extern void (CALLBACK *irqCallbackSPU2)(); // func of main emu, called on spu irq
////////////////////////////////////////////////////////////////////////
// WRITE REGISTERS: called by main emu
////////////////////////////////////////////////////////////////////////
EXPORT_GCC void CALLBACK SPU2write(unsigned long reg, unsigned short val)
{
long r=reg&0xffff;
regArea[r] = val;
if(spuCtrl2[0]&0x40 && spuIrq2[0] == r){
//regArea[0x7C0] |= 0x4;
regArea[PS2_IRQINFO] |= 4;
irqCallbackSPU2();
}
if(spuCtrl2[1]&0x40 && spuIrq2[1] == r){
//regArea[0x7C0] |= 0x8;
regArea[PS2_IRQINFO] |= 8;
irqCallbackSPU2();
}
if((r>=0x0000 && r<0x0180)||(r>=0x0400 && r<0x0580)) // some channel info?
{
int rx=0;
int ch=0;
if(r>=0x400) {
rx= r - 0x400;
ch=(rx>>4)+24;
} else {
rx= r;
ch=(rx>>4);
}
switch(rx&0x0f)
{
//------------------------------------------------// r volume
case 0:
SetVolumeL((unsigned char)ch,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Volume Left - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------// l volume
case 2:
SetVolumeR((unsigned char)ch,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Volume Right - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------// pitch
case 4:
SetPitch(ch,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Pitch - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------// level with pre-calcs
case 6:
{
const unsigned long lval=val;unsigned long lx;
//---------------------------------------------//
s_chan[ch].ADSRX.AttackModeExp=(lval&0x8000)?1:0;
s_chan[ch].ADSRX.AttackRate=(lval>>8) & 0x007f;
s_chan[ch].ADSRX.DecayRate=(lval>>4) & 0x000f;
s_chan[ch].ADSRX.SustainLevel=lval & 0x000f;
//---------------------------------------------//
if(!iDebugMode) break;
//---------------------------------------------// stuff below is only for debug mode
s_chan[ch].ADSR.AttackModeExp=(lval&0x8000)?1:0; //0x007f
lx=(((lval>>8) & 0x007f)>>2); // attack time to run from 0 to 100% volume
lx=min(31,lx); // no overflow on shift!
if(lx)
{
lx = (1<<lx);
if(lx<2147483) lx=(lx*ATTACK_MS)/10000L; // another overflow check
else lx=(lx/10000L)*ATTACK_MS;
if(!lx) lx=1;
}
s_chan[ch].ADSR.AttackTime=lx;
s_chan[ch].ADSR.SustainLevel= // our adsr vol runs from 0 to 1024, so scale the sustain level
(1024*((lval) & 0x000f))/15;
lx=(lval>>4) & 0x000f; // decay:
if(lx) // our const decay value is time it takes from 100% to 0% of volume
{
lx = ((1<<(lx))*DECAY_MS)/10000L;
if(!lx) lx=1;
}
s_chan[ch].ADSR.DecayTime = // so calc how long does it take to run from 100% to the wanted sus level
(lx*(1024-s_chan[ch].ADSR.SustainLevel))/1024;
}
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ADSR1 - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------// adsr times with pre-calcs
case 8:
{
const unsigned long lval=val;unsigned long lx;
//----------------------------------------------//
s_chan[ch].ADSRX.SustainModeExp = (lval&0x8000)?1:0;
s_chan[ch].ADSRX.SustainIncrease= (lval&0x4000)?0:1;
s_chan[ch].ADSRX.SustainRate = (lval>>6) & 0x007f;
s_chan[ch].ADSRX.ReleaseModeExp = (lval&0x0020)?1:0;
s_chan[ch].ADSRX.ReleaseRate = lval & 0x001f;
//----------------------------------------------//
if(!iDebugMode) break;
//----------------------------------------------// stuff below is only for debug mode
s_chan[ch].ADSR.SustainModeExp = (lval&0x8000)?1:0;
s_chan[ch].ADSR.ReleaseModeExp = (lval&0x0020)?1:0;
lx=((((lval>>6) & 0x007f)>>2)); // sustain time... often very high
lx=min(31,lx); // values are used to hold the volume
if(lx) // until a sound stop occurs
{ // the highest value we reach (due to
lx = (1<<lx); // overflow checking) is:
if(lx<2147483) lx=(lx*SUSTAIN_MS)/10000L; // 94704 seconds = 1578 minutes = 26 hours...
else lx=(lx/10000L)*SUSTAIN_MS; // should be enuff... if the stop doesn't
if(!lx) lx=1; // come in this time span, I don't care :)
}
s_chan[ch].ADSR.SustainTime = lx;
lx=(lval & 0x001f);
s_chan[ch].ADSR.ReleaseVal =lx;
if(lx) // release time from 100% to 0%
{ // note: the release time will be
lx = (1<<lx); // adjusted when a stop is coming,
if(lx<2147483) lx=(lx*RELEASE_MS)/10000L; // so at this time the adsr vol will
else lx=(lx/10000L)*RELEASE_MS; // run from (current volume) to 0%
if(!lx) lx=1;
}
s_chan[ch].ADSR.ReleaseTime=lx;
if(lval & 0x4000) // add/dec flag
s_chan[ch].ADSR.SustainModeDec=-1;
else s_chan[ch].ADSR.SustainModeDec=1;
}
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ADSR2 - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
default:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Unknown Mixing reg - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------//
}
return;
}
if((r>=0x01c0 && r<0x02E0)||(r>=0x05c0 && r<0x06E0)) // some channel info?
{
int ch=0;unsigned long rx=r;
ch=((rx & 0x3ff)-0x1c0) / 0xC;
rx-=ch*0xC;
if(rx>=0x400) {ch+=24;rx-=0x400;}
switch(rx)
{
//------------------------------------------------//
case 0x1C0:
s_chan[ch].iStartAdr=(((unsigned long)val&0x3f)<<16)|(s_chan[ch].iStartAdr&0xFFFF);
s_chan[ch].pStart=spuMemC+(s_chan[ch].iStartAdr<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Start Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
case 0x1C2:
s_chan[ch].iStartAdr=(s_chan[ch].iStartAdr & 0x3f0000) | (val & 0xFFFF);
s_chan[ch].pStart=spuMemC+(s_chan[ch].iStartAdr<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Start Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------//
case 0x1C4:
s_chan[ch].iLoopAdr=(((unsigned long)val&0x3f)<<16)|(s_chan[ch].iLoopAdr&0xFFFF);
s_chan[ch].pLoop=spuMemC+(s_chan[ch].iLoopAdr<<1);
if(s_chan[ch].iLoopAdr)s_chan[ch].bIgnoreLoop=1;
else s_chan[ch].bIgnoreLoop=0;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Loop Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
case 0x1C6:
s_chan[ch].iLoopAdr=(s_chan[ch].iLoopAdr & 0x3f0000) | (val & 0xFFFF);
s_chan[ch].pLoop=spuMemC+(s_chan[ch].iLoopAdr<<1);
if(s_chan[ch].iLoopAdr)s_chan[ch].bIgnoreLoop=1;
else s_chan[ch].bIgnoreLoop=0;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Loop Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------//
case 0x1C8:
// unused... check if it gets written as well
s_chan[ch].iNextAdr=(((unsigned long)val&0x3f)<<16)|(s_chan[ch].iNextAdr&0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Next Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
case 0x1CA:
// unused... check if it gets written as well
s_chan[ch].iNextAdr=(s_chan[ch].iNextAdr & 0x3f0000) | (val & 0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Next Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, val);
#endif
break;
//------------------------------------------------//
}
return;
}
switch(r)
{
//-------------------------------------------------//
case PS2_C0_SPUaddr_Hi:
spuAddr2[0] = (((unsigned long)val&0x3f)<<16)|(spuAddr2[0]&0xFFFF); // 6bits
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG TSAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUaddr_Lo:
spuAddr2[0] = (spuAddr2[0] & 0x3F0000) | (val & 0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG TSAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUaddr_Hi:
spuAddr2[1] = (((unsigned long)val&0x3f)<<16)|(spuAddr2[1]&0xFFFF); // 6bits
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG TSAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUaddr_Lo:
spuAddr2[1] = (spuAddr2[1] & 0x3F0000) | (val & 0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG TSAL - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUdata:
spuMem[spuAddr2[0]] = val;
if(spuCtrl2[0]&0x40 && spuIrq2[0] == spuAddr2[0]){
regArea[0x7C0] |= 0x4;
regArea[PS2_IRQINFO] |= 4;
irqCallbackSPU2();
}
spuAddr2[0]++;
if(spuAddr2[0]>0xFFFFF) spuAddr2[0] = 0;
spuStat2[0]|=0x80;
spuCtrl2[0]&=~0x30;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPU Data - Core 0 Addr %X Val %X\r\n", spuAddr2[0]-1, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUdata:
spuMem[spuAddr2[1]] = val;
if(spuCtrl2[1]&0x40 && spuIrq2[1] == spuAddr2[1]){
regArea[0x7C0] |= 0x8;
regArea[PS2_IRQINFO] |= 8;
irqCallbackSPU2();
}
spuAddr2[1]++;
if(spuAddr2[1]>0xFFFFF) spuAddr2[1] = 0;
spuStat2[1]|=0x80;
spuCtrl2[1]&=~0x30;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPU Data - Core 1 Addr %X Val %X\r\n", spuAddr2[1]-1, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_ATTR:
spuCtrl2[0]=val;
if(!(val & 0x40))regArea[PS2_IRQINFO] &= ~0x4;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ATTR - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_ADMAS:
regArea[(PS2_C0_ADMAS)]=val;
///regArea[(0x344)>>1]&= ~0x80;
//regArea[(0x744)>>1]&= ~0x80;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ADMA STAT - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_ADMAS:
regArea[(PS2_C1_ADMAS)]=val;
//regArea[(0x344)>>1]&= ~0x80;
//regArea[(0x744)>>1]&= ~0x80;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ADMA STAT - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_ATTR:
spuCtrl2[1]=val;
if(!(val & 0x40))regArea[PS2_IRQINFO] &= ~0x8;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ATTR - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUstat:
spuStat2[0]=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPU STAT - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUstat:
spuStat2[1]=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPU STAT - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_ReverbAddr_Hi:
spuRvbAddr2[0] = (((unsigned long)val&0x3f)<<16)|(spuRvbAddr2[0]&0xFFFF);
SetReverbAddr(0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ESAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_ReverbAddr_Lo:
spuRvbAddr2[0] = (spuRvbAddr2[0] & 0x3f0000) | (val & 0xFFFF);
SetReverbAddr(0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ESAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_ReverbAEnd_Hi:
spuRvbAEnd2[0] = (((unsigned long)val&0x3f)<<16)/*|(spuRvbAEnd2[0]&0xFFFF)*/;
rvb[0].EndAddr=spuRvbAEnd2[0];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EEAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_ReverbAEnd_Hi:
spuRvbAEnd2[1] = (((unsigned long)val&0x3f)<<16)/*|(spuRvbAEnd2[1]&0xFFFF)*/;
rvb[1].EndAddr=spuRvbAEnd2[1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EEAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_ReverbAddr_Hi:
spuRvbAddr2[1] = (((unsigned long)val&0x3f)<<16)|(spuRvbAddr2[1]&0xFFFF);
SetReverbAddr(1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ESAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_ReverbAddr_Lo:
spuRvbAddr2[1] = (spuRvbAddr2[1] & 0x3f0000) | (val & 0xFFFF);
SetReverbAddr(1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ESAL - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUirqAddr_Hi:
spuIrq2[0] = (((unsigned long)val&0x3f)<<16)|(spuIrq2[0]&0xFFFF); // 6bits
pSpuIrq[0]=spuMemC+(spuIrq2[0]<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG IRQAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUirqAddr_Lo:
spuIrq2[0] = (spuIrq2[0] & 0x3F0000) | (val & 0xFFFF);
pSpuIrq[0]=spuMemC+(spuIrq2[0]<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG IRQAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUirqAddr_Hi:
spuIrq2[1] = (((unsigned long)val&0x3f)<<16)|(spuIrq2[1]&0xFFFF); // 6bits
pSpuIrq[1]=spuMemC+(spuIrq2[1]<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG IRQAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUirqAddr_Lo:
spuIrq2[1] = (spuIrq2[1] & 0x3F0000) | (val & 0xFFFF);
pSpuIrq[1]=spuMemC+(spuIrq2[1]<<1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG IRQAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_IRQINFO:
// regArea[PS2_IRQINFO] = 0; // clear
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG IRQINFO - Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_AVOLL:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG AVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_AVOLR:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG AVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_AVOLL:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG AVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_AVOLR:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG AVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_SPUrvolL:
rvb[0].VolLeft=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUrvolR:
rvb[0].VolRight=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUrvolL:
rvb[1].VolLeft=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUrvolR:
rvb[1].VolRight=val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG EVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUon1:
SoundOn(0,16,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KON0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUon2:
SoundOn(16,24,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KON1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUon1:
SoundOn(24,40,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KON0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUon2:
SoundOn(40,48,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KON1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUoff1:
SoundOff(0,16,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KOF0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUoff2:
SoundOff(16,24,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KOF1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUoff1:
SoundOff(24,40,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KOF0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUoff2:
SoundOff(40,48,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG KOF1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUend1:
dwEndChannel2[0] &= 0xff0000; // According to manual all bits are cleared by writing an arbitary value
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ENDX0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_SPUend2:
dwEndChannel2[0] &= 0xffff;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ENDX1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUend1:
dwEndChannel2[1] &= 0xff0000;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ENDX0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_SPUend2:
dwEndChannel2[1] &= 0xffff;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG ENDX1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_FMod1:
FModOn(0,16,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG PMON0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_FMod2:
FModOn(16,24,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG PMON1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_FMod1:
FModOn(24,40,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG PMON0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_FMod2:
FModOn(40,48,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG PMON1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_Noise1:
NoiseOn(0,16,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG NON0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_Noise2:
NoiseOn(16,24,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG NON1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_Noise1:
NoiseOn(24,40,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG NON0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_Noise2:
NoiseOn(40,48,val);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG NON1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_MVOLL:
regArea[PS2_C0_MVOLL] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_MVOLR:
regArea[PS2_C0_MVOLR] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_MVOLL:
regArea[PS2_C0_MVOLL] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_MVOLR:
regArea[PS2_C0_MVOLR] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_BVOLL:
regArea[PS2_C0_BVOLL] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG BVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_BVOLR:
regArea[PS2_C0_BVOLR] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG BVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_BVOLL:
regArea[PS2_C1_BVOLL] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG BVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_BVOLR:
regArea[PS2_C1_BVOLR] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG BVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_MMIX:
regArea[PS2_C0_MMIX] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MMIX - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C1_MMIX:
regArea[PS2_C1_MMIX] = val;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG MMIX - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
case PS2_C0_DryL1:
VolumeOn(0,16,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXL0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryL2:
VolumeOn(16,24,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXL1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryL1:
VolumeOn(24,40,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXL0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryL2:
VolumeOn(40,48,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXL1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryR1:
VolumeOn(0,16,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXR0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryR2:
VolumeOn(16,24,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXR1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryR1:
VolumeOn(24,40,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXR0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryR2:
VolumeOn(40,48,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXR1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon1_L:
ReverbOn(0,16,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXEL0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon2_L:
ReverbOn(16,24,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXEL1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon1_L:
ReverbOn(24,40,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXEL0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon2_L:
ReverbOn(40,48,val,0);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXEL1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon1_R:
ReverbOn(0,16,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXER0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon2_R:
ReverbOn(16,24,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXER1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon1_R:
ReverbOn(24,40,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXER0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon2_R:
ReverbOn(40,48,val,1);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG VMIXER1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, val);
#endif
break;
//-------------------------------------------------//
case PS2_C0_Reverb+0:
rvb[0].FB_SRC_A=(((unsigned long)val&0x3f)<<16)|(rvb[0].FB_SRC_A&0xFFFF);
break;
case PS2_C0_Reverb+2:
rvb[0].FB_SRC_A=(rvb[0].FB_SRC_A & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+4:
rvb[0].FB_SRC_B=(((unsigned long)val&0x3f)<<16)|(rvb[0].FB_SRC_B&0xFFFF);
break;
case PS2_C0_Reverb+6:
rvb[0].FB_SRC_B=(rvb[0].FB_SRC_B & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+8:
rvb[0].IIR_DEST_A0=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_DEST_A0&0xFFFF);
break;
case PS2_C0_Reverb+10:
rvb[0].IIR_DEST_A0=(rvb[0].IIR_DEST_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+12:
rvb[0].IIR_DEST_A1=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_DEST_A1&0xFFFF);
break;
case PS2_C0_Reverb+14:
rvb[0].IIR_DEST_A1=(rvb[0].IIR_DEST_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+16:
rvb[0].ACC_SRC_A0=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_A0&0xFFFF);
break;
case PS2_C0_Reverb+18:
rvb[0].ACC_SRC_A0=(rvb[0].ACC_SRC_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+20:
rvb[0].ACC_SRC_A1=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_A1&0xFFFF);
break;
case PS2_C0_Reverb+22:
rvb[0].ACC_SRC_A1=(rvb[0].ACC_SRC_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+24:
rvb[0].ACC_SRC_B0=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_B0&0xFFFF);
break;
case PS2_C0_Reverb+26:
rvb[0].ACC_SRC_B0=(rvb[0].ACC_SRC_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+28:
rvb[0].ACC_SRC_B1=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_B1&0xFFFF);
break;
case PS2_C0_Reverb+30:
rvb[0].ACC_SRC_B1=(rvb[0].ACC_SRC_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+32:
rvb[0].IIR_SRC_A0=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_SRC_A0&0xFFFF);
break;
case PS2_C0_Reverb+34:
rvb[0].IIR_SRC_A0=(rvb[0].IIR_SRC_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+36:
rvb[0].IIR_SRC_A1=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_SRC_A1&0xFFFF);
break;
case PS2_C0_Reverb+38:
rvb[0].IIR_SRC_A1=(rvb[0].IIR_SRC_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+40:
rvb[0].IIR_DEST_B0=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_DEST_B0&0xFFFF);
break;
case PS2_C0_Reverb+42:
rvb[0].IIR_DEST_B0=(rvb[0].IIR_DEST_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+44:
rvb[0].IIR_DEST_B1=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_DEST_B1&0xFFFF);
break;
case PS2_C0_Reverb+46:
rvb[0].IIR_DEST_B1=(rvb[0].IIR_DEST_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+48:
rvb[0].ACC_SRC_C0=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_C0&0xFFFF);
break;
case PS2_C0_Reverb+50:
rvb[0].ACC_SRC_C0=(rvb[0].ACC_SRC_C0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+52:
rvb[0].ACC_SRC_C1=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_C1&0xFFFF);
break;
case PS2_C0_Reverb+54:
rvb[0].ACC_SRC_C1=(rvb[0].ACC_SRC_C1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+56:
rvb[0].ACC_SRC_D0=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_D0&0xFFFF);
break;
case PS2_C0_Reverb+58:
rvb[0].ACC_SRC_D0=(rvb[0].ACC_SRC_D0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+60:
rvb[0].ACC_SRC_D1=(((unsigned long)val&0x3f)<<16)|(rvb[0].ACC_SRC_D1&0xFFFF);
break;
case PS2_C0_Reverb+62:
rvb[0].ACC_SRC_D1=(rvb[0].ACC_SRC_D1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+64:
rvb[0].IIR_SRC_B1=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_SRC_B1&0xFFFF);
break;
case PS2_C0_Reverb+66:
rvb[0].IIR_SRC_B1=(rvb[0].IIR_SRC_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+68:
rvb[0].IIR_SRC_B0=(((unsigned long)val&0x3f)<<16)|(rvb[0].IIR_SRC_B0&0xFFFF);
break;
case PS2_C0_Reverb+70:
rvb[0].IIR_SRC_B0=(rvb[0].IIR_SRC_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+72:
rvb[0].MIX_DEST_A0=(((unsigned long)val&0x3f)<<16)|(rvb[0].MIX_DEST_A0&0xFFFF);
break;
case PS2_C0_Reverb+74:
rvb[0].MIX_DEST_A0=(rvb[0].MIX_DEST_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+76:
rvb[0].MIX_DEST_A1=(((unsigned long)val&0x3f)<<16)|(rvb[0].MIX_DEST_A1&0xFFFF);
break;
case PS2_C0_Reverb+78:
rvb[0].MIX_DEST_A1=(rvb[0].MIX_DEST_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+80:
rvb[0].MIX_DEST_B0=(((unsigned long)val&0x3f)<<16)|(rvb[0].MIX_DEST_B0&0xFFFF);
break;
case PS2_C0_Reverb+82:
rvb[0].MIX_DEST_B0=(rvb[0].MIX_DEST_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_Reverb+84:
rvb[0].MIX_DEST_B1=(((unsigned long)val&0x3f)<<16)|(rvb[0].MIX_DEST_B1&0xFFFF);
break;
case PS2_C0_Reverb+86:
rvb[0].MIX_DEST_B1=(rvb[0].MIX_DEST_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C0_ReverbX+0: rvb[0].IIR_ALPHA=(short)val; break;
case PS2_C0_ReverbX+2: rvb[0].ACC_COEF_A=(short)val; break;
case PS2_C0_ReverbX+4: rvb[0].ACC_COEF_B=(short)val; break;
case PS2_C0_ReverbX+6: rvb[0].ACC_COEF_C=(short)val; break;
case PS2_C0_ReverbX+8: rvb[0].ACC_COEF_D=(short)val; break;
case PS2_C0_ReverbX+10: rvb[0].IIR_COEF=(short)val; break;
case PS2_C0_ReverbX+12: rvb[0].FB_ALPHA=(short)val; break;
case PS2_C0_ReverbX+14: rvb[0].FB_X=(short)val; break;
case PS2_C0_ReverbX+16: rvb[0].IN_COEF_L=(short)val; break;
case PS2_C0_ReverbX+18: rvb[0].IN_COEF_R=(short)val; break;
//-------------------------------------------------//
case PS2_C1_Reverb+0:
rvb[1].FB_SRC_A=(((unsigned long)val&0x3f)<<16)|(rvb[1].FB_SRC_A&0xFFFF);
break;
case PS2_C1_Reverb+2:
rvb[1].FB_SRC_A=(rvb[1].FB_SRC_A & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+4:
rvb[1].FB_SRC_B=(((unsigned long)val&0x3f)<<16)|(rvb[1].FB_SRC_B&0xFFFF);
break;
case PS2_C1_Reverb+6:
rvb[1].FB_SRC_B=(rvb[1].FB_SRC_B & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+8:
rvb[1].IIR_DEST_A0=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_DEST_A0&0xFFFF);
break;
case PS2_C1_Reverb+10:
rvb[1].IIR_DEST_A0=(rvb[1].IIR_DEST_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+12:
rvb[1].IIR_DEST_A1=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_DEST_A1&0xFFFF);
break;
case PS2_C1_Reverb+14:
rvb[1].IIR_DEST_A1=(rvb[1].IIR_DEST_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+16:
rvb[1].ACC_SRC_A0=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_A0&0xFFFF);
break;
case PS2_C1_Reverb+18:
rvb[1].ACC_SRC_A0=(rvb[1].ACC_SRC_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+20:
rvb[1].ACC_SRC_A1=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_A1&0xFFFF);
break;
case PS2_C1_Reverb+22:
rvb[1].ACC_SRC_A1=(rvb[1].ACC_SRC_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+24:
rvb[1].ACC_SRC_B0=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_B0&0xFFFF);
break;
case PS2_C1_Reverb+26:
rvb[1].ACC_SRC_B0=(rvb[1].ACC_SRC_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+28:
rvb[1].ACC_SRC_B1=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_B1&0xFFFF);
break;
case PS2_C1_Reverb+30:
rvb[1].ACC_SRC_B1=(rvb[1].ACC_SRC_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+32:
rvb[1].IIR_SRC_A0=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_SRC_A0&0xFFFF);
break;
case PS2_C1_Reverb+34:
rvb[1].IIR_SRC_A0=(rvb[1].IIR_SRC_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+36:
rvb[1].IIR_SRC_A1=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_SRC_A1&0xFFFF);
break;
case PS2_C1_Reverb+38:
rvb[1].IIR_SRC_A1=(rvb[1].IIR_SRC_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+40:
rvb[1].IIR_DEST_B0=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_DEST_B0&0xFFFF);
break;
case PS2_C1_Reverb+42:
rvb[1].IIR_DEST_B0=(rvb[1].IIR_DEST_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+44:
rvb[1].IIR_DEST_B1=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_DEST_B1&0xFFFF);
break;
case PS2_C1_Reverb+46:
rvb[1].IIR_DEST_B1=(rvb[1].IIR_DEST_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+48:
rvb[1].ACC_SRC_C0=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_C0&0xFFFF);
break;
case PS2_C1_Reverb+50:
rvb[1].ACC_SRC_C0=(rvb[1].ACC_SRC_C0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+52:
rvb[1].ACC_SRC_C1=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_C1&0xFFFF);
break;
case PS2_C1_Reverb+54:
rvb[1].ACC_SRC_C1=(rvb[1].ACC_SRC_C1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+56:
rvb[1].ACC_SRC_D0=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_D0&0xFFFF);
break;
case PS2_C1_Reverb+58:
rvb[1].ACC_SRC_D0=(rvb[1].ACC_SRC_D0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+60:
rvb[1].ACC_SRC_D1=(((unsigned long)val&0x3f)<<16)|(rvb[1].ACC_SRC_D1&0xFFFF);
break;
case PS2_C1_Reverb+62:
rvb[1].ACC_SRC_D1=(rvb[1].ACC_SRC_D1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+64:
rvb[1].IIR_SRC_B1=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_SRC_B1&0xFFFF);
break;
case PS2_C1_Reverb+66:
rvb[1].IIR_SRC_B1=(rvb[1].IIR_SRC_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+68:
rvb[1].IIR_SRC_B0=(((unsigned long)val&0x3f)<<16)|(rvb[1].IIR_SRC_B0&0xFFFF);
break;
case PS2_C1_Reverb+70:
rvb[1].IIR_SRC_B0=(rvb[1].IIR_SRC_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+72:
rvb[1].MIX_DEST_A0=(((unsigned long)val&0x3f)<<16)|(rvb[1].MIX_DEST_A0&0xFFFF);
break;
case PS2_C1_Reverb+74:
rvb[1].MIX_DEST_A0=(rvb[1].MIX_DEST_A0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+76:
rvb[1].MIX_DEST_A1=(((unsigned long)val&0x3f)<<16)|(rvb[1].MIX_DEST_A1&0xFFFF);
break;
case PS2_C1_Reverb+78:
rvb[1].MIX_DEST_A1=(rvb[1].MIX_DEST_A1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+80:
rvb[1].MIX_DEST_B0=(((unsigned long)val&0x3f)<<16)|(rvb[1].MIX_DEST_B0&0xFFFF);
break;
case PS2_C1_Reverb+82:
rvb[1].MIX_DEST_B0=(rvb[1].MIX_DEST_B0 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_Reverb+84:
rvb[1].MIX_DEST_B1=(((unsigned long)val&0x3f)<<16)|(rvb[1].MIX_DEST_B1&0xFFFF);
break;
case PS2_C1_Reverb+86:
rvb[1].MIX_DEST_B1=(rvb[1].MIX_DEST_B1 & 0x3f0000) | ((val) & 0xFFFF);
break;
case PS2_C1_ReverbX+0: rvb[1].IIR_ALPHA=(short)val; break;
case PS2_C1_ReverbX+2: rvb[1].ACC_COEF_A=(short)val; break;
case PS2_C1_ReverbX+4: rvb[1].ACC_COEF_B=(short)val; break;
case PS2_C1_ReverbX+6: rvb[1].ACC_COEF_C=(short)val; break;
case PS2_C1_ReverbX+8: rvb[1].ACC_COEF_D=(short)val; break;
case PS2_C1_ReverbX+10: rvb[1].IIR_COEF=(short)val; break;
case PS2_C1_ReverbX+12: rvb[1].FB_ALPHA=(short)val; break;
case PS2_C1_ReverbX+14: rvb[1].FB_X=(short)val; break;
case PS2_C1_ReverbX+16: rvb[1].IN_COEF_L=(short)val; break;
case PS2_C1_ReverbX+18: rvb[1].IN_COEF_R=(short)val; break;
case PS2_SPDIF_OUT:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPDIF_OUT Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,val);
#endif
break;
case PS2_SPDIF_MODE:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPDIF_MODE Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,val);
#endif
break;
case PS2_SPDIF_MEDIA:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPDIF_OUT Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,val);
#endif
break;
case PS2_SPDIF_COPY:
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG SPDIF_COPY Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,val);
#endif
break;
default: //All other writes
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("W_REG Unknown Register Addr %X Value %X\r\n",reg&0xFFFF,val);
#endif
break;
}
iSpuAsyncWait=0;
}
////////////////////////////////////////////////////////////////////////
// READ REGISTER: called by main emu
////////////////////////////////////////////////////////////////////////
EXPORT_GCC unsigned short CALLBACK SPU2read(unsigned long reg)
{
long r=reg&0xffff;
unsigned int ret = 0;
if(spuCtrl2[0]&0x40 && spuIrq2[0] == r){
//regArea[0x7C0] |= 0x4;
regArea[PS2_IRQINFO] |= 4;
irqCallbackSPU2();
}
if(spuCtrl2[1]&0x40 && spuIrq2[1] == r){
//regArea[0x7C0] |= 0x8;
regArea[PS2_IRQINFO] |= 8;
irqCallbackSPU2();
}
if((r>=0x0000 && r<0x0180)||(r>=0x0400 && r<0x0580)) // some channel info?
{
int addr=0;
int ch=((r & 0x3ff)>>4);
if(r>=0x400) ch+=24;
switch(r&0x0f)
{
case 0: //Left Volume
ret = s_chan[ch].iLeftVolRaw;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Volume Left - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 2: //Right Volume
ret = s_chan[ch].iRightVolRaw;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Volume Right - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 4: //Pitch
ret = regArea[r];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Pitch - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 6: //ASDR1
ret = regArea[r];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ASDR1 - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 8: //ASDR2
ret = regArea[r];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ASDR2 - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 10: //Envelope (current)
ret = (unsigned short)(s_chan[ch].ADSRX.EnvelopeVol>>16);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Envelope - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
}
}else
if((r>=0x01c0 && r<0x02E0)||(r>=0x05c0 && r<0x06E0)) // some channel info?
{
int ch=0;unsigned long rx=r;
ch=((rx & 0x3ff)-0x1c0) / 0xC;
rx-=ch*0xC;
if(rx>=0x400) {ch+=24;rx-=0x400;}
switch(rx)
{
case 0x1C0:
ret = (((s_chan[ch].pStart-spuMemC)>>17)&0x3F);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Start Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 0x1C2:
ret = (((s_chan[ch].pStart-spuMemC)>>1)&0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Start Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
//------------------------------------------------//
case 0x1C4:
ret = (((s_chan[ch].pLoop-spuMemC)>>17)&0x3F);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Loop Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 0x1C6:
ret = (((s_chan[ch].pLoop-spuMemC)>>1)&0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Loop Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
//------------------------------------------------//
case 0x1C8:
ret = ((((s_chan[ch].pCurr)-spuMemC)>>17)&0x3F);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Next Addr Hi - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
case 0x1CA:
ret = ((((s_chan[ch].pCurr)-spuMemC)>>1)&0xFFFF);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Next Addr Lo - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
default:
ret = regArea[rx];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Channel Addr Unknown - Channel %d Core %d Addr %X Val %X\r\n", (ch > 23? (ch - 24) : ch), ch/24, reg&0xFFFF, ret);
#endif
break;
//------------------------------------------------//
}
}else{
switch(r)
{
//--------------------------------------------------//
case PS2_C0_SPUend1:
ret = (unsigned short)((dwEndChannel2[0]&0xFFFF));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ENDX 0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_SPUend2:
ret = (unsigned short)((dwEndChannel2[0]>>16));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ENDX 1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C1_SPUend1:
ret = (unsigned short)((dwEndChannel2[1]&0xFFFF));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ENDX 0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_SPUend2:
ret = (unsigned short)((dwEndChannel2[1]>>16));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ENDX 1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C0_ATTR:
ret = spuCtrl2[0];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Core Attr - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C1_ATTR:
ret = spuCtrl2[1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Core Attr - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C0_SPUstat:
ret = spuStat2[0];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPU Status - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C1_SPUstat:
ret = spuStat2[1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPU Status - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C0_SPUdata:
{
unsigned short s=spuMem[spuAddr2[0]];
if(spuCtrl2[0]&0x40 && spuIrq2[0] == spuAddr2[0]){
regArea[0x7C0] |= 0x4;
regArea[PS2_IRQINFO] |= 4;
irqCallbackSPU2();
}
spuAddr2[0]++;
if(spuAddr2[0]>0xFFFFF) spuAddr2[0] = 0;
spuStat2[0]|=0x80;
spuCtrl2[0]&=~0x30;
ret = s;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPU Data - Core 0 Addr %X SSA %x Val %X\r\n", reg&0xFFFF, spuAddr2[0]-1, ret);
#endif
}
break;
//--------------------------------------------------//
case PS2_C1_SPUdata:
{
unsigned short s=spuMem[spuAddr2[1]];
if(spuCtrl2[1]&0x40 && spuIrq2[1] == spuAddr2[1]){
regArea[0x7C0] |= 0x8;
regArea[PS2_IRQINFO] |= 8;
irqCallbackSPU2();
}
spuAddr2[1]++;
if(spuAddr2[1]>0xFFFFF) spuAddr2[1] = 0;
spuStat2[1]|=0x80;
spuCtrl2[1]&=~0x30;
ret = s;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPU Data - Core 1 Addr %X SSA %x Val %X\r\n", reg&0xFFFF, spuAddr2[1]-1, ret);
#endif
}
break;
//--------------------------------------------------//
case PS2_C0_SPUaddr_Hi:
ret = (unsigned short)((spuAddr2[0]>>16)&0x3F);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG TSAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_SPUaddr_Lo:
ret = (unsigned short)((spuAddr2[0]&0xFFFF));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG TSAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C1_SPUaddr_Hi:
ret = (unsigned short)((spuAddr2[1]>>16)&0x3F);
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG TSAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_SPUaddr_Lo:
ret = (unsigned short)((spuAddr2[1]&0xFFFF));
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG TSAL - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_ReverbAEnd_Hi:
ret = regArea[PS2_C0_ReverbAEnd_Hi];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EEAH - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_ReverbAEnd_Hi:
ret = regArea[PS2_C1_ReverbAEnd_Hi];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EEAH - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_ReverbAddr_Lo:
ret = regArea[PS2_C0_ReverbAddr_Lo];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ESAL - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_ReverbAddr_Lo:
ret = regArea[PS2_C1_ReverbAddr_Lo];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ESAL - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_IRQINFO:
ret = regArea[PS2_IRQINFO];
// regArea[PS2_IRQINFO] = 0; // clear
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG IRQINFO - Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_ADMAS:
ret = regArea[(PS2_C0_ADMAS)];
///regArea[(0x344)>>1]&= ~0x80;
//regArea[(0x744)>>1]&= ~0x80;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ADMA STAT - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_ADMAS:
ret = regArea[(PS2_C1_ADMAS)];
//regArea[(0x344)>>1]&= ~0x80;
//regArea[(0x744)>>1]&= ~0x80;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG ADMA STAT - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//--------------------------------------------------//
case PS2_C0_SPUrvolL:
ret = rvb[0].VolLeft;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUrvolR:
ret = rvb[0].VolRight;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUrvolL:
ret = rvb[1].VolLeft;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUrvolR:
ret = rvb[1].VolRight;
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG EVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUon1:
ret = regArea[PS2_C0_SPUon1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KON0 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUon2:
ret = regArea[PS2_C0_SPUon2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KON1 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUon1:
ret = regArea[PS2_C1_SPUon1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KON0 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUon2:
ret = regArea[PS2_C1_SPUon2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KON1 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUoff1:
ret = regArea[PS2_C0_SPUoff1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KOF0 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_SPUoff2:
ret = regArea[PS2_C0_SPUoff2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KOF1 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUoff1:
ret = regArea[PS2_C1_SPUoff1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KOF0 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_SPUoff2:
ret = regArea[PS2_C1_SPUoff2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG KOF1 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_FMod1:
ret = regArea[PS2_C0_FMod1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG PMON0 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_FMod2:
ret = regArea[PS2_C0_FMod2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG PMON1 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_FMod1:
ret = regArea[PS2_C1_FMod1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG PMON0 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_FMod2:
ret = regArea[PS2_C1_FMod2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG PMON1 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_Noise1:
ret = regArea[PS2_C0_Noise1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG NON0 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_Noise2:
ret = regArea[PS2_C0_Noise2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG NON1 - Core 0 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_Noise1:
ret = regArea[PS2_C1_Noise1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG NON0 - Core 1 Addr %X Val %X - Not Implemented!\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_Noise2:
ret = regArea[PS2_C1_Noise2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG NON1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_AVOLL:
ret = regArea[PS2_C0_AVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG AVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_AVOLR:
ret = regArea[PS2_C0_AVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG AVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_AVOLL:
ret = regArea[PS2_C1_AVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG AVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_AVOLR:
ret = regArea[PS2_C1_AVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG AVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_MVOLL:
ret = regArea[PS2_C0_MVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_MVOLR:
ret = regArea[PS2_C0_MVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_MVOLL:
regArea[PS2_C0_MVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_MVOLR:
ret = regArea[PS2_C0_MVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_BVOLL:
ret = regArea[PS2_C0_BVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG BVOL Left - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_BVOLR:
ret = regArea[PS2_C0_BVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG BVOL Right - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_BVOLL:
ret = regArea[PS2_C1_BVOLL];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG BVOL Left - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_BVOLR:
ret = regArea[PS2_C1_BVOLR];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG BVOL Right - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_MMIX:
ret = regArea[PS2_C0_MMIX];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MMIX - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C1_MMIX:
ret = regArea[PS2_C1_MMIX];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG MMIX - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_C0_DryL1:
ret = regArea[PS2_C0_DryL1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXL0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryL2:
ret = regArea[PS2_C0_DryL2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXL1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryL1:
ret = regArea[PS2_C1_DryL1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXL0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryL2:
ret = regArea[PS2_C1_DryL2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXL1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryR1:
ret = regArea[PS2_C0_DryR1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXR0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_DryR2:
ret = regArea[PS2_C0_DryR2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXR1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryR1:
ret = regArea[PS2_C1_DryR1];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXR0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_DryR2:
ret = regArea[PS2_C1_DryR2];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXR1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon1_L:
ret = regArea[PS2_C0_RVBon1_L];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXEL0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon2_L:
ret = regArea[PS2_C0_RVBon2_L];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXEL1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon1_L:
ret = regArea[PS2_C1_RVBon1_L];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXEL0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon2_L:
ret = regArea[PS2_C1_RVBon2_L];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXEL1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon1_R:
ret = regArea[PS2_C0_RVBon1_R];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXER0 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C0_RVBon2_R:
ret = regArea[PS2_C0_RVBon2_R];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXER1 - Core 0 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon1_R:
ret = regArea[PS2_C1_RVBon1_R];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXER0 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
//-------------------------------------------------//
case PS2_C1_RVBon2_R:
ret = regArea[PS2_C1_RVBon2_R];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG VMIXER1 - Core 1 Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
case PS2_SPDIF_OUT:
ret = regArea[PS2_SPDIF_OUT];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPDIF_OUT Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,ret);
#endif
break;
case PS2_SPDIF_MODE:
ret = regArea[PS2_SPDIF_MODE];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPDIF_MODE Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,ret);
#endif
break;
case PS2_SPDIF_MEDIA:
ret = regArea[PS2_SPDIF_MEDIA];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPDIF_OUT Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,ret);
#endif
break;
case PS2_SPDIF_COPY:
ret = regArea[PS2_SPDIF_COPY];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG SPDIF_COPY Addr %X Value %X - Not Implemented!\r\n",reg&0xFFFF,ret);
#endif
break;
default:
ret = regArea[r];
#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG Unknown Register - Addr %X Val %X\r\n", reg&0xFFFF, ret);
#endif
break;
}
/*#ifdef _WINDOWS
if(iDebugMode==1) logprintf("R_REG %X Val %X\r\n",reg&0xFFFF, ret);
#endif*/
}
return ret;
}
////////////////////////////////////////////////////////////////////////
// SOUND ON register write
////////////////////////////////////////////////////////////////////////
void SoundOn(int start,int end,unsigned short val) // SOUND ON PSX COMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if((val&1) && s_chan[ch].pStart) // mmm... start has to be set before key on !?!
{
//s_chan[ch].bStop = 0;
if(ch > 24){
int tempchan = ch-24;
if(tempchan > 15) {
regArea[PS2_C1_SPUoff2] &= ~(1<<(tempchan-16));
}else{
regArea[PS2_C1_SPUoff1] &= ~(1<<tempchan);
}
} else {
int tempchan = ch;
if(tempchan > 15) {
regArea[PS2_C0_SPUoff2] &= ~(1<<(tempchan-16));
}else{
regArea[PS2_C0_SPUoff1] &= ~(1<<tempchan);
}
}
s_chan[ch].bNew=1;
dwNewChannel2[ch/24]|=(1<<(ch%24)); // bitfield for faster testing
}
}
}
////////////////////////////////////////////////////////////////////////
// SOUND OFF register write
////////////////////////////////////////////////////////////////////////
void SoundOff(int start,int end,unsigned short val) // SOUND OFF PSX COMMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if(val&1) // && s_chan[i].bOn) mmm...
{
if(ch > 24){
int tempchan = ch-24;
if(tempchan > 15) {
regArea[PS2_C1_SPUon2] &= ~(1<<(tempchan-16));
}else{
regArea[PS2_C1_SPUon1] &= ~(1<<tempchan);
}
} else {
int tempchan = ch;
if(tempchan > 15) {
regArea[PS2_C0_SPUon2] &= ~(1<<(tempchan-16));
}else{
regArea[PS2_C0_SPUon1] &= ~(1<<tempchan);
}
}
s_chan[ch].bStop=1;
}
}
}
////////////////////////////////////////////////////////////////////////
// FMOD register write
////////////////////////////////////////////////////////////////////////
void FModOn(int start,int end,unsigned short val) // FMOD ON PSX COMMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if(val&1) // -> fmod on/off
{
if(ch>0)
{
s_chan[ch].bFMod=1; // --> sound channel
s_chan[ch-1].bFMod=2; // --> freq channel
}
}
else
{
s_chan[ch].bFMod=0; // --> turn off fmod
}
}
}
////////////////////////////////////////////////////////////////////////
// NOISE register write
////////////////////////////////////////////////////////////////////////
void NoiseOn(int start,int end,unsigned short val) // NOISE ON PSX COMMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if(val&1) // -> noise on/off
{
s_chan[ch].bNoise=1;
}
else
{
s_chan[ch].bNoise=0;
}
}
}
////////////////////////////////////////////////////////////////////////
// LEFT VOLUME register write
////////////////////////////////////////////////////////////////////////
// please note: sweep and phase invert are wrong... but I've never seen
// them used
void SetVolumeL(unsigned char ch,short vol) // LEFT VOLUME
{
s_chan[ch].iLeftVolRaw=vol;
if(vol&0x8000) // sweep?
{
short sInc=1; // -> sweep up?
if(vol&0x2000) sInc=-1; // -> or down?
if(vol&0x1000) vol^=0xffff; // -> mmm... phase inverted? have to investigate this
vol=((vol&0x7f)+1)/2; // -> sweep: 0..127 -> 0..64
vol+=vol/(2*sInc); // -> HACK: we don't sweep right now, so we just raise/lower the volume by the half!
vol*=128;
}
else // no sweep:
{
if(vol&0x4000) // -> mmm... phase inverted? have to investigate this
//vol^=0xffff;
vol=0x3fff-(vol&0x3fff);
}
vol&=0x3fff;
s_chan[ch].iLeftVolume=vol; // store volume
}
////////////////////////////////////////////////////////////////////////
// RIGHT VOLUME register write
////////////////////////////////////////////////////////////////////////
void SetVolumeR(unsigned char ch,short vol) // RIGHT VOLUME
{
s_chan[ch].iRightVolRaw=vol;
if(vol&0x8000) // comments... see above :)
{
short sInc=1;
if(vol&0x2000) sInc=-1;
if(vol&0x1000) vol^=0xffff;
vol=((vol&0x7f)+1)/2;
vol+=vol/(2*sInc);
vol*=128;
}
else
{
if(vol&0x4000) //vol=vol^=0xffff;
vol=0x3fff-(vol&0x3fff);
}
vol&=0x3fff;
s_chan[ch].iRightVolume=vol;
}
////////////////////////////////////////////////////////////////////////
// PITCH register write
////////////////////////////////////////////////////////////////////////
void SetPitch(int ch,unsigned short val) // SET PITCH
{
int NP;
if(val>0x3fff) NP=0x3fff; // get pitch val
else NP=val;
s_chan[ch].iRawPitch=NP;
NP=(48000L*NP)/4096L; // calc frequency(48000Hz)
if(NP<1) NP=1; // some security
s_chan[ch].iActFreq=NP; // store frequency
}
////////////////////////////////////////////////////////////////////////
// REVERB register write
////////////////////////////////////////////////////////////////////////
void ReverbOn(int start,int end,unsigned short val,int iRight) // REVERB ON PSX COMMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if(val&1) // -> reverb on/off
{
if(iRight) s_chan[ch].bReverbR=1;
else s_chan[ch].bReverbL=1;
}
else
{
if(iRight) s_chan[ch].bReverbR=0;
else s_chan[ch].bReverbL=0;
}
}
}
////////////////////////////////////////////////////////////////////////
// REVERB START register write
////////////////////////////////////////////////////////////////////////
void SetReverbAddr(int core)
{
long val=spuRvbAddr2[core];
if(rvb[core].StartAddr!=val)
{
if(val<=0x27ff)
{
rvb[core].StartAddr=rvb[core].CurrAddr=0;
}
else
{
rvb[core].StartAddr=val;
rvb[core].CurrAddr=rvb[core].StartAddr;
}
}
}
////////////////////////////////////////////////////////////////////////
// DRY LEFT/RIGHT per voice switches
////////////////////////////////////////////////////////////////////////
void VolumeOn(int start,int end,unsigned short val,int iRight) // VOLUME ON PSX COMMAND
{
int ch;
for(ch=start;ch<end;ch++,val>>=1) // loop channels
{
if(val&1) // -> reverb on/off
{
if(iRight) s_chan[ch].bVolumeR=1;
else s_chan[ch].bVolumeL=1;
}
else
{
if(iRight) s_chan[ch].bVolumeR=0;
else s_chan[ch].bVolumeL=0;
}
}
}