X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=plugins%2Fdfsound%2Ffreeze.c;h=36b8995923829ee677865cdd7b3e1fbe57d3406a;hb=HEAD;hp=12fdc1fdba2a663e91fd1b61c57a633365b8ef3a;hpb=ef79bbde537d6b9c745a7d86cb9df1d04c35590d;p=pcsx_rearmed.git diff --git a/plugins/dfsound/freeze.c b/plugins/dfsound/freeze.c index 12fdc1fd..36b89959 100644 --- a/plugins/dfsound/freeze.c +++ b/plugins/dfsound/freeze.c @@ -15,6 +15,7 @@ * * ***************************************************************************/ +#include #include "stdafx.h" #define _IN_FREEZE @@ -22,13 +23,91 @@ #include "externals.h" #include "registers.h" #include "spu.h" -#include "regs.h" //////////////////////////////////////////////////////////////////////// // freeze structs //////////////////////////////////////////////////////////////////////// typedef struct +{ + int AttackModeExp; + int AttackTime; + int DecayTime; + int SustainLevel; + int SustainModeExp; + int SustainModeDec; + int SustainTime; + int ReleaseModeExp; + unsigned int ReleaseVal; + int ReleaseTime; + int ReleaseStartTime; + int ReleaseVol; + int lTime; + int lVolume; +} ADSRInfo; + +typedef struct +{ + int State; + int AttackModeExp; + int AttackRate; + int DecayRate; + int SustainLevel; + int SustainModeExp; + int SustainIncrease; + int SustainRate; + int ReleaseModeExp; + int ReleaseRate; + int EnvelopeVol; + int lVolume; + int lDummy1; + int lDummy2; +} ADSRInfoEx_orig; + +typedef struct +{ + // no mutexes used anymore... don't need them to sync access + //HANDLE hMutex; + + int bNew; // start flag + + int iSBPos; // mixing stuff + int spos; + int sinc; + int SB[32+32]; // Pete added another 32 dwords in 1.6 ... prevents overflow issues with gaussian/cubic interpolation (thanx xodnizel!), and can be used for even better interpolations, eh? :) + int sval; + + int iStart; // start ptr into sound mem + int iCurr; // current pos in sound mem + int iLoop; // loop ptr in sound mem + + int bOn; // is channel active (sample playing?) + int bStop; // is channel stopped (sample _can_ still be playing, ADSR Release phase) + int bReverb; // can we do reverb on this channel? must have ctrl register bit, to get active + int iActFreq; // current psx pitch + int iUsedFreq; // current pc pitch + int iLeftVolume; // left volume + int iLeftVolRaw; // left psx volume value + int bIgnoreLoop; // ignore loop bit, if an external loop address is used + int iMute; // mute mode + int iRightVolume; // right volume + int iRightVolRaw; // right psx volume value + int iRawPitch; // raw pitch (0...3fff) + int iIrqDone; // debug irq done flag + int s_1; // last decoding infos + int s_2; + int bRVBActive; // reverb active flag + int iRVBOffset; // reverb offset + int iRVBRepeat; // reverb repeat + int bNoise; // noise active flag + int bFMod; // freq mod (0=off, 1=sound channel, 2=freq channel) + int iRVBNum; // another reverb helper + int iOldNoise; // old noise val for this channel + ADSRInfo ADSR; // active ADSR settings + ADSRInfoEx_orig ADSRX; // next ADSR settings (will be moved to active on sample start) +} SPUCHAN_orig; + +typedef struct SPUFreeze { char szSPUName[8]; uint32_t ulFreezeVersion; @@ -41,35 +120,135 @@ typedef struct typedef struct { unsigned short spuIrq; + unsigned short decode_pos; uint32_t pSpuIrq; uint32_t spuAddr; - uint32_t dummy1; - uint32_t dummy2; - uint32_t dummy3; + uint32_t rvb_cur; + uint16_t xa_left; + uint16_t cdda_left; + uint32_t cycles_played; + + SPUCHAN_orig s_chan[MAXCHAN]; - SPUCHAN s_chan[MAXCHAN]; + uint32_t cycles_dma_end; + uint32_t decode_dirty_ch; + uint32_t dwNoiseVal; + uint32_t dwNoiseCount; + uint32_t XARepeat; + uint32_t XALastVal; + uint32_t last_keyon_cycles; } SPUOSSFreeze_t; //////////////////////////////////////////////////////////////////////// -void LoadStateV5(SPUFreeze_t * pF); // newest version -void LoadStateUnknown(SPUFreeze_t * pF); // unknown format +static SPUOSSFreeze_t * LoadStateV5(SPUFreeze_t * pF, uint32_t cycles); +static void LoadStateUnknown(SPUFreeze_t * pF, uint32_t cycles); // unknown format -extern int lastch; +// we want to retain compatibility between versions, +// so use original channel struct +static void save_channel(SPUCHAN_orig *d, const SPUCHAN *s, int ch) +{ + memset(d, 0, sizeof(*d)); + d->bNew = !!(spu.dwNewChannel & (1<iSBPos = s->iSBPos; + d->spos = s->spos; + d->sinc = s->sinc; + assert(sizeof(d->SB) >= sizeof(spu.sb[ch])); + memcpy(d->SB, &spu.sb[ch], sizeof(spu.sb[ch])); + d->iStart = (regAreaGetCh(ch, 6) & ~1) << 3; + d->iCurr = 0; // set by the caller + d->iLoop = 0; // set by the caller + d->bOn = !!(spu.dwChannelsAudible & (1<bStop = s->ADSRX.State == ADSR_RELEASE; + d->bReverb = s->bReverb; + d->iActFreq = 1; + d->iUsedFreq = 2; + d->iLeftVolume = s->iLeftVolume; + // this one is nasty but safe, save compat is important + d->bIgnoreLoop = (s->prevflags ^ 2) << 1; + d->iRightVolume = s->iRightVolume; + d->iRawPitch = s->iRawPitch; + d->s_1 = spu.sb[ch].SB[27]; // yes it's reversed + d->s_2 = spu.sb[ch].SB[26]; + d->bRVBActive = s->bRVBActive; + d->bNoise = s->bNoise; + d->bFMod = s->bFMod; + d->ADSRX.State = s->ADSRX.State; + d->ADSRX.AttackModeExp = s->ADSRX.AttackModeExp; + d->ADSRX.AttackRate = s->ADSRX.AttackRate; + d->ADSRX.DecayRate = s->ADSRX.DecayRate; + d->ADSRX.SustainLevel = s->ADSRX.SustainLevel; + d->ADSRX.SustainModeExp = s->ADSRX.SustainModeExp; + d->ADSRX.SustainIncrease = s->ADSRX.SustainIncrease; + d->ADSRX.SustainRate = s->ADSRX.SustainRate; + d->ADSRX.ReleaseModeExp = s->ADSRX.ReleaseModeExp; + d->ADSRX.ReleaseRate = s->ADSRX.ReleaseRate; + d->ADSRX.EnvelopeVol = s->ADSRX.EnvelopeVol; + d->ADSRX.lVolume = d->bOn; // hmh +} + +static void load_channel(SPUCHAN *d, const SPUCHAN_orig *s, int ch) +{ + memset(d, 0, sizeof(*d)); + if (s->bNew) spu.dwNewChannel |= 1<iSBPos = s->iSBPos; + if ((uint32_t)d->iSBPos >= 28) d->iSBPos = 27; + d->spos = s->spos; + d->sinc = s->sinc; + d->sinc_inv = 0; + memcpy(&spu.sb[ch], s->SB, sizeof(spu.sb[ch])); + d->pCurr = (void *)((uintptr_t)s->iCurr & 0x7fff0); + d->pLoop = (void *)((uintptr_t)s->iLoop & 0x7fff0); + d->bReverb = s->bReverb; + d->iLeftVolume = s->iLeftVolume; + d->iRightVolume = s->iRightVolume; + d->iRawPitch = s->iRawPitch; + d->bRVBActive = s->bRVBActive; + d->bNoise = s->bNoise; + d->bFMod = s->bFMod; + d->prevflags = (s->bIgnoreLoop >> 1) ^ 2; + d->ADSRX.State = s->ADSRX.State; + if (s->bStop) d->ADSRX.State = ADSR_RELEASE; + d->ADSRX.AttackModeExp = s->ADSRX.AttackModeExp; + d->ADSRX.AttackRate = s->ADSRX.AttackRate; + d->ADSRX.DecayRate = s->ADSRX.DecayRate; + d->ADSRX.SustainLevel = s->ADSRX.SustainLevel; + d->ADSRX.SustainModeExp = s->ADSRX.SustainModeExp; + d->ADSRX.SustainIncrease = s->ADSRX.SustainIncrease; + d->ADSRX.SustainRate = s->ADSRX.SustainRate; + d->ADSRX.ReleaseModeExp = s->ADSRX.ReleaseModeExp; + d->ADSRX.ReleaseRate = s->ADSRX.ReleaseRate; + d->ADSRX.EnvelopeVol = s->ADSRX.EnvelopeVol; + if (s->bOn) spu.dwChannelsAudible |= 1<ADSRX.EnvelopeVol = 0; +} + +// force load from regArea to variables +static void load_register(unsigned long reg, unsigned int cycles) +{ + unsigned short *r = &spu.regArea[((reg & 0xfff) - 0xc00) >> 1]; + *r ^= 1; + SPUwriteRegister(reg, *r ^ 1, cycles); +} //////////////////////////////////////////////////////////////////////// // SPUFREEZE: called by main emu on savestate load/save //////////////////////////////////////////////////////////////////////// -long CALLBACK SPUfreeze(uint32_t ulFreezeMode,SPUFreeze_t * pF) +long CALLBACK SPUfreeze(unsigned int ulFreezeMode, SPUFreeze_t * pF, + unsigned int cycles) { - int i;SPUOSSFreeze_t * pFO; + SPUOSSFreeze_t * pFO = NULL; + int i; if(!pF) return 0; // first check if(ulFreezeMode) // info or save? {//--------------------------------------------------// + int xa_left = 0, cdda_left = 0; + do_samples(cycles, 1); + if(ulFreezeMode==1) memset(pF,0,sizeof(SPUFreeze_t)+sizeof(SPUOSSFreeze_t)); @@ -79,136 +258,194 @@ long CALLBACK SPUfreeze(uint32_t ulFreezeMode,SPUFreeze_t * pF) if(ulFreezeMode==2) return 1; // info mode? ok, bye // save mode: - RemoveTimer(); // stop timer - - memcpy(pF->cSPURam,spuMem,0x80000); // copy common infos - memcpy(pF->cSPUPort,regArea,0x200); + regAreaGet(H_SPUctrl) = spu.spuCtrl; + regAreaGet(H_SPUstat) = spu.spuStat; + memcpy(pF->cSPURam,spu.spuMem,0x80000); // copy common infos + memcpy(pF->cSPUPort,spu.regArea,0x200); - if(xapGlobal && XAPlay!=XAFeed) // some xa + if(spu.xapGlobal && spu.XAPlay!=spu.XAFeed) // some xa { - pF->xaS=*xapGlobal; + xa_left = spu.XAFeed - spu.XAPlay; + if (xa_left < 0) + xa_left = spu.XAEnd - spu.XAPlay + spu.XAFeed - spu.XAStart; + pF->xaS = *spu.xapGlobal; } - else - memset(&pF->xaS,0,sizeof(xa_decode_t)); // or clean xa + else if (spu.CDDAPlay != spu.CDDAFeed) + { + // abuse the xa struct to store leftover cdda samples + unsigned int *p = spu.CDDAPlay; + cdda_left = spu.CDDAFeed - spu.CDDAPlay; + if (cdda_left < 0) + cdda_left = spu.CDDAEnd - spu.CDDAPlay + spu.CDDAFeed - spu.CDDAStart; + if (cdda_left > sizeof(pF->xaS.pcm) / 4) + cdda_left = sizeof(pF->xaS.pcm) / 4; + if (p + cdda_left <= spu.CDDAEnd) + memcpy(pF->xaS.pcm, p, cdda_left * 4); + else { + memcpy(pF->xaS.pcm, p, (spu.CDDAEnd - p) * 4); + memcpy((char *)pF->xaS.pcm + (spu.CDDAEnd - p) * 4, spu.CDDAStart, + (cdda_left - (spu.CDDAEnd - p)) * 4); + } + pF->xaS.nsamples = 0; + } + else + memset(&pF->xaS,0,sizeof(xa_decode_t)); // or clean xa pFO=(SPUOSSFreeze_t *)(pF+1); // store special stuff - pFO->spuIrq=spuIrq; - if(pSpuIrq) pFO->pSpuIrq = (unsigned long)pSpuIrq-(unsigned long)spuMemC; + pFO->spuIrq = spu.regArea[(H_SPUirqAddr - 0x0c00) / 2]; + if(spu.pSpuIrq) pFO->pSpuIrq = spu.pSpuIrq - spu.spuMemC; - pFO->spuAddr=spuAddr; + pFO->spuAddr=spu.spuAddr; if(pFO->spuAddr==0) pFO->spuAddr=0xbaadf00d; + pFO->decode_pos = spu.decode_pos; + pFO->rvb_cur = spu.rvb->CurrAddr; + pFO->xa_left = xa_left; + pFO->cdda_left = cdda_left; + pFO->cycles_played = spu.cycles_played; + pFO->cycles_dma_end = spu.cycles_dma_end; + pFO->decode_dirty_ch = spu.decode_dirty_ch; + pFO->dwNoiseVal = spu.dwNoiseVal; + pFO->dwNoiseCount = spu.dwNoiseCount; + pFO->XARepeat = spu.XARepeat; + pFO->XALastVal = spu.XALastVal; + pFO->last_keyon_cycles = spu.last_keyon_cycles; for(i=0;is_chan[i],(void *)&s_chan[i],sizeof(SPUCHAN)); - if(pFO->s_chan[i].pStart) - pFO->s_chan[i].pStart-=(unsigned long)spuMemC; - if(pFO->s_chan[i].pCurr) - pFO->s_chan[i].pCurr-=(unsigned long)spuMemC; - if(pFO->s_chan[i].pLoop) - pFO->s_chan[i].pLoop-=(unsigned long)spuMemC; + save_channel(&pFO->s_chan[i],&spu.s_chan[i],i); + if(spu.s_chan[i].pCurr) + pFO->s_chan[i].iCurr=spu.s_chan[i].pCurr-spu.spuMemC; + if(spu.s_chan[i].pLoop) + pFO->s_chan[i].iLoop=spu.s_chan[i].pLoop-spu.spuMemC; } - SetupTimer(); // sound processing on again - return 1; //--------------------------------------------------// } if(ulFreezeMode!=0) return 0; // bad mode? bye - RemoveTimer(); // we stop processing while doing the save! - - memcpy(spuMem,pF->cSPURam,0x80000); // get ram - memcpy(regArea,pF->cSPUPort,0x200); - - if(pF->xaS.nsamples<=4032) // start xa again - SPUplayADPCMchannel(&pF->xaS); - - xapGlobal=0; - - if(!strcmp(pF->szSPUName,"PBOSS") && pF->ulFreezeVersion==5) - LoadStateV5(pF); - else LoadStateUnknown(pF); - - lastch = -1; + memcpy(spu.spuMem,pF->cSPURam,0x80000); // get ram + memcpy(spu.regArea,pF->cSPUPort,0x200); + spu.bMemDirty = 1; + spu.spuCtrl = regAreaGet(H_SPUctrl); + spu.spuStat = regAreaGet(H_SPUstat); + + if (!strcmp(pF->szSPUName,"PBOSS") && pF->ulFreezeVersion==5) + pFO = LoadStateV5(pF, cycles); + else LoadStateUnknown(pF, cycles); + + spu.XAPlay = spu.XAFeed = spu.XAStart; + spu.CDDAPlay = spu.CDDAFeed = spu.CDDAStart; + spu.cdClearSamples = 512; + if (pFO && pFO->xa_left && pF->xaS.nsamples) { // start xa again + FeedXA(&pF->xaS); + spu.XAPlay = spu.XAFeed - pFO->xa_left; + if (spu.XAPlay < spu.XAStart) + spu.XAPlay = spu.XAStart; + } + else if (pFO && pFO->cdda_left) { // start cdda again + FeedCDDA((void *)pF->xaS.pcm, pFO->cdda_left * 4); + } + + // not in old savestates + spu.cycles_dma_end = 0; + spu.decode_dirty_ch = spu.dwChannelsAudible & 0x0a; + spu.dwNoiseVal = 0; + spu.dwNoiseCount = 0; + spu.XARepeat = 0; + spu.XALastVal = 0; + spu.last_keyon_cycles = cycles - 16*786u; + if (pFO && pF->ulFreezeSize >= sizeof(*pF) + sizeof(*pFO)) { + spu.cycles_dma_end = pFO->cycles_dma_end; + spu.decode_dirty_ch = pFO->decode_dirty_ch; + spu.dwNoiseVal = pFO->dwNoiseVal; + spu.dwNoiseCount = pFO->dwNoiseCount; + spu.XARepeat = pFO->XARepeat; + spu.XALastVal = pFO->XALastVal; + spu.last_keyon_cycles = pFO->last_keyon_cycles; + } // repair some globals for(i=0;i<=62;i+=2) - SPUwriteRegister(H_Reverb+i,regArea[(H_Reverb+i-0xc00)>>1]); - SPUwriteRegister(H_SPUReverbAddr,regArea[(H_SPUReverbAddr-0xc00)>>1]); - SPUwriteRegister(H_SPUrvolL,regArea[(H_SPUrvolL-0xc00)>>1]); - SPUwriteRegister(H_SPUrvolR,regArea[(H_SPUrvolR-0xc00)>>1]); - - SPUwriteRegister(H_SPUctrl,(unsigned short)(regArea[(H_SPUctrl-0xc00)>>1]|0x4000)); - SPUwriteRegister(H_SPUstat,regArea[(H_SPUstat-0xc00)>>1]); - SPUwriteRegister(H_CDLeft,regArea[(H_CDLeft-0xc00)>>1]); - SPUwriteRegister(H_CDRight,regArea[(H_CDRight-0xc00)>>1]); - + load_register(H_Reverb+i, cycles); + load_register(H_SPUReverbAddr, cycles); + load_register(H_SPUrvolL, cycles); + load_register(H_SPUrvolR, cycles); + load_register(H_CDLeft, cycles); + load_register(H_CDRight, cycles); + + // reverb + spu.rvb->StartAddr = regAreaGet(H_SPUReverbAddr) << 2; + if (spu.rvb->CurrAddr < spu.rvb->StartAddr) + spu.rvb->CurrAddr = spu.rvb->StartAddr; // fix to prevent new interpolations from crashing - for(i=0;ispuIrq; - if(pFO->pSpuIrq) pSpuIrq = pFO->pSpuIrq+spuMemC; else pSpuIrq=NULL; + spu.pSpuIrq = spu.spuMemC + ((spu.regArea[(H_SPUirqAddr - 0x0c00) / 2] << 3) & ~0xf); if(pFO->spuAddr) { - spuAddr = pFO->spuAddr; - if (spuAddr == 0xbaadf00d) spuAddr = 0; + if (pFO->spuAddr == 0xbaadf00d) spu.spuAddr = 0; + else spu.spuAddr = pFO->spuAddr & 0x7fffe; } + spu.decode_pos = pFO->decode_pos & 0x1ff; + spu.rvb->CurrAddr = pFO->rvb_cur; + spu.cycles_played = pFO->cycles_played ? pFO->cycles_played : cycles; + spu.dwNewChannel=0; + spu.dwChannelsAudible=0; + spu.dwChannelDead=0; for(i=0;is_chan[i],sizeof(SPUCHAN)); + load_channel(&spu.s_chan[i],&pFO->s_chan[i],i); - s_chan[i].pStart+=(unsigned long)spuMemC; - s_chan[i].pCurr+=(unsigned long)spuMemC; - s_chan[i].pLoop+=(unsigned long)spuMemC; - s_chan[i].iMute=0; - s_chan[i].iIrqDone=0; + spu.s_chan[i].pCurr+=(uintptr_t)spu.spuMemC; + spu.s_chan[i].pLoop+=(uintptr_t)spu.spuMemC; } + + return pFO; } //////////////////////////////////////////////////////////////////////// -void LoadStateUnknown(SPUFreeze_t * pF) +static void LoadStateUnknown(SPUFreeze_t * pF, uint32_t cycles) { int i; for(i=0;i