/** * Furnace Tracker - multi-system chiptune tracker * Copyright (C) 2021-2023 tildearrow and contributors * * 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. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #include "genesis.h" #include "../engine.h" #include "../../ta-log.h" #include #include #define CHIP_FREQBASE fmFreqBase #define CHIP_DIVIDER fmDivBase #define IS_REALLY_MUTED(x) (isMuted[x] && (x<5 || !softPCM || (isMuted[5] && isMuted[6]))) void DivYM2612Interface::ymfm_set_timer(uint32_t tnum, int32_t duration_in_clocks) { if (tnum==1) { setB=duration_in_clocks; } else if (tnum==0) { setA=duration_in_clocks; } } void DivYM2612Interface::clock() { if (setA>=0) { countA-=144; if (countA<0) { m_engine->engine_timer_expired(0); countA+=setA; } } if (setB>=0) { countB-=144; if (countB<0) { m_engine->engine_timer_expired(1); countB+=setB; } } } void DivPlatformGenesis::processDAC(int iRate) { if (softPCM) { softPCMTimer+=chipClock/576; if (softPCMTimer>iRate) { softPCMTimer-=iRate; int sample=0; for (int i=5; i<7; i++) { if (chan[i].dacSample!=-1) { DivSample* s=parent->getSample(chan[i].dacSample); if (!isMuted[i] && s->samples>0) { if (parent->song.noOPN2Vol) { chan[i].dacOutput=s->data8[chan[i].dacDirection?(s->samples-chan[i].dacPos-1):chan[i].dacPos]; } else { chan[i].dacOutput=(s->data8[chan[i].dacDirection?(s->samples-chan[i].dacPos-1):chan[i].dacPos]*dacVolTable[chan[i].outVol])>>7; } sample+=chan[i].dacOutput; } else { chan[i].dacOutput=0; } chan[i].dacPeriod+=chan[i].dacRate; if (chan[i].dacPeriod>=(chipClock/576)) { if (s->samples>0) { while (chan[i].dacPeriod>=(chipClock/576)) { ++chan[i].dacPos; if (!chan[i].dacDirection && (s->isLoopable() && chan[i].dacPos>=(unsigned int)s->loopEnd)) { chan[i].dacPos=s->loopStart; } else if (chan[i].dacPos>=s->samples) { chan[i].dacSample=-1; chan[i].dacPeriod=0; break; } chan[i].dacPeriod-=(chipClock/576); } } else { chan[i].dacSample=-1; } } } } //sample>>=1; if (sample<-128) sample=-128; if (sample>127) sample=127; urgentWrite(0x2a,(unsigned char)sample+0x80); } } else { if (!chan[5].dacReady) { chan[5].dacDelay+=32000; if (chan[5].dacDelay>=iRate) { chan[5].dacDelay-=iRate; chan[5].dacReady=true; } } if (chan[5].dacMode && chan[5].dacSample!=-1) { chan[5].dacPeriod+=chan[5].dacRate; if (chan[5].dacPeriod>=iRate) { DivSample* s=parent->getSample(chan[5].dacSample); if (s->samples>0) { if (!isMuted[5]) { if (chan[5].dacReady && writes.size()<16) { int sample; if (parent->song.noOPN2Vol) { sample=s->data8[chan[5].dacDirection?(s->samples-chan[5].dacPos-1):chan[5].dacPos]; } else { sample=(s->data8[chan[5].dacDirection?(s->samples-chan[5].dacPos-1):chan[5].dacPos]*dacVolTable[chan[5].outVol])>>7; } urgentWrite(0x2a,(unsigned char)sample+0x80); chan[5].dacReady=false; } } chan[5].dacPos++; if (!chan[5].dacDirection && (s->isLoopable() && chan[5].dacPos>=(unsigned int)s->loopEnd)) { chan[5].dacPos=s->loopStart; } else if (chan[5].dacPos>=s->samples) { chan[5].dacSample=-1; if (parent->song.brokenDACMode) { rWrite(0x2b,0); } } while (chan[5].dacPeriod>=iRate) chan[5].dacPeriod-=iRate; } else { chan[5].dacSample=-1; } } } } } void DivPlatformGenesis::acquire_nuked(short** buf, size_t len) { static short o[2]; static int os[2]; for (size_t h=0; h>8)<<1),w.val); lastBusy=0; regPool[w.addr&0x1ff]=w.val; writes.pop_front(); } else { lastBusy++; if (fm.write_busy==0) { OPN2_Write(&fm,0x0+((w.addr>>8)<<1),w.addr); w.addrOrVal=true; } } } } else { flushFirst=false; } OPN2_Clock(&fm,o); os[0]+=o[0]; os[1]+=o[1]; //OPN2_Write(&fm,0,0); if (i==5) { if (fm.dacen) { if (softPCM) { oscBuf[5]->data[oscBuf[5]->needle++]=chan[5].dacOutput<<7; oscBuf[6]->data[oscBuf[6]->needle++]=chan[6].dacOutput<<7; } else { oscBuf[i]->data[oscBuf[i]->needle++]=fm.dacdata<<7; } } else { oscBuf[i]->data[oscBuf[i]->needle++]=fm.ch_out[i]<<7; } } else { oscBuf[i]->data[oscBuf[i]->needle++]=fm.ch_out[i]<<7; } } if (chipType!=2) os[0]=(os[0]<<5); if (os[0]<-32768) os[0]=-32768; if (os[0]>32767) os[0]=32767; if (chipType!=2) os[1]=(os[1]<<5); if (os[1]<-32768) os[1]=-32768; if (os[1]>32767) os[1]=32767; buf[0][h]=os[0]; buf[1][h]=os[1]; } } void DivPlatformGenesis::acquire_ymfm(short** buf, size_t len) { static int os[2]; ymfm::ym2612::fm_engine* fme=fm_ymfm->debug_engine(); for (size_t h=0; hwrite(0x0+((w.addr>>8)<<1),w.addr); fm_ymfm->write(0x1+((w.addr>>8)<<1),w.val); regPool[w.addr&0x1ff]=w.val; writes.pop_front(); lastBusy=1; } else { flushFirst=false; } if (chipType==1) { fm_ymfm->generate(&out_ymfm); } else { ((ymfm::ym3438*)fm_ymfm)->generate(&out_ymfm); } iface.clock(); os[0]=out_ymfm.data[0]; os[1]=out_ymfm.data[1]; //OPN2_Write(&fm,0,0); for (int i=0; i<6; i++) { int chOut=(fme->debug_channel(i)->debug_output(0)+fme->debug_channel(i)->debug_output(1))<<6; if (chOut<-32768) chOut=-32768; if (chOut>32767) chOut=32767; if (i==5) { if (fm_ymfm->debug_dac_enable()) { if (softPCM) { oscBuf[5]->data[oscBuf[5]->needle++]=chan[5].dacOutput<<7; oscBuf[6]->data[oscBuf[6]->needle++]=chan[6].dacOutput<<7; } else { oscBuf[i]->data[oscBuf[i]->needle++]=fm_ymfm->debug_dac_data()<<7; } } else { oscBuf[i]->data[oscBuf[i]->needle++]=chOut; } } else { oscBuf[i]->data[oscBuf[i]->needle++]=chOut; } } if (os[0]<-32768) os[0]=-32768; if (os[0]>32767) os[0]=32767; if (os[1]<-32768) os[1]=-32768; if (os[1]>32767) os[1]=32767; buf[0][h]=os[0]; buf[1][h]=os[1]; } } void DivPlatformGenesis::acquire(short** buf, size_t len) { if (useYMFM) { acquire_ymfm(buf,len); } else { acquire_nuked(buf,len); } } void DivPlatformGenesis::fillStream(std::vector& stream, int sRate, size_t len) { while (!writes.empty()) writes.pop_front(); for (size_t i=0; i0) { inVol+=63; } chan[i].outVol=VOL_SCALE_LOG_BROKEN(chan[i].vol,MIN(127,inVol),127); if (i<6) for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[i]|opOffs[j]; DivInstrumentFM::Operator& op=chan[i].state.op[j]; if (isMuted[i] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(i,j)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[i].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } } } if (i>=5 && chan[i].furnaceDac) { if (NEW_ARP_STRAT) { chan[i].handleArp(); } else if (chan[i].std.arp.had) { if (!chan[i].inPorta) { chan[i].baseFreq=parent->calcBaseFreq(1,1,parent->calcArp(chan[i].note,chan[i].std.arp.val),false); } chan[i].freqChanged=true; } } else { if (NEW_ARP_STRAT) { chan[i].handleArp(); } else if (chan[i].std.arp.had) { if (!chan[i].inPorta) { chan[i].baseFreq=NOTE_FNUM_BLOCK(parent->calcArp(chan[i].note,chan[i].std.arp.val),11); } chan[i].freqChanged=true; } } if (i>=5 && chan[i].furnaceDac) { if (chan[i].std.panL.had) { chan[5].pan&=1; chan[5].pan|=chan[i].std.panL.val?2:0; } if (chan[i].std.panR.had) { chan[5].pan&=2; chan[5].pan|=chan[i].std.panR.val?1:0; } if (chan[i].std.panL.had || chan[i].std.panR.had) { rWrite(chanOffs[5]+ADDR_LRAF,(IS_REALLY_MUTED(i)?0:(chan[5].pan<<6))|(chan[5].state.fms&7)|((chan[5].state.ams&3)<<4)); } } else { if (chan[i].std.panL.had) { chan[i].pan=chan[i].std.panL.val&3; if (i<6) { rWrite(chanOffs[i]+ADDR_LRAF,(IS_REALLY_MUTED(i)?0:(chan[i].pan<<6))|(chan[i].state.fms&7)|((chan[i].state.ams&3)<<4)); } } } if (chan[i].std.pitch.had) { if (chan[i].std.pitch.mode) { chan[i].pitch2+=chan[i].std.pitch.val; CLAMP_VAR(chan[i].pitch2,-1048576,1048575); } else { chan[i].pitch2=chan[i].std.pitch.val; } chan[i].freqChanged=true; } if (i>=5 && chan[i].std.phaseReset.had) { if (chan[i].std.phaseReset.val==1 && chan[i].furnaceDac) { chan[i].dacPos=0; } } if (i>=6) continue; if (chan[i].std.phaseReset.had) { if (chan[i].std.phaseReset.val==1 && chan[i].active) { chan[i].keyOn=true; } } if (chan[i].std.alg.had) { chan[i].state.alg=chan[i].std.alg.val; rWrite(chanOffs[i]+ADDR_FB_ALG,(chan[i].state.alg&7)|(chan[i].state.fb<<3)); if (!parent->song.algMacroBehavior) for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[i]|opOffs[j]; DivInstrumentFM::Operator& op=chan[i].state.op[j]; if (isMuted[i] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(i,j)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[i].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } } } if (chan[i].std.fb.had) { chan[i].state.fb=chan[i].std.fb.val; rWrite(chanOffs[i]+ADDR_FB_ALG,(chan[i].state.alg&7)|(chan[i].state.fb<<3)); } if (chan[i].std.fms.had) { chan[i].state.fms=chan[i].std.fms.val; rWrite(chanOffs[i]+ADDR_LRAF,(IS_REALLY_MUTED(i)?0:(chan[i].pan<<6))|(chan[i].state.fms&7)|((chan[i].state.ams&3)<<4)); } if (chan[i].std.ams.had) { chan[i].state.ams=chan[i].std.ams.val; rWrite(chanOffs[i]+ADDR_LRAF,(IS_REALLY_MUTED(i)?0:(chan[i].pan<<6))|(chan[i].state.fms&7)|((chan[i].state.ams&3)<<4)); } if (chan[i].std.ex3.had) { lfoValue=(chan[i].std.ex3.val>7)?0:(8|(chan[i].std.ex3.val&7)); rWrite(0x22,lfoValue); } if (chan[i].std.ex4.had && chan[i].active) { chan[i].opMask=chan[i].std.ex4.val&15; chan[i].opMaskChanged=true; } for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[i]|opOffs[j]; DivInstrumentFM::Operator& op=chan[i].state.op[j]; DivMacroInt::IntOp& m=chan[i].std.op[j]; if (m.am.had) { op.am=m.am.val; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } if (m.ar.had) { op.ar=m.ar.val; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } if (m.dr.had) { op.dr=m.dr.val; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } if (m.mult.had) { op.mult=m.mult.val; rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); } if (m.rr.had) { op.rr=m.rr.val; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } if (m.sl.had) { op.sl=m.sl.val; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } if (m.tl.had) { op.tl=127-m.tl.val; if (isMuted[i] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(i,j)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[i].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } } if (m.rs.had) { op.rs=m.rs.val; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } if (m.dt.had) { op.dt=m.dt.val; rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); } if (m.d2r.had) { op.d2r=m.d2r.val; rWrite(baseAddr+ADDR_DT2_D2R,op.d2r&31); } if (m.ssg.had) { op.ssgEnv=m.ssg.val; rWrite(baseAddr+ADDR_SSG,op.ssgEnv&15); } } } for (int i=0; i<512; i++) { if (pendingWrites[i]!=oldWrites[i]) { if (i==0x2b && pendingWrites[i]!=0 && !parent->song.brokenDACMode) { if (chan[5].keyOn) chan[5].keyOn=false; chan[5].keyOff=true; } immWrite(i,pendingWrites[i]&0xff); oldWrites[i]=pendingWrites[i]; } } int hardResetElapsed=0; bool mustHardReset=false; for (int i=0; i<6; i++) { if (i==2 && extMode) continue; if (chan[i].keyOn || chan[i].keyOff) { immWrite(0x28,0x00|konOffs[i]); if (chan[i].hardReset && chan[i].keyOn) { mustHardReset=true; for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[i]|opOffs[j]; immWrite(baseAddr+ADDR_SL_RR,0x0f); hardResetElapsed++; } } chan[i].keyOff=false; } } for (int i=0; isong.linearPitch==2) { chan[i].freq=parent->calcFreq(chan[i].baseFreq,chan[i].pitch,chan[i].fixedArp?chan[i].baseNoteOverride:chan[i].arpOff,chan[i].fixedArp,false,2,chan[i].pitch2,chipClock,CHIP_FREQBASE,11); } else { int fNum=parent->calcFreq(chan[i].baseFreq&0x7ff,chan[i].pitch,chan[i].fixedArp?chan[i].baseNoteOverride:chan[i].arpOff,chan[i].fixedArp,false,2,chan[i].pitch2,chipClock,CHIP_FREQBASE,11); int block=(chan[i].baseFreq&0xf800)>>11; if (fNum<0) fNum=0; if (fNum>2047) { while (block<7) { fNum>>=1; block++; } if (fNum>2047) fNum=2047; } chan[i].freq=(block<<11)|fNum; } if (chan[i].freq>0x3fff) chan[i].freq=0x3fff; if (i<6) { immWrite(chanOffs[i]+ADDR_FREQH,chan[i].freq>>8); immWrite(chanOffs[i]+ADDR_FREQ,chan[i].freq&0xff); hardResetElapsed+=2; } if (chan[i].furnaceDac && chan[i].dacMode) { double off=1.0; if (chan[i].dacSample>=0 && chan[i].dacSamplesong.sampleLen) { DivSample* s=parent->getSample(chan[i].dacSample); if (s->centerRate<1) { off=1.0; } else { off=(double)s->centerRate/8363.0; } } chan[i].freq=parent->calcFreq(chan[i].baseFreq,chan[i].pitch,chan[i].fixedArp?chan[i].baseNoteOverride:chan[i].arpOff,chan[i].fixedArp,false,2,chan[i].pitch2,1,1); chan[i].dacRate=chan[i].freq*off; if (chan[i].dacRate<1) chan[i].dacRate=1; if (dumpWrites) addWrite(0xffff0001,chan[i].dacRate); } chan[i].freqChanged=false; } if ((chan[i].keyOn || chan[i].opMaskChanged) && !chan[i].hardReset) { if (i<6) { immWrite(0x28,(chan[i].opMask<<4)|konOffs[i]); hardResetElapsed++; } chan[i].opMaskChanged=false; chan[i].keyOn=false; } } // hard reset handling if (mustHardReset) { for (unsigned int i=hardResetElapsed; i6) return; if (ch<6) { for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[ch]|opOffs[j]; DivInstrumentFM::Operator& op=chan[ch].state.op[j]; if (isMuted[ch] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(ch,j)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[ch].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } } } else { ch--; } rWrite(chanOffs[ch]+ADDR_LRAF,(IS_REALLY_MUTED(ch)?0:(chan[ch].pan<<6))|(chan[ch].state.fms&7)|((chan[ch].state.ams&3)<<4)); } void DivPlatformGenesis::commitState(int ch, DivInstrument* ins) { if (chan[ch].insChanged) { chan[ch].state=ins->fm; chan[ch].opMask= (chan[ch].state.op[0].enable?1:0)| (chan[ch].state.op[2].enable?2:0)| (chan[ch].state.op[1].enable?4:0)| (chan[ch].state.op[3].enable?8:0); } for (int i=0; i<4; i++) { unsigned short baseAddr=chanOffs[ch]|opOffs[i]; DivInstrumentFM::Operator& op=chan[ch].state.op[i]; if (isMuted[ch] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(ch,i)) { if (!chan[ch].active || chan[ch].insChanged) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[ch].outVol&0x7f,127)); } } else { if (chan[ch].insChanged) { rWrite(baseAddr+ADDR_TL,op.tl); } } } if (chan[ch].insChanged) { rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); rWrite(baseAddr+ADDR_DT2_D2R,op.d2r&31); rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); rWrite(baseAddr+ADDR_SSG,op.ssgEnv&15); } } if (chan[ch].insChanged) { rWrite(chanOffs[ch]+ADDR_FB_ALG,(chan[ch].state.alg&7)|(chan[ch].state.fb<<3)); rWrite(chanOffs[ch]+ADDR_LRAF,(IS_REALLY_MUTED(ch)?0:(chan[ch].pan<<6))|(chan[ch].state.fms&7)|((chan[ch].state.ams&3)<<4)); } } int DivPlatformGenesis::dispatch(DivCommand c) { switch (c.cmd) { case DIV_CMD_NOTE_ON: { DivInstrument* ins=parent->getIns(chan[c.chan].ins,DIV_INS_FM); if (c.chan==csmChan && extMode) { // CSM chan[c.chan].macroInit(ins); chan[c.chan].insChanged=false; if (c.value!=DIV_NOTE_NULL) { chan[c.chan].baseFreq=NOTE_PERIODIC(c.value); chan[c.chan].portaPause=false; chan[c.chan].note=c.value; chan[c.chan].freqChanged=true; } chan[c.chan].keyOn=true; chan[c.chan].active=true; break; } if (c.chan>=5) { if (ins->type==DIV_INS_AMIGA) { chan[c.chan].dacMode=1; rWrite(0x2b,1<<7); } else if (chan[c.chan].furnaceDac) { chan[c.chan].dacMode=0; rWrite(0x2b,0<<7); } else if (!chan[c.chan].dacMode) { rWrite(0x2b,0<<7); } } if (c.chan>=5 && chan[c.chan].dacMode) { //if (skipRegisterWrites) break; if (ins->type==DIV_INS_AMIGA) { // Furnace mode if (c.value!=DIV_NOTE_NULL) chan[c.chan].dacSample=ins->amiga.getSample(c.value); if (chan[c.chan].dacSample<0 || chan[c.chan].dacSample>=parent->song.sampleLen) { chan[c.chan].dacSample=-1; if (dumpWrites) addWrite(0xffff0002,0); break; } else { rWrite(0x2b,1<<7); if (dumpWrites) { addWrite(0xffff0000,chan[c.chan].dacSample); addWrite(0xffff0003,chan[c.chan].dacDirection); } } chan[c.chan].dacPos=0; chan[c.chan].dacPeriod=0; if (c.value!=DIV_NOTE_NULL) { chan[c.chan].baseFreq=parent->calcBaseFreq(1,1,c.value,false); chan[c.chan].portaPause=false; chan[c.chan].note=c.value; chan[c.chan].freqChanged=true; } chan[c.chan].furnaceDac=true; chan[c.chan].macroInit(ins); if (!chan[c.chan].std.vol.will) { chan[c.chan].outVol=chan[c.chan].vol; } // ??? //chan[c.chan].keyOn=true; chan[c.chan].active=true; } else { // compatible mode if (c.value!=DIV_NOTE_NULL) { chan[c.chan].note=c.value; } chan[c.chan].dacSample=12*chan[c.chan].sampleBank+chan[c.chan].note%12; if (chan[c.chan].dacSample>=parent->song.sampleLen) { chan[c.chan].dacSample=-1; if (dumpWrites) addWrite(0xffff0002,0); break; } else { rWrite(0x2b,1<<7); if (dumpWrites) addWrite(0xffff0000,chan[c.chan].dacSample); } chan[c.chan].dacPos=0; chan[c.chan].dacPeriod=0; chan[c.chan].dacRate=MAX(1,parent->getSample(chan[c.chan].dacSample)->rate); if (dumpWrites) addWrite(0xffff0001,parent->getSample(chan[c.chan].dacSample)->rate); chan[c.chan].furnaceDac=false; } break; } if (c.chan>=6) break; chan[c.chan].macroInit(ins); if (!chan[c.chan].std.vol.will) { chan[c.chan].outVol=chan[c.chan].vol; } commitState(c.chan,ins); chan[c.chan].insChanged=false; if (c.value!=DIV_NOTE_NULL) { chan[c.chan].baseFreq=NOTE_FNUM_BLOCK(c.value,11); chan[c.chan].portaPause=false; chan[c.chan].note=c.value; chan[c.chan].freqChanged=true; } chan[c.chan].keyOn=true; chan[c.chan].active=true; break; } case DIV_CMD_NOTE_OFF: if (c.chan>=5 && c.chansong.brokenDACMode) { rWrite(0x2b,0); if (chan[c.chan].dacMode) break; } } chan[c.chan].keyOff=true; chan[c.chan].keyOn=false; chan[c.chan].active=false; break; case DIV_CMD_NOTE_OFF_ENV: if (c.chan>=5) { chan[c.chan].dacSample=-1; if (dumpWrites) addWrite(0xffff0002,0); } chan[c.chan].keyOff=true; chan[c.chan].keyOn=false; chan[c.chan].active=false; chan[c.chan].std.release(); break; case DIV_CMD_ENV_RELEASE: chan[c.chan].std.release(); break; case DIV_CMD_VOLUME: { chan[c.chan].vol=c.value; if (!chan[c.chan].std.vol.has) { chan[c.chan].outVol=c.value; } if (c.chan>=6) break; for (int i=0; i<4; i++) { unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; if (isMuted[c.chan] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(c.chan,i)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[c.chan].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } } break; } case DIV_CMD_GET_VOLUME: { return chan[c.chan].vol; break; } case DIV_CMD_INSTRUMENT: if (chan[c.chan].ins!=c.value || c.value2==1) { chan[c.chan].insChanged=true; } chan[c.chan].ins=c.value; break; case DIV_CMD_PANNING: { if (c.chan>5) c.chan=5; if (c.value==0 && c.value2==0) { chan[c.chan].pan=3; } else { chan[c.chan].pan=(c.value2>0)|((c.value>0)<<1); } rWrite(chanOffs[c.chan]+ADDR_LRAF,(IS_REALLY_MUTED(c.chan)?0:(chan[c.chan].pan<<6))|(chan[c.chan].state.fms&7)|((chan[c.chan].state.ams&3)<<4)); break; } case DIV_CMD_PITCH: { chan[c.chan].pitch=c.value; chan[c.chan].freqChanged=true; break; } case DIV_CMD_NOTE_PORTA: { if (parent->song.linearPitch==2) { int destFreq=NOTE_FREQUENCY(c.value2); bool return2=false; if (destFreq>chan[c.chan].baseFreq) { chan[c.chan].baseFreq+=c.value; if (chan[c.chan].baseFreq>=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } else { chan[c.chan].baseFreq-=c.value; if (chan[c.chan].baseFreq<=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } chan[c.chan].freqChanged=true; if (return2) { chan[c.chan].inPorta=false; return 2; } break; } if (c.chan==csmChan) { int destFreq=NOTE_PERIODIC(c.value2); bool return2=false; if (destFreq>chan[c.chan].baseFreq) { chan[c.chan].baseFreq+=c.value; if (chan[c.chan].baseFreq>=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } else { chan[c.chan].baseFreq-=c.value; if (chan[c.chan].baseFreq<=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } chan[c.chan].freqChanged=true; if (return2) { chan[c.chan].inPorta=false; return 2; } break; } if (c.chan>=5 && chan[c.chan].furnaceDac && chan[c.chan].dacMode) { int destFreq=parent->calcBaseFreq(1,1,c.value2,false); bool return2=false; if (destFreq>chan[c.chan].baseFreq) { chan[c.chan].baseFreq+=c.value*16; if (chan[c.chan].baseFreq>=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } else { chan[c.chan].baseFreq-=c.value*16; if (chan[c.chan].baseFreq<=destFreq) { chan[c.chan].baseFreq=destFreq; return2=true; } } chan[c.chan].freqChanged=true; if (return2) { chan[c.chan].inPorta=false; return 2; } break; } PLEASE_HELP_ME(chan[c.chan]); break; } case DIV_CMD_SAMPLE_MODE: { if (c.chan<5) c.chan=5; chan[c.chan].dacMode=c.value; rWrite(0x2b,c.value<<7); break; } case DIV_CMD_SAMPLE_BANK: if (c.chan<5) c.chan=5; chan[c.chan].sampleBank=c.value; if (chan[c.chan].sampleBank>(parent->song.sample.size()/12)) { chan[c.chan].sampleBank=parent->song.sample.size()/12; } break; case DIV_CMD_SAMPLE_DIR: { if (c.chan<5) c.chan=5; chan[c.chan].dacDirection=c.value; if (dumpWrites) addWrite(0xffff0003,chan[c.chan].dacDirection); break; } case DIV_CMD_LEGATO: { if (c.chan==csmChan) { chan[c.chan].baseFreq=NOTE_PERIODIC(c.value); } else if (c.chan>=5 && chan[c.chan].furnaceDac && chan[c.chan].dacMode) { chan[c.chan].baseFreq=parent->calcBaseFreq(1,1,c.value,false); } else { if (chan[c.chan].insChanged) { DivInstrument* ins=parent->getIns(chan[c.chan].ins,DIV_INS_FM); commitState(c.chan,ins); chan[c.chan].insChanged=false; } chan[c.chan].baseFreq=NOTE_FNUM_BLOCK(c.value,11); } chan[c.chan].note=c.value; chan[c.chan].freqChanged=true; break; } case DIV_CMD_FM_EXTCH: { if (extSys) { extMode=c.value; immWrite(0x27,extMode?0x40:0); } break; } case DIV_CMD_FM_LFO: { if (c.chan>=6) break; lfoValue=(c.value&7)|((c.value>>4)<<3); rWrite(0x22,lfoValue); break; } case DIV_CMD_FM_FB: { if (c.chan>=6) break; chan[c.chan].state.fb=c.value&7; rWrite(chanOffs[c.chan]+ADDR_FB_ALG,(chan[c.chan].state.alg&7)|(chan[c.chan].state.fb<<3)); break; } case DIV_CMD_FM_MULT: { if (c.chan>=6) break; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.mult=c.value2&15; rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); break; } case DIV_CMD_FM_TL: { if (c.chan>=6) break; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.tl=c.value2; if (isMuted[c.chan] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(c.chan,c.value)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[c.chan].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } break; } case DIV_CMD_FM_AR: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.ar=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.ar=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } break; } case DIV_CMD_FM_RS: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.rs=c.value2&3; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.rs=c.value2&3; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); } break; } case DIV_CMD_FM_AM: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.am=c.value2&1; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.am=c.value2&1; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } break; } case DIV_CMD_FM_DR: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.dr=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.dr=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); } break; } case DIV_CMD_FM_SL: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.sl=c.value2&15; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.sl=c.value2&15; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } break; } case DIV_CMD_FM_RR: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.rr=c.value2&15; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.rr=c.value2&15; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); } break; } case DIV_CMD_FM_D2R: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.d2r=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_DT2_D2R,op.d2r&31); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.d2r=c.value2&31; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_DT2_D2R,op.d2r&31); } break; } case DIV_CMD_FM_DT: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.dt=c.value&7; unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.dt=c.value2&7; unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); } break; } case DIV_CMD_FM_SSG: { if (c.chan>=6) break; if (c.value<0) { for (int i=0; i<4; i++) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[i]; op.ssgEnv=8^(c.value2&15); unsigned short baseAddr=chanOffs[c.chan]|opOffs[i]; rWrite(baseAddr+ADDR_SSG,op.ssgEnv&15); } } else if (c.value<4) { DivInstrumentFM::Operator& op=chan[c.chan].state.op[orderedOps[c.value]]; op.ssgEnv=8^(c.value2&15); unsigned short baseAddr=chanOffs[c.chan]|opOffs[orderedOps[c.value]]; rWrite(baseAddr+ADDR_SSG,op.ssgEnv&15); } break; } case DIV_CMD_FM_HARD_RESET: if (c.chan>=6) break; chan[c.chan].hardReset=c.value; break; case DIV_CMD_MACRO_OFF: chan[c.chan].std.mask(c.value,true); break; case DIV_CMD_MACRO_ON: chan[c.chan].std.mask(c.value,false); break; case DIV_ALWAYS_SET_VOLUME: return 0; break; case DIV_CMD_GET_VOLMAX: return 127; break; case DIV_CMD_PRE_PORTA: chan[c.chan].inPorta=c.value; break; case DIV_CMD_PRE_NOTE: break; default: //printf("WARNING: unimplemented command %d\n",c.cmd); break; } return 1; } void DivPlatformGenesis::forceIns() { for (int i=0; i<6; i++) { for (int j=0; j<4; j++) { unsigned short baseAddr=chanOffs[i]|opOffs[j]; DivInstrumentFM::Operator& op=chan[i].state.op[j]; if (isMuted[i] || !op.enable) { rWrite(baseAddr+ADDR_TL,127); } else { if (KVS(i,j)) { rWrite(baseAddr+ADDR_TL,127-VOL_SCALE_LOG_BROKEN(127-op.tl,chan[i].outVol&0x7f,127)); } else { rWrite(baseAddr+ADDR_TL,op.tl); } } rWrite(baseAddr+ADDR_MULT_DT,(op.mult&15)|(dtTable[op.dt&7]<<4)); rWrite(baseAddr+ADDR_RS_AR,(op.ar&31)|(op.rs<<6)); rWrite(baseAddr+ADDR_AM_DR,(op.dr&31)|(op.am<<7)); rWrite(baseAddr+ADDR_DT2_D2R,op.d2r&31); rWrite(baseAddr+ADDR_SL_RR,(op.rr&15)|(op.sl<<4)); rWrite(baseAddr+ADDR_SSG,op.ssgEnv&15); } rWrite(chanOffs[i]+ADDR_FB_ALG,(chan[i].state.alg&7)|(chan[i].state.fb<<3)); rWrite(chanOffs[i]+ADDR_LRAF,(IS_REALLY_MUTED(i)?0:(chan[i].pan<<6))|(chan[i].state.fms&7)|((chan[i].state.ams&3)<<4)); if (chan[i].active) { if (i<5 || !chan[i].dacMode) { chan[i].keyOn=true; chan[i].freqChanged=true; } } } immWrite(0x2b,0x00); //rWrite(0x2a,0x00); if (chan[5].dacMode) { chan[5].dacSample=-1; chan[6].dacSample=-1; } immWrite(0x22,lfoValue); flushFirst=true; } void DivPlatformGenesis::toggleRegisterDump(bool enable) { DivDispatch::toggleRegisterDump(enable); } void* DivPlatformGenesis::getChanState(int ch) { return &chan[ch]; } DivMacroInt* DivPlatformGenesis::getChanMacroInt(int ch) { return &chan[ch].std; } DivDispatchOscBuffer* DivPlatformGenesis::getOscBuffer(int ch) { return oscBuf[ch]; } unsigned char* DivPlatformGenesis::getRegisterPool() { return regPool; } int DivPlatformGenesis::getRegisterPoolSize() { return 512; } float DivPlatformGenesis::getPostAmp() { return 2.0f; } void DivPlatformGenesis::reset() { while (!writes.empty()) writes.pop_front(); memset(regPool,0,512); if (useYMFM) { fm_ymfm->reset(); } OPN2_Reset(&fm); switch (chipType) { case 1: // YM2612 OPN2_SetChipType(&fm,ym3438_mode_ym2612); break; case 2: // YMF276 OPN2_SetChipType(&fm,ym3438_mode_opn); break; default: // YM3438 OPN2_SetChipType(&fm,0); break; } if (dumpWrites) { addWrite(0xffffffff,0); } for (int i=0; i<10; i++) { chan[i]=DivPlatformGenesis::Channel(); chan[i].std.setEngine(parent); chan[i].vol=0x7f; chan[i].outVol=0x7f; } for (int i=0; i<512; i++) { oldWrites[i]=-1; pendingWrites[i]=-1; } lastBusy=60; lfoValue=8; softPCMTimer=0; extMode=false; flushFirst=false; if (softPCM) { chan[5].dacMode=true; chan[6].dacMode=true; } // normal sample direction if (dumpWrites) addWrite(0xffff0003,0); // LFO immWrite(0x22,lfoValue); delay=0; } int DivPlatformGenesis::getOutputCount() { return 2; } bool DivPlatformGenesis::keyOffAffectsArp(int ch) { return (ch>5); } bool DivPlatformGenesis::keyOffAffectsPorta(int ch) { return (ch>5); } void DivPlatformGenesis::notifyInsChange(int ins) { for (int i=0; i<10; i++) { if (chan[i].ins==ins) { chan[i].insChanged=true; } } } void DivPlatformGenesis::notifyInsDeletion(void* ins) { for (int i=0; i<10; i++) { chan[i].std.notifyInsDeletion((DivInstrument*)ins); } } void DivPlatformGenesis::poke(unsigned int addr, unsigned short val) { immWrite(addr,val); } void DivPlatformGenesis::poke(std::vector& wlist) { for (DivRegWrite& i: wlist) immWrite(i.addr,i.val); } int DivPlatformGenesis::getPortaFloor(int ch) { return 0; } void DivPlatformGenesis::setYMFM(bool use) { useYMFM=use; } void DivPlatformGenesis::setSoftPCM(bool value) { softPCM=value; } void DivPlatformGenesis::setFlags(const DivConfig& flags) { switch (flags.getInt("clockSel",0)) { case 1: chipClock=COLOR_PAL*12.0/7.0; break; case 2: chipClock=8000000.0; break; case 3: chipClock=COLOR_NTSC*12.0/7.0; break; case 4: chipClock=COLOR_NTSC*9.0/4.0; break; default: chipClock=COLOR_NTSC*15.0/7.0; break; } if (flags.has("chipType")) { chipType=flags.getInt("chipType",0); } else { chipType=flags.getBool("ladderEffect",false)?1:0; } noExtMacros=flags.getBool("noExtMacros",false); fbAllOps=flags.getBool("fbAllOps",false); switch (chipType) { case 1: // YM2612 OPN2_SetChipType(&fm,ym3438_mode_ym2612); break; case 2: // YMF276 OPN2_SetChipType(&fm,ym3438_mode_opn); break; default: // YM3438 OPN2_SetChipType(&fm,0); break; } CHECK_CUSTOM_CLOCK; if (useYMFM) { if (fm_ymfm!=NULL) delete fm_ymfm; if (chipType==1) { fm_ymfm=new ymfm::ym2612(iface); } else { fm_ymfm=new ymfm::ym3438(iface); } rate=chipClock/144; } else { rate=chipClock/36; } for (int i=0; i<10; i++) { oscBuf[i]->rate=rate; } } int DivPlatformGenesis::init(DivEngine* p, int channels, int sugRate, const DivConfig& flags) { parent=p; dumpWrites=false; chipType=0; skipRegisterWrites=false; flushFirst=false; for (int i=0; i<10; i++) { isMuted[i]=false; oscBuf[i]=new DivDispatchOscBuffer; } fm_ymfm=NULL; setFlags(flags); for (int i=0; i<128; i++) { dacVolTable[127-i]=128*pow(10.0f,(float)(-i)*0.75f/20.0f); } dacVolTable[0]=0; reset(); return 10; } void DivPlatformGenesis::quit() { for (int i=0; i<10; i++) { delete oscBuf[i]; } if (fm_ymfm!=NULL) delete fm_ymfm; } DivPlatformGenesis::~DivPlatformGenesis() { }