auto CPU::read(uint32 addr) -> uint8 { auto dma = [&]() -> Registers::DMA& { return regs.dma[addr / 12 & 3]; }; auto timer = [&]() -> Registers::Timer& { return regs.timer[addr.bits(2,3)]; }; switch(addr) { //DMA0CNT_H, DMA1CNT_H, DMA2CNT_H, DMA3CNT_H case 0x0400'00ba: case 0x0400'00c6: case 0x0400'00d2: case 0x0400'00de: return ( dma().control.targetmode << 5 | dma().control.sourcemode.bit(0) << 7 ); case 0x0400'00bb: case 0x0400'00c7: case 0x0400'00d3: case 0x0400'00df: return ( dma().control.sourcemode.bit(1) << 0 | dma().control.repeat << 1 | dma().control.size << 2 | dma().control.drq << 3 | dma().control.timingmode << 4 | dma().control.irq << 6 | dma().control.enable << 7 ); //TM0CNT_L, TM1CNT_L, TM2CNT_L, TM3CNT_L case 0x0400'0100: case 0x0400'0104: case 0x0400'0108: case 0x0400'010c: return timer().period.byte(0); case 0x0400'0101: case 0x0400'0105: case 0x0400'0109: case 0x0400'010d: return timer().period.byte(1); //TM0CNT_H, TM1CNT_H, TM2CNT_H, TM3CNT_H case 0x0400'0102: case 0x0400'0106: case 0x0400'010a: case 0x0400'010e: return ( timer().control.frequency << 0 | timer().control.cascade << 2 | timer().control.irq << 6 | timer().control.enable << 7 ); case 0x0400'0103: case 0x0400'0107: case 0x0400'010b: case 0x0400'010f: return 0; //SIOMULTI0 (SIODATA32_L), SIOMULTI1 (SIODATA32_H), SIOMULTI2, SIOMULTI3 case 0x0400'0120: case 0x0400'0122: case 0x0400'0124: case 0x0400'0126: { if(auto data = player.read()) return data().byte(addr.bits(0,1)); return regs.serial.data[addr.bits(1,2)].byte(0); } case 0x0400'0121: case 0x0400'0123: case 0x0400'0125: case 0x0400'0127: { if(auto data = player.read()) return data().byte(addr.bits(0,1)); return regs.serial.data[addr.bits(1,2)].byte(1); } //SIOCNT case 0x0400'0128: return ( regs.serial.control.shiftclockselect << 0 | regs.serial.control.shiftclockfrequency << 1 | regs.serial.control.transferenablereceive << 2 | regs.serial.control.transferenablesend << 3 | regs.serial.control.startbit << 7 ); case 0x0400'0129: return ( regs.serial.control.transferlength << 4 | regs.serial.control.irqenable << 6 ); //SIOMLT_SEND (SIODATA8) case 0x0400'012a: return regs.serial.data8; case 0x0400'012b: return 0; //KEYINPUT case 0x04000130: { if(auto result = player.keyinput()) return result() >> 0; uint8 result = 0; for(uint n = 0; n < 8; n++) result |= interface->inputPoll(0, 0, n) << n; if((result & 0xc0) == 0xc0) result &= (uint8)~0xc0; //up+down cannot be pressed simultaneously if((result & 0x30) == 0x30) result &= (uint8)~0x30; //left+right cannot be pressed simultaneously return result ^ 0xff; } case 0x04000131: { if(auto result = player.keyinput()) return result() >> 8; uint8 result = 0; result |= interface->inputPoll(0, 0, 8) << 0; result |= interface->inputPoll(0, 0, 9) << 1; return result ^ 0x03; } //KEYCNT case 0x0400'0132: return ( regs.keypad.control.flag[0] << 0 | regs.keypad.control.flag[1] << 1 | regs.keypad.control.flag[2] << 2 | regs.keypad.control.flag[3] << 3 | regs.keypad.control.flag[4] << 4 | regs.keypad.control.flag[5] << 5 | regs.keypad.control.flag[6] << 6 | regs.keypad.control.flag[7] << 7 ); case 0x0400'0133: return ( regs.keypad.control.flag[8] << 0 | regs.keypad.control.flag[9] << 1 | regs.keypad.control.enable << 6 | regs.keypad.control.condition << 7 ); //RCNT case 0x0400'0134: return ( regs.joybus.settings.sc << 0 | regs.joybus.settings.sd << 1 | regs.joybus.settings.si << 2 | regs.joybus.settings.so << 3 | regs.joybus.settings.scmode << 4 | regs.joybus.settings.sdmode << 5 | regs.joybus.settings.simode << 6 | regs.joybus.settings.somode << 7 ); case 0x0400'0135: return ( regs.joybus.settings.irqenable << 0 | regs.joybus.settings.mode << 6 ); //JOYCNT case 0x0400'0140: return ( regs.joybus.control.resetsignal << 0 | regs.joybus.control.receivecomplete << 1 | regs.joybus.control.sendcomplete << 2 | regs.joybus.control.irqenable << 6 ); case 0x0400'0141: return 0; case 0x0400'0142: return 0; case 0x0400'0143: return 0; //JOY_RECV_L, JOY_RECV_H case 0x0400'0150: return regs.joybus.receive.byte(0); case 0x0400'0151: return regs.joybus.receive.byte(1); case 0x0400'0152: return regs.joybus.receive.byte(2); case 0x0400'0153: return regs.joybus.receive.byte(3); //JOY_TRANS_L, JOY_TRANS_H case 0x0400'0154: return regs.joybus.transmit.byte(0); case 0x0400'0155: return regs.joybus.transmit.byte(1); case 0x0400'0156: return regs.joybus.transmit.byte(2); case 0x0400'0157: return regs.joybus.transmit.byte(3); //JOYSTAT case 0x0400'0158: return ( regs.joybus.status.receiveflag << 1 | regs.joybus.status.sendflag << 3 | regs.joybus.status.generalflag << 4 ); case 0x0400'0159: return 0; case 0x0400'015a: return 0; case 0x0400'015b: return 0; //IE case 0x0400'0200: return regs.irq.enable.byte(0); case 0x0400'0201: return regs.irq.enable.byte(1); //IF case 0x0400'0202: return regs.irq.flag.byte(0); case 0x0400'0203: return regs.irq.flag.byte(1); //WAITCNT case 0x0400'0204: return ( regs.wait.control.nwait[3] << 0 | regs.wait.control.nwait[0] << 2 | regs.wait.control.swait[0] << 4 | regs.wait.control.nwait[1] << 5 | regs.wait.control.swait[1] << 7 ); case 0x0400'0205: return ( regs.wait.control.nwait[2] << 0 | regs.wait.control.swait[2] << 2 | regs.wait.control.phi << 3 | regs.wait.control.prefetch << 6 | regs.wait.control.gametype << 7 ); //IME case 0x0400'0208: return regs.ime; case 0x0400'0209: return 0; //POSTFLG + HALTCNT case 0x0400'0300: return regs.postboot; case 0x0400'0301: return 0; //MEMCNT_L case 0x0400'0800: return ( regs.memory.control.disable << 0 | regs.memory.control.unknown1 << 1 | regs.memory.control.ewram << 5 ); case 0x0400'0801: return 0; //MEMCNT_H case 0x0400'0802: return 0; case 0x0400'0803: return ( regs.memory.control.ewramwait << 0 | regs.memory.control.unknown2 << 4 ); } return 0; } auto CPU::write(uint32 addr, uint8 data) -> void { auto dma = [&]() -> Registers::DMA& { return regs.dma[addr / 12 & 3]; }; auto timer = [&]() -> Registers::Timer& { return regs.timer[addr.bits(2,3)]; }; switch(addr) { //DMA0SAD, DMA1SAD, DMA2SAD, DMA3SAD case 0x0400'00b0: case 0x0400'00bc: case 0x0400'00c8: case 0x0400'00d4: dma().source.byte(0) = data; return; case 0x0400'00b1: case 0x0400'00bd: case 0x0400'00c9: case 0x0400'00d5: dma().source.byte(1) = data; return; case 0x0400'00b2: case 0x0400'00be: case 0x0400'00ca: case 0x0400'00d6: dma().source.byte(2) = data; return; case 0x0400'00b3: case 0x0400'00bf: case 0x0400'00cb: case 0x0400'00d7: dma().source.byte(3) = data; return; //DMA0DAD, DMA1DAD, DMA2DAD, DMA3DAD case 0x0400'00b4: case 0x0400'00c0: case 0x0400'00cc: case 0x0400'00d8: dma().target.byte(0) = data; return; case 0x0400'00b5: case 0x0400'00c1: case 0x0400'00cd: case 0x0400'00d9: dma().target.byte(1) = data; return; case 0x0400'00b6: case 0x0400'00c2: case 0x0400'00ce: case 0x0400'00da: dma().target.byte(2) = data; return; case 0x0400'00b7: case 0x0400'00c3: case 0x0400'00cf: case 0x0400'00db: dma().target.byte(3) = data; return; //DMA0CNT_L, DMA1CNT_L, DMA2CNT_L, DMA3CNT_L case 0x0400'00b8: case 0x0400'00c4: case 0x0400'00d0: case 0x0400'00dc: dma().length.byte(0) = data; return; case 0x0400'00b9: case 0x0400'00c5: case 0x0400'00d1: case 0x0400'00dd: dma().length.byte(1) = data; return; //DMA0CNT_H, DMA1CNT_H, DMA2CNT_H, DMA3CNT_H case 0x0400'00ba: case 0x0400'00c6: case 0x0400'00d2: case 0x0400'00de: dma().control.targetmode = data.bits(5,6); dma().control.sourcemode.bit(0) = data.bit (7); return; case 0x0400'00bb: case 0x0400'00c7: case 0x0400'00d3: case 0x0400'00df: { bool enable = dma().control.enable; if(addr != 0x0400'00df) data.bit(3) = 0; //gamepad DRQ valid for DMA3 only dma().control.sourcemode.bit(1) = data.bit (0); dma().control.repeat = data.bit (1); dma().control.size = data.bit (2); dma().control.drq = data.bit (3); dma().control.timingmode = data.bits(4,5); dma().control.irq = data.bit (6); dma().control.enable = data.bit (7); if(!enable && dma().control.enable) { //0->1 transition if(dma().control.timingmode == 0) dma().pending = true; //immediate transfer mode dma().run.target = dma().target; dma().run.source = dma().source; dma().run.length = dma().length; } else if(!dma().control.enable) { dma().pending = false; } return; } //TM0CNT_L, TM1CNT_L, TM2CNT_L, TM3CNT_L case 0x0400'0100: case 0x0400'0104: case 0x0400'0108: case 0x0400'010c: timer().reload.byte(0) = data; return; case 0x0400'0101: case 0x0400'0105: case 0x0400'0109: case 0x0400'010d: timer().reload.byte(1) = data; return; //TM0CNT_H, TM1CNT_H, TM2CNT_H, TM3CNT_H case 0x0400'0102: case 0x0400'0106: case 0x0400'010a: case 0x0400'010e: { bool enable = timer().control.enable; timer().control.frequency = data.bits(0,1); timer().control.cascade = data.bit (2); timer().control.irq = data.bit (6); timer().control.enable = data.bit (7); if(!enable && timer().control.enable) { //0->1 transition timer().pending = true; } return; } case 0x0400'0103: case 0x0400'0107: case 0x0400'010b: case 0x0400'010f: return; //SIOMULTI0 (SIODATA32_L), SIOMULTI1 (SIODATA32_H), SIOMULTI2, SIOMULTI3 case 0x0400'0120: case 0x0400'0122: case 0x0400'0124: case 0x0400'0126: player.write(addr.bits(0,1), data); regs.serial.data[addr.bits(1,2)].byte(0) = data; return; case 0x0400'0121: case 0x0400'0123: case 0x0400'0125: case 0x0400'0127: player.write(addr.bits(0,1), data); regs.serial.data[addr.bits(1,2)].byte(1) = data; return; //SIOCNT case 0x0400'0128: regs.serial.control.shiftclockselect = data.bit(0); regs.serial.control.shiftclockfrequency = data.bit(1); regs.serial.control.transferenablereceive = data.bit(2); regs.serial.control.transferenablesend = data.bit(3); regs.serial.control.startbit = data.bit(7); return; case 0x0400'0129: regs.serial.control.transferlength = data.bit(4); regs.serial.control.irqenable = data.bit(6); return; //SIOMLT_SEND (SIODATA8) case 0x0400'012a: regs.serial.data8 = data; return; case 0x0400'012b: return; //KEYCNT case 0x0400'0132: regs.keypad.control.flag[0] = data.bit(0); regs.keypad.control.flag[1] = data.bit(1); regs.keypad.control.flag[2] = data.bit(2); regs.keypad.control.flag[3] = data.bit(3); regs.keypad.control.flag[4] = data.bit(4); regs.keypad.control.flag[5] = data.bit(5); regs.keypad.control.flag[6] = data.bit(6); regs.keypad.control.flag[7] = data.bit(7); return; case 0x0400'0133: regs.keypad.control.flag[8] = data.bit(0); regs.keypad.control.flag[9] = data.bit(1); regs.keypad.control.enable = data.bit(6); regs.keypad.control.condition = data.bit(7); return; //RCNT case 0x0400'0134: regs.joybus.settings.sc = data.bit(0); regs.joybus.settings.sd = data.bit(1); regs.joybus.settings.si = data.bit(2); regs.joybus.settings.so = data.bit(3); regs.joybus.settings.scmode = data.bit(4); regs.joybus.settings.sdmode = data.bit(5); regs.joybus.settings.simode = data.bit(6); regs.joybus.settings.somode = data.bit(7); return; case 0x0400'0135: regs.joybus.settings.irqenable = data.bit (0); regs.joybus.settings.mode = data.bits(6,7); return; //JOYCNT case 0x0400'0140: regs.joybus.control.resetsignal = data.bit(0); regs.joybus.control.receivecomplete = data.bit(1); regs.joybus.control.sendcomplete = data.bit(2); regs.joybus.control.irqenable = data.bit(6); return; case 0x0400'0141: return; case 0x0400'0142: return; case 0x0400'0143: return; //JOY_RECV_L //JOY_RECV_H case 0x0400'0150: regs.joybus.receive.byte(0) = data; return; case 0x0400'0151: regs.joybus.receive.byte(1) = data; return; case 0x0400'0152: regs.joybus.receive.byte(2) = data; return; case 0x0400'0153: regs.joybus.receive.byte(3) = data; return; //JOY_TRANS_L //JOY_TRANS_H case 0x0400'0154: regs.joybus.transmit.byte(0) = data; return; case 0x0400'0155: regs.joybus.transmit.byte(1) = data; return; case 0x0400'0156: regs.joybus.transmit.byte(2) = data; return; case 0x0400'0157: regs.joybus.transmit.byte(3) = data; return; //JOYSTAT case 0x0400'0158: regs.joybus.status.receiveflag = data.bit (1); regs.joybus.status.sendflag = data.bit (3); regs.joybus.status.generalflag = data.bits(4,5); return; case 0x0400'0159: return; //IE case 0x0400'0200: regs.irq.enable.byte(0) = data; return; case 0x0400'0201: regs.irq.enable.byte(1) = data; return; //IF case 0x0400'0202: regs.irq.flag.byte(0) = regs.irq.flag.byte(0) & ~data; return; case 0x0400'0203: regs.irq.flag.byte(1) = regs.irq.flag.byte(1) & ~data; return; //WAITCNT case 0x0400'0204: regs.wait.control.swait[3] = data.bit (0); //todo: is this correct? regs.wait.control.nwait[3] = data.bits(0,1); regs.wait.control.nwait[0] = data.bits(2,3); regs.wait.control.swait[0] = data.bit (4); regs.wait.control.nwait[1] = data.bits(5,6); regs.wait.control.swait[1] = data.bit (7); return; case 0x0400'0205: regs.wait.control.nwait[2] = data.bits(0,1); regs.wait.control.swait[2] = data.bit (2); regs.wait.control.phi = data.bit (3); regs.wait.control.prefetch = data.bit (6); regs.wait.control.gametype = data.bit (7); return; //IME case 0x0400'0208: regs.ime = data.bit(0); return; case 0x0400'0209: return; //POSTFLG, HALTCNT case 0x0400'0300: if(data.bit(0)) regs.postboot = 1; return; case 0x0400'0301: regs.mode = data.bit(7) ? Registers::Mode::Stop : Registers::Mode::Halt; return; //MEMCNT_L //MEMCNT_H case 0x0400'0800: regs.memory.control.disable = data.bit (0); regs.memory.control.unknown1 = data.bits(1,3); regs.memory.control.ewram = data.bit (5); return; case 0x0400'0801: return; case 0x0400'0802: return; case 0x0400'0803: regs.memory.control.ewramwait = data.bits(0,3); regs.memory.control.unknown2 = data.bits(4,7); return; } }