--- np2/i386c/ia32/instructions/data_trans.c 2004/02/05 16:43:45 1.6 +++ np2/i386c/ia32/instructions/data_trans.c 2004/03/07 23:04:51 1.9 @@ -1,4 +1,4 @@ -/* $Id: data_trans.c,v 1.6 2004/02/05 16:43:45 monaka Exp $ */ +/* $Id: data_trans.c,v 1.9 2004/03/07 23:04:51 yui Exp $ */ /* * Copyright (c) 2003 NONAKA Kimihiro @@ -39,39 +39,39 @@ void MOV_EbGb(void) { - DWORD op, src, madr; + UINT32 op, src, madr; PREPART_EA_REG8(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); - *(reg8_b20[op]) = src; + *(reg8_b20[op]) = (UINT8)src; } else { CPU_WORKCLOCK(3); madr = calc_ea_dst(op); - cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, src); + cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (UINT8)src); } } void MOV_EwGw(void) { - DWORD op, src, madr; + UINT32 op, src, madr; PREPART_EA_REG16(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); - *(reg16_b20[op]) = src; + *(reg16_b20[op]) = (UINT16)src; } else { CPU_WORKCLOCK(3); madr = calc_ea_dst(op); - cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, src); + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)src); } } void MOV_EdGd(void) { - DWORD op, src, madr; + UINT32 op, src, madr; PREPART_EA_REG32(op, src); if (op >= 0xc0) { @@ -87,28 +87,28 @@ MOV_EdGd(void) void MOV_GbEb(void) { - BYTE *out; - DWORD op, src; + UINT8 *out; + UINT32 op, src; PREPART_REG8_EA(op, src, out, 2, 5); - *out = src; + *out = (UINT8)src; } void MOV_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); - *out = src; + *out = (UINT16)src; } void MOV_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); *out = src; @@ -117,20 +117,44 @@ MOV_GdEd(void) void MOV_EwSw(void) { - DWORD op, src, madr; - BYTE idx; + UINT32 op, src, madr; + UINT8 idx; GET_PCBYTE(op); - idx = (op >> 3) & 7; + idx = (UINT8)((op >> 3) & 7); if (idx < CPU_SEGREG_NUM) { src = CPU_REGS_SREG(idx); if (op >= 0xc0) { CPU_WORKCLOCK(2); - *(reg16_b20[op]) = src; + *(reg16_b20[op]) = (UINT16)src; } else { CPU_WORKCLOCK(3); madr = calc_ea_dst(op); - cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, src); + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)src); + } + return; + } + EXCEPTION(UD_EXCEPTION, 0); +} + +void +MOV_EdSw(void) +{ + UINT32 op, src, madr; + UINT8 idx; + + GET_PCBYTE(op); + idx = (UINT8)((op >> 3) & 7); + if (idx < CPU_SEGREG_NUM) { + src = CPU_REGS_SREG(idx); + if (op >= 0xc0) { + CPU_WORKCLOCK(2); + *(reg32_b20[op]) = src; + } else { + CPU_WORKCLOCK(3); + madr = calc_ea_dst(op); + // LSB only... + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)src); } return; } @@ -140,11 +164,11 @@ MOV_EwSw(void) void MOV_SwEw(void) { - DWORD op, src, madr; - BYTE idx; + UINT32 op, src, madr; + UINT8 idx; GET_PCBYTE(op); - idx = (op >> 3) & 7; + idx = ((UINT8)(op >> 3) & 7); if (idx != CPU_CS_INDEX && idx < CPU_SEGREG_NUM) { if (op >= 0xc0) { CPU_WORKCLOCK(2); @@ -154,7 +178,7 @@ MOV_SwEw(void) madr = calc_ea_dst(op); src = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, madr); } - CPU_SET_SEGREG(idx, src); + CPU_SET_SEGREG(idx, (UINT16)src); if (idx == CPU_SS_INDEX) { exec_1step(); } @@ -166,7 +190,7 @@ MOV_SwEw(void) void MOV_ALOb(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(5); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -182,7 +206,7 @@ MOV_ALOb(void) void MOV_AXOw(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(5); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -198,7 +222,7 @@ MOV_AXOw(void) void MOV_EAXOd(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(5); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -214,7 +238,7 @@ MOV_EAXOd(void) void MOV_ObAL(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(3); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -230,7 +254,7 @@ MOV_ObAL(void) void MOV_OwAX(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(3); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -246,7 +270,7 @@ MOV_OwAX(void) void MOV_OdEAX(void) { - DWORD madr; + UINT32 madr; CPU_WORKCLOCK(3); CPU_INST_SEGREG_INDEX = DS_FIX; @@ -262,43 +286,43 @@ MOV_OdEAX(void) void MOV_EbIb(void) { - DWORD op, src, res, madr; + UINT32 op, src, res, madr; PREPART_EA_REG8(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); GET_PCBYTE(res); - *(reg8_b20[op]) = (BYTE)res; + *(reg8_b20[op]) = (UINT8)res; } else { CPU_WORKCLOCK(7); madr = calc_ea_dst(op); GET_PCBYTE(res); - cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (BYTE)res); + cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (UINT8)res); } } void MOV_EwIw(void) { - DWORD op, src, res, madr; + UINT32 op, src, res, madr; PREPART_EA_REG16(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); GET_PCWORD(res); - *(reg16_b20[op]) = (WORD)res; + *(reg16_b20[op]) = (UINT16)res; } else { CPU_WORKCLOCK(7); madr = calc_ea_dst(op); GET_PCWORD(res); - cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (WORD)res); + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)res); } } void MOV_EdId(void) { - DWORD op, src, res, madr; + UINT32 op, src, res, madr; PREPART_EA_REG32(op, src); if (op >= 0xc0) { @@ -346,20 +370,20 @@ void MOV_EDIId(void) { CPU_WORKCLOCK(2); void CMOVO_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_OV) { - *out = src; + *out = (UINT16)src; } } void CMOVO_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_OV) { @@ -370,20 +394,20 @@ CMOVO_GdEd(void) void CMOVNO_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!CPU_OV) { - *out = src; + *out = (UINT16)src; } } void CMOVNO_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!CPU_OV) { @@ -394,20 +418,20 @@ CMOVNO_GdEd(void) void CMOVC_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_FLAGL & C_FLAG) { - *out = src; + *out = (UINT16)src; } } void CMOVC_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_FLAGL & C_FLAG) { @@ -418,20 +442,20 @@ CMOVC_GdEd(void) void CMOVNC_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & C_FLAG)) { - *out = src; + *out = (UINT16)src; } } void CMOVNC_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & C_FLAG)) { @@ -442,20 +466,20 @@ CMOVNC_GdEd(void) void CMOVZ_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_FLAGL & Z_FLAG) { - *out = src; + *out = (UINT16)src; } } void CMOVZ_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_FLAGL & Z_FLAG) { @@ -466,20 +490,20 @@ CMOVZ_GdEd(void) void CMOVNZ_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & Z_FLAG)) { - *out = src; + *out = (UINT16)src; } } void CMOVNZ_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & Z_FLAG)) { @@ -490,20 +514,20 @@ CMOVNZ_GdEd(void) void CMOVA_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & (Z_FLAG | C_FLAG))) { - *out = src; + *out = (UINT16)src; } } void CMOVA_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & (Z_FLAG | C_FLAG))) { @@ -514,20 +538,20 @@ CMOVA_GdEd(void) void CMOVNA_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_FLAGL & (Z_FLAG | C_FLAG)) { - *out = src; + *out = (UINT16)src; } } void CMOVNA_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_FLAGL & (Z_FLAG | C_FLAG)) { @@ -538,20 +562,20 @@ CMOVNA_GdEd(void) void CMOVS_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_FLAGL & S_FLAG) { - *out = src; + *out = (UINT16)src; } } void CMOVS_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_FLAGL & S_FLAG) { @@ -562,20 +586,20 @@ CMOVS_GdEd(void) void CMOVNS_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & S_FLAG)) { - *out = src; + *out = (UINT16)src; } } void CMOVNS_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & S_FLAG)) { @@ -586,20 +610,20 @@ CMOVNS_GdEd(void) void CMOVP_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (CPU_FLAGL & P_FLAG) { - *out = src; + *out = (UINT16)src; } } void CMOVP_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (CPU_FLAGL & P_FLAG) { @@ -610,20 +634,20 @@ CMOVP_GdEd(void) void CMOVNP_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & P_FLAG)) { - *out = src; + *out = (UINT16)src; } } void CMOVNP_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if (!(CPU_FLAGL & P_FLAG)) { @@ -634,20 +658,20 @@ CMOVNP_GdEd(void) void CMOVL_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if ((!CPU_OV) != (!(CPU_FLAGL & S_FLAG))) { - *out = src; + *out = (UINT16)src; } } void CMOVL_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if ((!CPU_OV) != (!(CPU_FLAGL & S_FLAG))) { @@ -658,20 +682,20 @@ CMOVL_GdEd(void) void CMOVNL_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if ((!CPU_OV) == (!(CPU_FLAGL & S_FLAG))) { - *out = src; + *out = (UINT16)src; } } void CMOVNL_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if ((!CPU_OV) == (!(CPU_FLAGL & S_FLAG))) { @@ -682,20 +706,20 @@ CMOVNL_GdEd(void) void CMOVLE_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if ((CPU_FLAGL & Z_FLAG) || ((!(CPU_FLAGL & S_FLAG)) != (!CPU_OV))) { - *out = src; + *out = (UINT16)src; } } void CMOVLE_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if ((CPU_FLAGL & Z_FLAG) || ((!(CPU_FLAGL & S_FLAG)) != (!CPU_OV))) { @@ -706,20 +730,20 @@ CMOVLE_GdEd(void) void CMOVNLE_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); if ((!(CPU_FLAGL & Z_FLAG)) && ((!(CPU_FLAGL & S_FLAG)) == (!CPU_OV))) { - *out = src; + *out = (UINT16)src; } } void CMOVNLE_GdEd(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA(op, src, out, 2, 5); if ((!(CPU_FLAGL & Z_FLAG)) && ((!(CPU_FLAGL & S_FLAG)) == (!CPU_OV))) { @@ -733,15 +757,15 @@ CMOVNLE_GdEd(void) void XCHG_EbGb(void) { - BYTE *out, *src; - DWORD op, madr; - BYTE tmp; + UINT8 *out, *src; + UINT32 op, madr; + UINT8 tmp; PREPART_EA_REG8P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(3); out = reg8_b20[op]; - SWAPBYTE(*out, *src); + SWAP_BYTE(*out, *src); } else { CPU_WORKCLOCK(5); madr = calc_ea_dst(op); @@ -754,15 +778,15 @@ XCHG_EbGb(void) void XCHG_EwGw(void) { - WORD *out, *src; - DWORD op, madr; - WORD tmp; + UINT16 *out, *src; + UINT32 op, madr; + UINT16 tmp; PREPART_EA_REG16P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(3); out = reg16_b20[op]; - SWAPWORD(*out, *src); + SWAP_WORD(*out, *src); } else { CPU_WORKCLOCK(5); madr = calc_ea_dst(op); @@ -775,15 +799,15 @@ XCHG_EwGw(void) void XCHG_EdGd(void) { - DWORD *out, *src; - DWORD op, madr; - DWORD tmp; + UINT32 *out, *src; + UINT32 op, madr; + UINT32 tmp; PREPART_EA_REG32P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(3); out = reg32_b20[op]; - SWAPDWORD(*out, *src); + SWAP_DWORD(*out, *src); } else { CPU_WORKCLOCK(5); madr = calc_ea_dst(op); @@ -794,22 +818,22 @@ XCHG_EdGd(void) } /* void XCHG_AXAX(void) { } */ -void XCHG_CXAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_CX, CPU_AX); } -void XCHG_DXAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_DX, CPU_AX); } -void XCHG_BXAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_BX, CPU_AX); } -void XCHG_SPAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_SP, CPU_AX); } -void XCHG_BPAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_BP, CPU_AX); } -void XCHG_SIAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_SI, CPU_AX); } -void XCHG_DIAX(void) { CPU_WORKCLOCK(3); SWAPWORD(CPU_DI, CPU_AX); } +void XCHG_CXAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_CX, CPU_AX); } +void XCHG_DXAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_DX, CPU_AX); } +void XCHG_BXAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_BX, CPU_AX); } +void XCHG_SPAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_SP, CPU_AX); } +void XCHG_BPAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_BP, CPU_AX); } +void XCHG_SIAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_SI, CPU_AX); } +void XCHG_DIAX(void) { CPU_WORKCLOCK(3); SWAP_WORD(CPU_DI, CPU_AX); } /* void XCHG_EAXEAX(void) { } */ -void XCHG_ECXEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_ECX, CPU_EAX); } -void XCHG_EDXEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_EDX, CPU_EAX); } -void XCHG_EBXEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_EBX, CPU_EAX); } -void XCHG_ESPEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_ESP, CPU_EAX); } -void XCHG_EBPEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_EBP, CPU_EAX); } -void XCHG_ESIEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_ESI, CPU_EAX); } -void XCHG_EDIEAX(void) { CPU_WORKCLOCK(3); SWAPDWORD(CPU_EDI, CPU_EAX); } +void XCHG_ECXEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_ECX, CPU_EAX); } +void XCHG_EDXEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_EDX, CPU_EAX); } +void XCHG_EBXEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_EBX, CPU_EAX); } +void XCHG_ESPEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_ESP, CPU_EAX); } +void XCHG_EBPEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_EBP, CPU_EAX); } +void XCHG_ESIEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_ESI, CPU_EAX); } +void XCHG_EDIEAX(void) { CPU_WORKCLOCK(3); SWAP_DWORD(CPU_EDI, CPU_EAX); } /* * BSWAP @@ -817,8 +841,8 @@ void XCHG_EDIEAX(void) { CPU_WORKCLOCK(3 #if defined(bswap32) && !defined(IA32_USE_ASM_BSWAP) #define BSWAP_DWORD(v) bswap32(v) #else /* !bswap32 || IA32_USE_ASM_BSWAP */ -INLINE static DWORD -BSWAP_DWORD(DWORD val) +INLINE static UINT32 +BSWAP_DWORD(UINT32 val) { #if defined(__GNUC__) && (defined(i386) || defined(__i386__)) __asm__ __volatile__ ( @@ -832,7 +856,7 @@ BSWAP_DWORD(DWORD val) : "=r" (val) : "0" (val)); return val; #else /* !(__GNUC__ && (i386 || __i386__)) */ - DWORD v; + UINT32 v; v = (val & 0x000000ff) << 24; v |= (val & 0x0000ff00) << 8; v |= (val & 0x00ff0000) >> 8; @@ -857,70 +881,70 @@ void BSWAP_EDI(void) { CPU_WORKCLOCK(2); void XADD_EbGb(void) { - BYTE *out, *src; - DWORD op, dst, res, madr; + UINT8 *out, *src; + UINT32 op, dst, res, madr; PREPART_EA_REG8P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); out = reg8_b20[op]; dst = *out; - ADDBYTE(res, dst, *src); - *src = dst; - *out = (BYTE)res; + ADD_BYTE(res, dst, *src); + *src = (UINT8)dst; + *out = (UINT8)res; } else { CPU_WORKCLOCK(7); madr = calc_ea_dst(op); dst = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, madr); - ADDBYTE(res, dst, *src); - *src = dst; - cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (BYTE)res); + ADD_BYTE(res, dst, *src); + *src = (UINT8)dst; + cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (UINT8)res); } } void XADD_EwGw(void) { - WORD *out, *src; - DWORD op, dst, res, madr; + UINT16 *out, *src; + UINT32 op, dst, res, madr; PREPART_EA_REG16P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); out = reg16_b20[op]; dst = *out; - ADDWORD(res, dst, *src); - *src = dst; - *out = (WORD)res; + ADD_WORD(res, dst, *src); + *src = (UINT16)dst; + *out = (UINT16)res; } else { CPU_WORKCLOCK(7); madr = calc_ea_dst(op); dst = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, madr); - ADDWORD(res, dst, *src); - *src = dst; - cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (WORD)res); + ADD_WORD(res, dst, *src); + *src = (UINT16)dst; + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)res); } } void XADD_EdGd(void) { - DWORD *out, *src; - DWORD op, dst, res, madr; + UINT32 *out, *src; + UINT32 op, dst, res, madr; PREPART_EA_REG32P(op, src); if (op >= 0xc0) { CPU_WORKCLOCK(2); out = reg32_b20[op]; dst = *out; - ADDDWORD(res, dst, *src); + ADD_DWORD(res, dst, *src); *src = dst; *out = res; } else { CPU_WORKCLOCK(7); madr = calc_ea_dst(op); dst = cpu_vmemoryread_d(CPU_INST_SEGREG_INDEX, madr); - ADDDWORD(res, dst, *src); + ADD_DWORD(res, dst, *src); *src = dst; cpu_vmemorywrite_d(CPU_INST_SEGREG_INDEX, madr, res); } @@ -932,8 +956,8 @@ XADD_EdGd(void) void CMPXCHG_EbGb(void) { - BYTE *out; - DWORD op, src, dst, madr, tmp; + UINT8 *out; + UINT32 op, src, dst, madr, tmp; PREPART_EA_REG8(op, src); if (op >= 0xc0) { @@ -941,18 +965,18 @@ CMPXCHG_EbGb(void) dst = *out; BYTE_SUB(tmp, CPU_AL, dst); if (CPU_FLAGL & Z_FLAG) { - *out = src; + *out = (UINT8)src; } else { - CPU_AL = dst; + CPU_AL = (UINT8)dst; } } else { madr = calc_ea_dst(op); dst = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, madr); BYTE_SUB(tmp, CPU_AL, dst); if (CPU_FLAGL & Z_FLAG) { - cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, src); + cpu_vmemorywrite(CPU_INST_SEGREG_INDEX, madr, (UINT8)src); } else { - CPU_AL = dst; + CPU_AL = (UINT8)dst; } } } @@ -960,8 +984,8 @@ CMPXCHG_EbGb(void) void CMPXCHG_EwGw(void) { - WORD *out; - DWORD op, src, dst, madr, tmp; + UINT16 *out; + UINT32 op, src, dst, madr, tmp; PREPART_EA_REG16(op, src); if (op >= 0xc0) { @@ -969,18 +993,18 @@ CMPXCHG_EwGw(void) dst = *out; WORD_SUB(tmp, CPU_AX, dst); if (CPU_FLAGL & Z_FLAG) { - *out = src; + *out = (UINT16)src; } else { - CPU_AX = dst; + CPU_AX = (UINT16)dst; } } else { madr = calc_ea_dst(op); dst = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, madr); WORD_SUB(tmp, CPU_AX, dst); if (CPU_FLAGL & Z_FLAG) { - cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, src); + cpu_vmemorywrite_w(CPU_INST_SEGREG_INDEX, madr, (UINT16)src); } else { - CPU_AX = dst; + CPU_AX = (UINT16)dst; } } } @@ -988,8 +1012,8 @@ CMPXCHG_EwGw(void) void CMPXCHG_EdGd(void) { - DWORD *out; - DWORD op, src, dst, madr, tmp; + UINT32 *out; + UINT32 op, src, dst, madr, tmp; PREPART_EA_REG32(op, src); if (op >= 0xc0) { @@ -1014,9 +1038,9 @@ CMPXCHG_EdGd(void) } void -CMPXCHG8B(DWORD op) +CMPXCHG8B(UINT32 op) { - DWORD madr, dst_l, dst_h; + UINT32 madr, dst_l, dst_h; if (op < 0xc0) { CPU_WORKCLOCK(2); @@ -1059,9 +1083,9 @@ void PUSH_ESI(void) { CPU_WORKCLOCK(3); void PUSH_EDI(void) { CPU_WORKCLOCK(3); PUSH0_32(CPU_EDI); } void -PUSH_Ew(DWORD op) +PUSH_Ew(UINT32 op) { - DWORD dst, madr; + UINT32 dst, madr; if (op >= 0xc0) { CPU_WORKCLOCK(2); @@ -1076,9 +1100,9 @@ PUSH_Ew(DWORD op) } void -PUSH_Ed(DWORD op) +PUSH_Ed(UINT32 op) { - DWORD dst, madr; + UINT32 dst, madr; if (op >= 0xc0) { CPU_WORKCLOCK(2); @@ -1095,7 +1119,7 @@ PUSH_Ed(DWORD op) void PUSH_Ib(void) { - SDWORD val; + SINT32 val; CPU_WORKCLOCK(3); GET_PCBYTESD(val); @@ -1105,7 +1129,7 @@ PUSH_Ib(void) void PUSH_Iw(void) { - WORD val; + UINT16 val; CPU_WORKCLOCK(3); GET_PCWORD(val); @@ -1115,7 +1139,7 @@ PUSH_Iw(void) void PUSH_Id(void) { - DWORD val; + UINT32 val; CPU_WORKCLOCK(3); GET_PCDWORD(val); @@ -1160,8 +1184,8 @@ void POP_EDI(void) { CPU_WORKCLOCK(5); P void POP_Ew(void) { - DWORD op, madr; - WORD src; + UINT32 op, madr; + UINT16 src; CPU_WORKCLOCK(5); @@ -1176,10 +1200,10 @@ POP_Ew(void) } void -POP_Ew_G5(DWORD op) +POP_Ew_G5(UINT32 op) { - DWORD madr; - WORD src; + UINT32 madr; + UINT16 src; CPU_WORKCLOCK(5); @@ -1195,8 +1219,8 @@ POP_Ew_G5(DWORD op) void POP_Ed(void) { - DWORD op, madr; - DWORD src; + UINT32 op, madr; + UINT32 src; CPU_WORKCLOCK(5); @@ -1211,9 +1235,9 @@ POP_Ed(void) } void -POP_Ed_G5(DWORD op) +POP_Ed_G5(UINT32 op) { - DWORD src, madr; + UINT32 src, madr; CPU_WORKCLOCK(5); @@ -1229,7 +1253,7 @@ POP_Ed_G5(DWORD op) void POP16_ES(void) { - WORD src; + UINT16 src; CPU_WORKCLOCK(5); @@ -1240,18 +1264,18 @@ POP16_ES(void) void POP32_ES(void) { - DWORD src; + UINT32 src; CPU_WORKCLOCK(5); POP0_32(src); - CPU_SET_SEGREG(CPU_ES_INDEX, src); + CPU_SET_SEGREG(CPU_ES_INDEX, (UINT16)src); } void POP16_SS(void) { - WORD src; + UINT16 src; CPU_WORKCLOCK(5); @@ -1263,19 +1287,19 @@ POP16_SS(void) void POP32_SS(void) { - DWORD src; + UINT32 src; CPU_WORKCLOCK(5); POP0_32(src); - CPU_SET_SEGREG(CPU_SS_INDEX, src); + CPU_SET_SEGREG(CPU_SS_INDEX, (UINT16)src); exec_1step(); } void POP16_DS(void) { - WORD src; + UINT16 src; CPU_WORKCLOCK(5); @@ -1286,18 +1310,18 @@ POP16_DS(void) void POP32_DS(void) { - DWORD src; + UINT32 src; CPU_WORKCLOCK(5); POP0_32(src); - CPU_SET_SEGREG(CPU_DS_INDEX, src); + CPU_SET_SEGREG(CPU_DS_INDEX, (UINT16)src); } void POP16_FS(void) { - WORD src; + UINT16 src; CPU_WORKCLOCK(5); @@ -1308,18 +1332,18 @@ POP16_FS(void) void POP32_FS(void) { - DWORD src; + UINT32 src; CPU_WORKCLOCK(5); POP0_32(src); - CPU_SET_SEGREG(CPU_FS_INDEX, src); + CPU_SET_SEGREG(CPU_FS_INDEX, (UINT16)src); } void POP16_GS(void) { - WORD src; + UINT16 src; CPU_WORKCLOCK(5); @@ -1330,12 +1354,12 @@ POP16_GS(void) void POP32_GS(void) { - DWORD src; + UINT32 src; CPU_WORKCLOCK(5); POP0_32(src); - CPU_SET_SEGREG(CPU_GS_INDEX, src); + CPU_SET_SEGREG(CPU_GS_INDEX, (UINT16)src); } /* @@ -1344,7 +1368,7 @@ POP32_GS(void) void PUSHA(void) { - WORD sp = CPU_SP; + UINT16 sp = CPU_SP; CPU_WORKCLOCK(17); if (!CPU_STAT_SS32) { @@ -1377,7 +1401,7 @@ PUSHA(void) void PUSHAD(void) { - DWORD esp = CPU_ESP; + UINT32 esp = CPU_ESP; CPU_WORKCLOCK(17); if (!CPU_STAT_SS32) { @@ -1478,7 +1502,7 @@ void IN_ALDX(void) { - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); CPU_AL = cpu_in(CPU_DX); } @@ -1486,7 +1510,7 @@ void IN_AXDX(void) { - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); CPU_AX = cpu_in_w(CPU_DX); } @@ -1494,16 +1518,16 @@ void IN_EAXDX(void) { - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); CPU_EAX = cpu_in_d(CPU_DX); } void IN_ALIb(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); GET_PCBYTE(port); CPU_AL = cpu_in(port); } @@ -1511,9 +1535,9 @@ IN_ALIb(void) void IN_AXIb(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); GET_PCBYTE(port); CPU_AX = cpu_in_w(port); } @@ -1521,9 +1545,9 @@ IN_AXIb(void) void IN_EAXIb(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(5); + CPU_WORKCLOCK(12); GET_PCBYTE(port); CPU_EAX = cpu_in_d(port); } @@ -1535,7 +1559,7 @@ void OUT_DXAL(void) { - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); cpu_out(CPU_DX, CPU_AL); } @@ -1543,7 +1567,7 @@ void OUT_DXAX(void) { - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); cpu_out_w(CPU_DX, CPU_AX); } @@ -1551,16 +1575,16 @@ void OUT_DXEAX(void) { - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); cpu_out_d(CPU_DX, CPU_EAX); } void OUT_IbAL(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); GET_PCBYTE(port); cpu_out(port, CPU_AL); } @@ -1568,9 +1592,9 @@ OUT_IbAL(void) void OUT_IbAX(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); GET_PCBYTE(port); cpu_out_w(port, CPU_AX); } @@ -1578,9 +1602,9 @@ OUT_IbAX(void) void OUT_IbEAX(void) { - WORD port; + UINT port; - CPU_WORKCLOCK(3); + CPU_WORKCLOCK(10); GET_PCBYTE(port); cpu_out_d(port, CPU_EAX); } @@ -1615,7 +1639,7 @@ CDQ(void) void CBW(void) { - WORD tmp; + UINT16 tmp; CPU_WORKCLOCK(2); tmp = __CBW(CPU_AL); @@ -1625,7 +1649,7 @@ CBW(void) void CWDE(void) { - DWORD tmp; + UINT32 tmp; CPU_WORKCLOCK(2); tmp = __CWDE(CPU_AX); @@ -1638,8 +1662,8 @@ CWDE(void) void MOVSX_GwEb(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA8(op, src, out, 2, 5); *out = __CBW(src); @@ -1648,18 +1672,18 @@ MOVSX_GwEb(void) void MOVSX_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); - *out = src; + *out = (UINT16)src; } void MOVSX_GdEb(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA8(op, src, out, 2, 5); *out = __CBD(src); @@ -1668,8 +1692,8 @@ MOVSX_GdEb(void) void MOVSX_GdEw(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA16(op, src, out, 2, 5); *out = __CWDE(src); @@ -1681,39 +1705,39 @@ MOVSX_GdEw(void) void MOVZX_GwEb(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA8(op, src, out, 2, 5); - *out = (BYTE)src; + *out = (UINT8)src; } void MOVZX_GwEw(void) { - WORD *out; - DWORD op, src; + UINT16 *out; + UINT32 op, src; PREPART_REG16_EA(op, src, out, 2, 5); - *out = src; + *out = (UINT16)src; } void MOVZX_GdEb(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA8(op, src, out, 2, 5); - *out = (BYTE)src; + *out = (UINT8)src; } void MOVZX_GdEw(void) { - DWORD *out; - DWORD op, src; + UINT32 *out; + UINT32 op, src; PREPART_REG32_EA16(op, src, out, 2, 5); - *out = (WORD)src; + *out = (UINT16)src; }