//cRSID CIA emulation


void cRSID_createCIAchip (cRSID_C64instance* C64, cRSID_CIAinstance* CIA, unsigned short baseaddress) {
 CIA->C64 = C64;
 CIA->ChipModel = 0;
 CIA->BaseAddress = baseaddress;
 CIA->BasePtrWR = &C64->IObankWR[baseaddress]; CIA->BasePtrRD = &C64->IObankRD[baseaddress];
 cRSID_initCIAchip(CIA);
}


void cRSID_initCIAchip (cRSID_CIAinstance* CIA) {
 unsigned char i;
 for (i=0; i<0x10; ++i) CIA->BasePtrWR[i] = CIA->BasePtrRD[i] = 0x00;
}


static inline char cRSID_emulateCIA (cRSID_CIAinstance* CIA, char cycles) {
 static int Tmp;

 enum CIAregisters { PORTA=0,            PORTB=1,        DDRA=2,          DDRB=3,
                     TIMERAL=4,          TIMERAH=5,      TIMERBL=6,       TIMERBH=7,    //Write:Set Timer-latch, Read: read Timer
                     TOD_TENTHSECONDS=8, TOD_SECONDS=9,  TOD_MINUTES=0xA, TOD_HOURS=0xB,
                     SERIAL_DATA=0xC,    INTERRUPTS=0xD, CONTROLA=0xE,    CONTROLB=0xF   };

 enum InterruptBitVal { INTERRUPT_HAPPENED=0x80, SET_OR_CLEAR_FLAGS=0x80, //(Read or Write operation determines which one:)
                        FLAGn=0x10, SERIALPORT=0x08, ALARM=0x04, TIMERB=0x02, TIMERA=0x01 }; //flags/masks of interrupt-sources

 enum ControlAbitVal { ENABLE_TIMERA=0x01,     PORTB6_TIMERA=0x02,   TOGGLED_PORTB6=0x04,       ONESHOT_TIMERA=0x08,
                       FORCELOADA_STROBE=0x10, TIMERA_FROM_CNT=0x20, SERIALPORT_IS_OUTPUT=0x40, TIMEOFDAY_50Hz=0x80 };

 enum ControlBbitVal { ENABLE_TIMERB=0x01,     PORTB7_TIMERB=0x02,   TOGGLED_PORTB7=0x04,       ONESHOT_TIMERB=0x08,
                       FORCELOADB_STROBE=0x10, TIMERB_FROM_CPUCLK=0x00, TIMERB_FROM_CNT=0x20, TIMERB_FROM_TIMERA=0x40,
                       TIMERB_FROM_TIMERA_AND_CNT = 0x60, TIMEOFDAY_WRITE_SETS_ALARM = 0x80 };

 //TimerA
 if (CIA->BasePtrWR[CONTROLA] & FORCELOADA_STROBE) { //force latch into counter (strobe-input)
  CIA->BasePtrRD[TIMERAH] = CIA->BasePtrWR[TIMERAH]; CIA->BasePtrRD[TIMERAL] = CIA->BasePtrWR[TIMERAL];
 }
 else if ( (CIA->BasePtrWR[CONTROLA] & (ENABLE_TIMERA|TIMERA_FROM_CNT)) == ENABLE_TIMERA ) { //Enabled, counts Phi2
  Tmp = ( (CIA->BasePtrRD[TIMERAH]<<8) + CIA->BasePtrRD[TIMERAL] ) - cycles; //count timer
  if (Tmp <= 0) { //Timer counted down
   Tmp += (CIA->BasePtrWR[TIMERAH]<<8) + CIA->BasePtrWR[TIMERAL]; //reload timer
   if (CIA->BasePtrWR[CONTROLA] & ONESHOT_TIMERA) CIA->BasePtrWR[CONTROLA] &= ~ENABLE_TIMERA; //disable if one-shot
   CIA->BasePtrRD[INTERRUPTS] |= TIMERA;
   if (CIA->BasePtrWR[INTERRUPTS] & TIMERA) { //generate interrupt if mask allows
    CIA->BasePtrRD[INTERRUPTS] |= INTERRUPT_HAPPENED;
   }
  }
  CIA->BasePtrRD[TIMERAH] = (Tmp >> 8); CIA->BasePtrRD[TIMERAL] = Tmp & 0xFF;
 }
 CIA->BasePtrWR[CONTROLA] &= ~FORCELOADA_STROBE; //strobe is edge-sensitive
 CIA->BasePtrRD[CONTROLA] = CIA->BasePtrWR[CONTROLA]; //control-registers are readable

 //TimerB
 if (CIA->BasePtrWR[CONTROLB] & FORCELOADB_STROBE) { //force latch into counter (strobe-input)
  CIA->BasePtrRD[TIMERBH] = CIA->BasePtrWR[TIMERBH]; CIA->BasePtrRD[TIMERBL] = CIA->BasePtrWR[TIMERBL];
 } //what about clocking TimerB by TimerA? (maybe not used in any music)
 else if ( (CIA->BasePtrWR[CONTROLB] & (ENABLE_TIMERB|TIMERB_FROM_TIMERA)) == ENABLE_TIMERB ) { //Enabled, counts Phi2
  Tmp = ( (CIA->BasePtrRD[TIMERBH]<<8) + CIA->BasePtrRD[TIMERBL] ) - cycles;//count timer
  if (Tmp <= 0) { //Timer counted down
   Tmp += (CIA->BasePtrWR[TIMERBH]<<8) + CIA->BasePtrWR[TIMERBL]; //reload timer
   if (CIA->BasePtrWR[CONTROLB] & ONESHOT_TIMERB) CIA->BasePtrWR[CONTROLB] &= ~ENABLE_TIMERB; //disable if one-shot
   CIA->BasePtrRD[INTERRUPTS] |= TIMERB;
   if (CIA->BasePtrWR[INTERRUPTS] & TIMERB) { //generate interrupt if mask allows
    CIA->BasePtrRD[INTERRUPTS] |= INTERRUPT_HAPPENED;
   }
  }
  CIA->BasePtrRD[TIMERBH] = (Tmp >> 8); CIA->BasePtrRD[TIMERBL] = Tmp & 0xFF;
 }
 CIA->BasePtrWR[CONTROLB] &= ~FORCELOADB_STROBE; //strobe is edge-sensitive
 CIA->BasePtrRD[CONTROLB] = CIA->BasePtrWR[CONTROLB]; //control-registers are readable

 return (CIA->BasePtrRD[INTERRUPTS] & INTERRUPT_HAPPENED);
}


static inline void cRSID_writeCIAIRQmask (cRSID_CIAinstance* CIA, unsigned char value) {
 if (value&0x80) CIA->BasePtrWR[0xD] |= (value&0x1F);
 else CIA->BasePtrWR[0xD] &= ~(value&0x1F);
}


static inline void cRSID_acknowledgeCIAIRQ (cRSID_CIAinstance* CIA) {
 CIA->BasePtrRD[0xD] = 0x00; //reading a CIA interrupt-register clears its read-part and IRQ-flag
}


//static inline void cRSID_writeCIARWreg () {
 //mirroring write-latch to read-latch for Readable-Writeable registers?
//}