mirror of
https://github.com/dborth/fceugx.git
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580 lines
14 KiB
C++
580 lines
14 KiB
C++
/* FCE Ultra - NES/Famicom Emulator
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*
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* Copyright notice for this file:
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* Copyright (C) 2002 Xodnizel
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#include <string.h>
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#include "types.h"
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#include "x6502.h"
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#include "fceu.h"
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#include "debug.h"
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#include "sound.h"
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#ifdef _S9XLUA_H
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#include "fceulua.h"
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#endif
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#include "x6502abbrev.h"
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X6502 X;
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uint32 timestamp;
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void (*MapIRQHook)(int a);
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#define ADDCYC(x) \
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{ \
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int __x=x; \
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_tcount+=__x; \
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_count-=__x*48; \
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timestamp+=__x; \
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}
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//normal memory read
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static INLINE uint8 RdMem(unsigned int A)
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{
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return(_DB=ARead[A](A));
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}
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//normal memory write
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static INLINE void WrMem(unsigned int A, uint8 V)
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{
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BWrite[A](A,V);
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#ifdef _S9XLUA_H
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CallRegisteredLuaMemHook(A, 1, V, LUAMEMHOOK_WRITE);
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#endif
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}
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static INLINE uint8 RdRAM(unsigned int A)
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{
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//bbit edited: this was changed so cheat substituion would work
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return(_DB=ARead[A](A));
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// return(_DB=RAM[A]);
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}
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static INLINE void WrRAM(unsigned int A, uint8 V)
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{
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RAM[A]=V;
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#ifdef _S9XLUA_H
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CallRegisteredLuaMemHook(A, 1, V, LUAMEMHOOK_WRITE);
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#endif
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}
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uint8 X6502_DMR(uint32 A)
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{
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ADDCYC(1);
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return(X.DB=ARead[A](A));
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}
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void X6502_DMW(uint32 A, uint8 V)
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{
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ADDCYC(1);
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BWrite[A](A,V);
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#ifdef _S9XLUA_H
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CallRegisteredLuaMemHook(A, 1, V, LUAMEMHOOK_WRITE);
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#endif
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}
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#define PUSH(V) \
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{ \
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uint8 VTMP=V; \
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WrRAM(0x100+_S,VTMP); \
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_S--; \
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}
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#define POP() RdRAM(0x100+(++_S))
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static uint8 ZNTable[256];
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/* Some of these operations will only make sense if you know what the flag
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constants are. */
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#define X_ZN(zort) _P&=~(Z_FLAG|N_FLAG);_P|=ZNTable[zort]
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#define X_ZNT(zort) _P|=ZNTable[zort]
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#define JR(cond); \
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{ \
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if(cond) \
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{ \
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uint32 tmp; \
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int32 disp; \
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disp=(int8)RdMem(_PC); \
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_PC++; \
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ADDCYC(1); \
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tmp=_PC; \
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_PC+=disp; \
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if((tmp^_PC)&0x100) \
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ADDCYC(1); \
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} \
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else _PC++; \
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}
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#define LDA _A=x;X_ZN(_A)
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#define LDX _X=x;X_ZN(_X)
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#define LDY _Y=x;X_ZN(_Y)
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/* All of the freaky arithmetic operations. */
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#define AND _A&=x;X_ZN(_A)
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#define BIT _P&=~(Z_FLAG|V_FLAG|N_FLAG);_P|=ZNTable[x&_A]&Z_FLAG;_P|=x&(V_FLAG|N_FLAG)
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#define EOR _A^=x;X_ZN(_A)
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#define ORA _A|=x;X_ZN(_A)
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#define ADC { \
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uint32 l=_A+x+(_P&1); \
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_P&=~(Z_FLAG|C_FLAG|N_FLAG|V_FLAG); \
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_P|=((((_A^x)&0x80)^0x80) & ((_A^l)&0x80))>>1; \
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_P|=(l>>8)&C_FLAG; \
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_A=l; \
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X_ZNT(_A); \
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}
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#define SBC { \
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uint32 l=_A-x-((_P&1)^1); \
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_P&=~(Z_FLAG|C_FLAG|N_FLAG|V_FLAG); \
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_P|=((_A^l)&(_A^x)&0x80)>>1; \
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_P|=((l>>8)&C_FLAG)^C_FLAG; \
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_A=l; \
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X_ZNT(_A); \
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}
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#define CMPL(a1,a2) { \
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uint32 t=a1-a2; \
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X_ZN(t&0xFF); \
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_P&=~C_FLAG; \
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_P|=((t>>8)&C_FLAG)^C_FLAG; \
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}
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/* Special undocumented operation. Very similar to CMP. */
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#define AXS { \
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uint32 t=(_A&_X)-x; \
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X_ZN(t&0xFF); \
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_P&=~C_FLAG; \
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_P|=((t>>8)&C_FLAG)^C_FLAG; \
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_X=t; \
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}
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#define CMP CMPL(_A,x)
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#define CPX CMPL(_X,x)
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#define CPY CMPL(_Y,x)
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/* The following operations modify the byte being worked on. */
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#define DEC x--;X_ZN(x)
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#define INC x++;X_ZN(x)
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#define ASL _P&=~C_FLAG;_P|=x>>7;x<<=1;X_ZN(x)
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#define LSR _P&=~(C_FLAG|N_FLAG|Z_FLAG);_P|=x&1;x>>=1;X_ZNT(x)
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/* For undocumented instructions, maybe for other things later... */
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#define LSRA _P&=~(C_FLAG|N_FLAG|Z_FLAG);_P|=_A&1;_A>>=1;X_ZNT(_A)
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#define ROL { \
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uint8 l=x>>7; \
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x<<=1; \
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x|=_P&C_FLAG; \
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_P&=~(Z_FLAG|N_FLAG|C_FLAG); \
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_P|=l; \
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X_ZNT(x); \
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}
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#define ROR { \
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uint8 l=x&1; \
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x>>=1; \
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x|=(_P&C_FLAG)<<7; \
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_P&=~(Z_FLAG|N_FLAG|C_FLAG); \
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_P|=l; \
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X_ZNT(x); \
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}
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/* Icky icky thing for some undocumented instructions. Can easily be
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broken if names of local variables are changed.
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*/
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/* Absolute */
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#define GetAB(target) \
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{ \
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target=RdMem(_PC); \
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_PC++; \
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target|=RdMem(_PC)<<8; \
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_PC++; \
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}
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/* Absolute Indexed(for reads) */
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#define GetABIRD(target, i) \
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{ \
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unsigned int tmp; \
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GetAB(tmp); \
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target=tmp; \
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target+=i; \
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if((target^tmp)&0x100) \
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{ \
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target&=0xFFFF; \
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RdMem(target^0x100); \
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ADDCYC(1); \
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} \
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}
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/* Absolute Indexed(for writes and rmws) */
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#define GetABIWR(target, i) \
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{ \
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unsigned int rt; \
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GetAB(rt); \
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target=rt; \
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target+=i; \
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target&=0xFFFF; \
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RdMem((target&0x00FF)|(rt&0xFF00)); \
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}
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/* Zero Page */
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#define GetZP(target) \
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{ \
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target=RdMem(_PC); \
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_PC++; \
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}
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/* Zero Page Indexed */
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#define GetZPI(target,i) \
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{ \
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target=i+RdMem(_PC); \
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_PC++; \
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}
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/* Indexed Indirect */
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#define GetIX(target) \
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{ \
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uint8 tmp; \
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tmp=RdMem(_PC); \
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_PC++; \
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tmp+=_X; \
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target=RdRAM(tmp); \
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tmp++; \
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target|=RdRAM(tmp)<<8; \
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}
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/* Indirect Indexed(for reads) */
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#define GetIYRD(target) \
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{ \
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unsigned int rt; \
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uint8 tmp; \
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tmp=RdMem(_PC); \
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_PC++; \
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rt=RdRAM(tmp); \
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tmp++; \
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rt|=RdRAM(tmp)<<8; \
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target=rt; \
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target+=_Y; \
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if((target^rt)&0x100) \
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{ \
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target&=0xFFFF; \
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RdMem(target^0x100); \
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ADDCYC(1); \
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} \
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}
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/* Indirect Indexed(for writes and rmws) */
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#define GetIYWR(target) \
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{ \
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unsigned int rt; \
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uint8 tmp; \
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tmp=RdMem(_PC); \
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_PC++; \
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rt=RdRAM(tmp); \
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tmp++; \
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rt|=RdRAM(tmp)<<8; \
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target=rt; \
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target+=_Y; \
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target&=0xFFFF; \
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RdMem((target&0x00FF)|(rt&0xFF00)); \
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}
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/* Now come the macros to wrap up all of the above stuff addressing mode functions
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and operation macros. Note that operation macros will always operate(redundant
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redundant) on the variable "x".
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*/
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#define RMW_A(op) {uint8 x=_A; op; _A=x; break; } /* Meh... */
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#define RMW_AB(op) {unsigned int A; uint8 x; GetAB(A); x=RdMem(A); WrMem(A,x); op; WrMem(A,x); break; }
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#define RMW_ABI(reg,op) {unsigned int A; uint8 x; GetABIWR(A,reg); x=RdMem(A); WrMem(A,x); op; WrMem(A,x); break; }
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#define RMW_ABX(op) RMW_ABI(_X,op)
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#define RMW_ABY(op) RMW_ABI(_Y,op)
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#define RMW_IX(op) {unsigned int A; uint8 x; GetIX(A); x=RdMem(A); WrMem(A,x); op; WrMem(A,x); break; }
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#define RMW_IY(op) {unsigned int A; uint8 x; GetIYWR(A); x=RdMem(A); WrMem(A,x); op; WrMem(A,x); break; }
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#define RMW_ZP(op) {uint8 A; uint8 x; GetZP(A); x=RdRAM(A); op; WrRAM(A,x); break; }
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#define RMW_ZPX(op) {uint8 A; uint8 x; GetZPI(A,_X); x=RdRAM(A); op; WrRAM(A,x); break;}
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#define LD_IM(op) {uint8 x; x=RdMem(_PC); _PC++; op; break;}
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#define LD_ZP(op) {uint8 A; uint8 x; GetZP(A); x=RdRAM(A); op; break;}
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#define LD_ZPX(op) {uint8 A; uint8 x; GetZPI(A,_X); x=RdRAM(A); op; break;}
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#define LD_ZPY(op) {uint8 A; uint8 x; GetZPI(A,_Y); x=RdRAM(A); op; break;}
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#define LD_AB(op) {unsigned int A; uint8 x; GetAB(A); x=RdMem(A); op; break; }
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#define LD_ABI(reg,op) {unsigned int A; uint8 x; GetABIRD(A,reg); x=RdMem(A); op; break;}
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#define LD_ABX(op) LD_ABI(_X,op)
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#define LD_ABY(op) LD_ABI(_Y,op)
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#define LD_IX(op) {unsigned int A; uint8 x; GetIX(A); x=RdMem(A); op; break;}
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#define LD_IY(op) {unsigned int A; uint8 x; GetIYRD(A); x=RdMem(A); op; break;}
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#define ST_ZP(r) {uint8 A; GetZP(A); WrRAM(A,r); break;}
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#define ST_ZPX(r) {uint8 A; GetZPI(A,_X); WrRAM(A,r); break;}
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#define ST_ZPY(r) {uint8 A; GetZPI(A,_Y); WrRAM(A,r); break;}
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#define ST_AB(r) {unsigned int A; GetAB(A); WrMem(A,r); break;}
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#define ST_ABI(reg,r) {unsigned int A; GetABIWR(A,reg); WrMem(A,r); break; }
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#define ST_ABX(r) ST_ABI(_X,r)
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#define ST_ABY(r) ST_ABI(_Y,r)
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#define ST_IX(r) {unsigned int A; GetIX(A); WrMem(A,r); break; }
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#define ST_IY(r) {unsigned int A; GetIYWR(A); WrMem(A,r); break; }
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static uint8 CycTable[256] =
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{
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/*0x00*/ 7,6,2,8,3,3,5,5,3,2,2,2,4,4,6,6,
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/*0x10*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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/*0x20*/ 6,6,2,8,3,3,5,5,4,2,2,2,4,4,6,6,
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/*0x30*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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/*0x40*/ 6,6,2,8,3,3,5,5,3,2,2,2,3,4,6,6,
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/*0x50*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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/*0x60*/ 6,6,2,8,3,3,5,5,4,2,2,2,5,4,6,6,
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/*0x70*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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/*0x80*/ 2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,
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/*0x90*/ 2,6,2,6,4,4,4,4,2,5,2,5,5,5,5,5,
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/*0xA0*/ 2,6,2,6,3,3,3,3,2,2,2,2,4,4,4,4,
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/*0xB0*/ 2,5,2,5,4,4,4,4,2,4,2,4,4,4,4,4,
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/*0xC0*/ 2,6,2,8,3,3,5,5,2,2,2,2,4,4,6,6,
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/*0xD0*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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/*0xE0*/ 2,6,3,8,3,3,5,5,2,2,2,2,4,4,6,6,
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/*0xF0*/ 2,5,2,8,4,4,6,6,2,4,2,7,4,4,7,7,
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};
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void X6502_IRQBegin(int w)
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{
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_IRQlow|=w;
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}
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void X6502_IRQEnd(int w)
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{
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_IRQlow&=~w;
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}
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void TriggerNMI(void)
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{
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_IRQlow|=FCEU_IQNMI;
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}
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void TriggerNMI2(void)
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{
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_IRQlow|=FCEU_IQNMI2;
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}
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void X6502_Reset(void)
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{
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_IRQlow=FCEU_IQRESET;
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}
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/**
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* Initializes the 6502 CPU
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**/
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void X6502_Init(void)
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{
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unsigned int i;
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// Initialize the CPU structure
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memset((void *)&X,0,sizeof(X));
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for(i = 0; i < sizeof(ZNTable); i++)
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{
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if(!i)
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{
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ZNTable[i] = Z_FLAG;
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}
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else if ( i & 0x80 )
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{
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ZNTable[i] = N_FLAG;
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}
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else
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{
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ZNTable[i] = 0;
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}
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}
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}
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void X6502_Power(void)
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{
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_count=_tcount=_IRQlow=_PC=_A=_X=_Y=_S=_P=_PI=_DB=_jammed=0;
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timestamp=0;
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X6502_Reset();
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}
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void X6502_Run(int32 cycles)
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{
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if(PAL)
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cycles*=15; // 15*4=60
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else
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cycles*=16; // 16*4=64
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_count+=cycles;
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extern int test; test++;
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while(_count>0)
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{
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int32 temp;
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uint8 b1;
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if(_IRQlow)
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{
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if(_IRQlow&FCEU_IQRESET)
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{
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if(debug_loggingCD) LogCDVectors(0);
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_PC=RdMem(0xFFFC);
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_PC|=RdMem(0xFFFD)<<8;
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_jammed=0;
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_PI=_P=I_FLAG;
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_IRQlow&=~FCEU_IQRESET;
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}
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else if(_IRQlow&FCEU_IQNMI2)
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{
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_IRQlow&=~FCEU_IQNMI2;
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_IRQlow|=FCEU_IQNMI;
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}
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else if(_IRQlow&FCEU_IQNMI)
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{
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if(!_jammed)
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{
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ADDCYC(7);
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PUSH(_PC>>8);
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PUSH(_PC);
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PUSH((_P&~B_FLAG)|(U_FLAG));
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_P|=I_FLAG;
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DEBUG( if(debug_loggingCD) LogCDVectors(1) );
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_PC=RdMem(0xFFFA);
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_PC|=RdMem(0xFFFB)<<8;
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_IRQlow&=~FCEU_IQNMI;
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}
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}
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else
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{
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if(!(_PI&I_FLAG) && !_jammed)
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{
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ADDCYC(7);
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PUSH(_PC>>8);
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PUSH(_PC);
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PUSH((_P&~B_FLAG)|(U_FLAG));
|
|
_P|=I_FLAG;
|
|
DEBUG( if(debug_loggingCD) LogCDVectors(1) );
|
|
_PC=RdMem(0xFFFE);
|
|
_PC|=RdMem(0xFFFF)<<8;
|
|
}
|
|
}
|
|
_IRQlow&=~(FCEU_IQTEMP);
|
|
if(_count<=0)
|
|
{
|
|
_PI=_P;
|
|
return;
|
|
} //Should increase accuracy without a
|
|
//major speed hit.
|
|
}
|
|
|
|
//will probably cause a major speed decrease on low-end systems
|
|
DEBUG( DebugCycle() );
|
|
|
|
_PI=_P;
|
|
b1=RdMem(_PC);
|
|
|
|
ADDCYC(CycTable[b1]);
|
|
|
|
temp=_tcount;
|
|
_tcount=0;
|
|
if(MapIRQHook) MapIRQHook(temp);
|
|
FCEU_SoundCPUHook(temp);
|
|
#ifdef _S9XLUA_H
|
|
CallRegisteredLuaMemHook(_PC, 1, 0, LUAMEMHOOK_EXEC);
|
|
#endif
|
|
_PC++;
|
|
switch(b1)
|
|
{
|
|
#include "ops.inc"
|
|
}
|
|
}
|
|
}
|
|
|
|
//--------------------------
|
|
//---Called from debuggers
|
|
void FCEUI_NMI(void)
|
|
{
|
|
_IRQlow|=FCEU_IQNMI;
|
|
}
|
|
|
|
void FCEUI_IRQ(void)
|
|
{
|
|
_IRQlow|=FCEU_IQTEMP;
|
|
}
|
|
|
|
void FCEUI_GetIVectors(uint16 *reset, uint16 *irq, uint16 *nmi)
|
|
{
|
|
fceuindbg=1;
|
|
|
|
*reset=RdMem(0xFFFC);
|
|
*reset|=RdMem(0xFFFD)<<8;
|
|
*nmi=RdMem(0xFFFA);
|
|
*nmi|=RdMem(0xFFFB)<<8;
|
|
*irq=RdMem(0xFFFE);
|
|
*irq|=RdMem(0xFFFF)<<8;
|
|
fceuindbg=0;
|
|
}
|
|
|
|
//the opsize table is used to quickly grab the instruction sizes (in bytes)
|
|
const uint8 opsize[256] = {
|
|
/*0x00*/ 1,2,0,0,0,2,2,0,1,2,1,0,0,3,3,0,
|
|
/*0x10*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0,
|
|
/*0x20*/ 3,2,0,0,2,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0x30*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0,
|
|
/*0x40*/ 1,2,0,0,0,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0x50*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0,
|
|
/*0x60*/ 1,2,0,0,0,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0x70*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0,
|
|
/*0x80*/ 0,2,0,0,2,2,2,0,1,0,1,0,3,3,3,0,
|
|
/*0x90*/ 2,2,0,0,2,2,2,0,1,3,1,0,0,3,0,0,
|
|
/*0xA0*/ 2,2,2,0,2,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0xB0*/ 2,2,0,0,2,2,2,0,1,3,1,0,3,3,3,0,
|
|
/*0xC0*/ 2,2,0,0,2,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0xD0*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0,
|
|
/*0xE0*/ 2,2,0,0,2,2,2,0,1,2,1,0,3,3,3,0,
|
|
/*0xF0*/ 2,2,0,0,0,2,2,0,1,3,0,0,0,3,3,0
|
|
};
|
|
|
|
|
|
//the optype table is a quick way to grab the addressing mode for any 6502 opcode
|
|
//
|
|
// 0 = Implied\Accumulator\Immediate\Branch\NULL
|
|
// 1 = (Indirect,X)
|
|
// 2 = Zero Page
|
|
// 3 = Absolute
|
|
// 4 = (Indirect),Y
|
|
// 5 = Zero Page,X
|
|
// 6 = Absolute,Y
|
|
// 7 = Absolute,X
|
|
// 8 = Zero Page,Y
|
|
//
|
|
const uint8 optype[256] = {
|
|
/*0x00*/ 0,1,0,0,0,2,2,0,0,0,0,0,0,3,3,0,
|
|
/*0x10*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0,
|
|
/*0x20*/ 0,1,0,0,2,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0x30*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0,
|
|
/*0x40*/ 0,1,0,0,0,2,2,0,0,0,0,0,0,3,3,0,
|
|
/*0x50*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0,
|
|
/*0x60*/ 0,1,0,0,0,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0x70*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0,
|
|
/*0x80*/ 0,1,0,0,2,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0x90*/ 0,4,0,0,5,5,8,0,0,6,0,0,0,7,0,0,
|
|
/*0xA0*/ 0,1,0,0,2,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0xB0*/ 0,4,0,0,5,5,8,0,0,6,0,0,7,7,6,0,
|
|
/*0xC0*/ 0,1,0,0,2,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0xD0*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0,
|
|
/*0xE0*/ 0,1,0,0,2,2,2,0,0,0,0,0,3,3,3,0,
|
|
/*0xF0*/ 0,4,0,0,0,5,5,0,0,6,0,0,0,7,7,0
|
|
};
|