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#define F8 *(uint8_t*)(addr++)
#define F8S *(int8_t*)(addr++)
#define F16 *(uint16_t*)(addr+=2, addr-2)
#define F16S *(int16_t*)(addr+=2, addr-2)
#define F32 *(uint32_t*)(addr+=4, addr-4)
#define F32S *(int32_t*)(addr+=4, addr-4)
#define F32S64 (uint64_t)(int64_t)F32S
#define F64 *(uint64_t*)(addr+=8, addr-8)
#define F64S *(int64_t*)(addr+=8, addr-8)
#define PK(a) *(uint8_t*)(addr+a)
#ifdef DYNAREC
#define STEP if(step) return 0;
#define STEP2 if(step) {R_RIP = addr; return 0;}
#define STEP3 if(*step) (*step)++;
#else
#define STEP
#define STEP2
#define STEP3
#endif
#ifdef TEST_INTERPRETER
#define GETED(D) oped=TestEd(test, &addr, rex, nextop, D)
#define GETE4(D) oped=TestEd4(test, &addr, rex, nextop, D)
#define GETE8(D) oped=TestEd8(test, &addr, rex, nextop, D)
#define GETET(D) oped=TestEdt(test, &addr, rex, nextop, D)
#define GETE8xw(D) oped=TestEd8xw(test, rex.w, &addr, rex, nextop, D)
#define GETED32(D) oped=TestEd32O(test, &addr, rex, nextop, D, 0)
#define GETED_OFFS(D, O) oped=TestEdO(test, &addr, rex, nextop, D, O)
#define GETGD opgd=GetGd(test->emu, &addr, rex, nextop)
#define GETEB(D) oped=TestEb(test, &addr, rex, nextop, D)
#define GETEB32(D) oped=TestEb32O(test, &addr, rex, nextop, D, 0)
#define GETEB_OFFS(D, O) oped=TestEbO(test, &addr, rex, nextop, D, O)
#define GETGB opgd=GetGb(test->emu, &addr, rex, nextop)
#define GETEW(D) oped=TestEw(test, &addr, rex, nextop, D)
#define GETEW32(D) oped=TestEw32O(test, &addr, rex, nextop, D, 0)
#define GETEW_OFFS(D, O) oped=TestEdO(test, &addr, rex, nextop, D, O)
#define GETEW_OFFS_16(O) oped=TestEw16off(test, &addr, rex, nextop, O)
#define GETGW opgd=GetGw(test->emu, &addr, rex, nextop)
#define GETEX(D) opex=TestEx(test, &addr, rex, nextop, D)
#define GETEX32(D) opex=TestEx32O(test, &addr, rex, nextop, D, 0)
#define GETEX_OFFS(D, O) opex=TestExO(test, &addr, rex, nextop, D, O)
#define GETGX opgx=GetGx(test->emu, &addr, rex, nextop)
#define GETEM(D) opem=TestEm(test, &addr, rex, nextop, D)
#define GETEM32(D) opem=TestEm32O(test, &addr, rex, nextop, D, 0)
#define GETGM opgm=GetGm(test->emu, &addr, rex, nextop)
#else
#define GETED(D) oped=GetEd(emu, &addr, rex, nextop, D)
#define GETE4(D) GETED(D)
#define GETE8(D) GETED(D)
#define GETET(D) GETED(D)
#define GETE8xw(D) GETED(D)
#define GETED32(D) oped=GetEd32O(emu, &addr, rex, nextop, D, 0)
#define GETED_OFFS(D, O) oped=GetEdO(emu, &addr, rex, nextop, D, O)
#define GETGD opgd=GetGd(emu, &addr, rex, nextop)
#define GETEB(D) oped=GetEb(emu, &addr, rex, nextop, D)
#define GETEB32(D) oped=GetEb32O(emu, &addr, rex, nextop, D, 0)
#define GETEB_OFFS(D, O) oped=GetEbO(emu, &addr, rex, nextop, D, O)
#define GETGB opgd=GetGb(emu, &addr, rex, nextop)
#define GETEW(D) oped=GetEw(emu, &addr, rex, nextop, D)
#define GETEW32(D) oped=GetEw32O(emu, &addr, rex, nextop, D, 0)
#define GETEW_OFFS(D, O) oped=GetEdO(emu, &addr, rex, nextop, D, O)
#define GETEW_OFFS_16(O) oped=GetEw16off(emu, &addr, rex, nextop, O)
#define GETGW opgd=GetGw(emu, &addr, rex, nextop)
#define GETEX(D) opex=GetEx(emu, &addr, rex, nextop, D)
#define GETEX32(D) opex=GetEx32O(emu, &addr, rex, nextop, D, 0)
#define GETEX_OFFS(D, O) opex=GetExO(emu, &addr, rex, nextop, D, O)
#define GETGX opgx=GetGx(emu, &addr, rex, nextop)
#define GETEM(D) opem=GetEm(emu, &addr, rex, nextop, D)
#define GETEM32(D) opem=GetEm32O(emu, &addr, rex, nextop, D, 0)
#define GETGM opgm=GetGm(emu, &addr, rex, nextop)
#endif
#define ED oped
#define GD opgd
#define EB oped
#define GB opgd->byte[0]
#define EW oped
#define GW opgd
#define EX opex
#define GX opgx
#define EM opem
#define GM opgm
#define FAKEED(D) GetEd(emu, &addr, rex, nextop, D)
#define FAKEED32(D) GetEd32O(emu, &addr, rex, nextop, D, 0)
#define GETEA(D) GetEA(emu, &addr, rex, nextop, D)
#define _GETED(D) oped=GetEd(emu, &addr, rex, nextop, D)
#define _GETED32(D) oped=GetEd32O(emu, &addr, rex, nextop, D, 0)
#define MODREG ((nextop&0xC0)==0xC0)
#define GOCOND(BASE, PREFIX, COND, NOTCOND, POST)\
case BASE+0x0: \
PREFIX \
if(ACCESS_FLAG(F_OF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x1: \
PREFIX \
if(!ACCESS_FLAG(F_OF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x2: \
PREFIX \
if(ACCESS_FLAG(F_CF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x3: \
PREFIX \
if(!ACCESS_FLAG(F_CF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x4: \
PREFIX \
if(ACCESS_FLAG(F_ZF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x5: \
PREFIX \
if(!ACCESS_FLAG(F_ZF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x6: \
PREFIX \
if((ACCESS_FLAG(F_ZF) || ACCESS_FLAG(F_CF))) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x7: \
PREFIX \
if(!(ACCESS_FLAG(F_ZF) || ACCESS_FLAG(F_CF))) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x8: \
PREFIX \
if(ACCESS_FLAG(F_SF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0x9: \
PREFIX \
if(!ACCESS_FLAG(F_SF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xA: \
PREFIX \
if(ACCESS_FLAG(F_PF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xB: \
PREFIX \
if(!ACCESS_FLAG(F_PF)) { \
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xC: \
PREFIX \
if(ACCESS_FLAG(F_SF) != ACCESS_FLAG(F_OF)) {\
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xD: \
PREFIX \
if(ACCESS_FLAG(F_SF) == ACCESS_FLAG(F_OF)) {\
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xE: \
PREFIX \
if(ACCESS_FLAG(F_ZF) || (ACCESS_FLAG(F_SF) != ACCESS_FLAG(F_OF))) {\
COND \
} else { \
NOTCOND \
} \
POST \
break; \
case BASE+0xF: \
PREFIX \
if(!ACCESS_FLAG(F_ZF) && (ACCESS_FLAG(F_SF) == ACCESS_FLAG(F_OF))) {\
COND \
} else { \
NOTCOND \
} \
POST \
break;
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