tstIEMCheckMc.cpp revision 93f5e318bdffb66ddc6001c0b0e7ea1ca046887d
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * IEM Testcase - Check the "Microcode".
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * Copyright (C) 2011-2012 Oracle Corporation
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * This file is part of VirtualBox Open Source Edition (OSE), as
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * available from http://www.virtualbox.org. This file is free software;
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * you can redistribute it and/or modify it under the terms of the GNU
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * General Public License (GPL) as published by the Free Software
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * Foundation, in version 2 as it comes in the "COPYING" file of the
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync/*******************************************************************************
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync* Header Files *
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync*******************************************************************************/
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync/*******************************************************************************
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync* Global Variables *
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync*******************************************************************************/
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsyncbool volatile g_fRandom;
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync/** For hacks. */
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync do { a_ExpectedType const * pCheckType = &(a_Param); NOREF(pCheckType); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync do { a_ExpectedType pCheckType = (a_Param); NOREF(pCheckType); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync AssertCompile(((a_Const) >> 1) == ((a_Const) >> 1)); \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync AssertCompile((a_ExpectedType)(a_Const) == (a_Const)); \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define CHK_SINGLE_BIT(a_ExpectedType, a_fBitMask) \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync uint8_t iMySeg = (a_iSeg); NOREF(iMySeg); /** @todo const or variable. grr. */ \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync } while (0)
196f5d54f710d2479d74f17c81a49562cc74f9a1vboxsync/** @name Other stubs.
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync static VBOXSTRICTRC a_Name(PIEMCPU pIemCpu) RT_NO_THROW
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync static VBOXSTRICTRC a_Name(PIEMCPU pIemCpu, a_Type0 a_Name0) RT_NO_THROW
a1d83f29ade4c8f9fe95fc75d3fb2642f36081c1vboxsync#define FNIEMOP_DEF_2(a_Name, a_Type0, a_Name0, a_Type1, a_Name1) \
a1d83f29ade4c8f9fe95fc75d3fb2642f36081c1vboxsync static VBOXSTRICTRC a_Name(PIEMCPU pIemCpu, a_Type0 a_Name0, a_Type1 a_Name1) RT_NO_THROW
a1d83f29ade4c8f9fe95fc75d3fb2642f36081c1vboxsync#define IEM_NOT_REACHED_DEFAULT_CASE_RET() default: return VERR_IPE_NOT_REACHED_DEFAULT_CASE
a1d83f29ade4c8f9fe95fc75d3fb2642f36081c1vboxsync#define IEM_RETURN_ASPECT_NOT_IMPLEMENTED() return IEM_RETURN_ASPECT_NOT_IMPLEMENTED
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_RETURN_ASPECT_NOT_IMPLEMENTED_LOG(a_LoggerArgs) return IEM_RETURN_ASPECT_NOT_IMPLEMENTED
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U8(a_pu8) do { *(a_pu8) = g_bRandom; CHK_PTYPE(uint8_t *, a_pu8); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S8(a_pi8) do { *(a_pi8) = g_bRandom; CHK_PTYPE(int8_t *, a_pi8); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S8_SX_U16(a_pu16) do { *(a_pu16) = g_bRandom; CHK_PTYPE(uint16_t *, a_pu16); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S8_SX_U32(a_pu32) do { *(a_pu32) = g_bRandom; CHK_PTYPE(uint32_t *, a_pu32); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S8_SX_U64(a_pu64) do { *(a_pu64) = g_bRandom; CHK_PTYPE(uint64_t *, a_pu64); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U16(a_pu16) do { *(a_pu16) = g_bRandom; CHK_PTYPE(uint16_t *, a_pu16); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U16_ZX_U32(a_pu32) do { *(a_pu32) = g_bRandom; CHK_PTYPE(uint32_t *, a_pu32); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U16_ZX_U64(a_pu64) do { *(a_pu64) = g_bRandom; CHK_PTYPE(uint64_t *, a_pu64); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S16(a_pi16) do { *(a_pi16) = g_bRandom; CHK_PTYPE(int16_t *, a_pi16); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U32(a_pu32) do { *(a_pu32) = g_bRandom; CHK_PTYPE(uint32_t *, a_pu32); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U32_ZX_U64(a_pu64) do { *(a_pu64) = g_bRandom; CHK_PTYPE(uint64_t *, a_pu64); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S32(a_pi32) do { *(a_pi32) = g_bRandom; CHK_PTYPE(int32_t *, a_pi32); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_S32_SX_U64(a_pu64) do { *(a_pu64) = g_bRandom; CHK_PTYPE(uint64_t *, a_pu64); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_OPCODE_GET_NEXT_U64(a_pu64) do { *(a_pu64) = g_bRandom; CHK_PTYPE(uint64_t *, a_pu64); } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_NO_REAL_OR_V86_MODE() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_NO_LOCK_PREFIX() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_NO_64BIT() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_ONLY_64BIT() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_64BIT_OP_SIZE() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_DEFAULT_64BIT_OP_SIZE() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_CLEAR_REX_NOT_BEFORE_OPCODE(a_szPrf) do { } while (0)
48bc84be9b4ee5754fe4274941d5fc51bc45468dvboxsync#define IEMOP_HLP_DONE_DECODING() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_HLP_DONE_DECODING_NO_LOCK_PREFIX() do { } while (0)
a1d83f29ade4c8f9fe95fc75d3fb2642f36081c1vboxsync#define IEMOP_RAISE_DIVIDE_ERROR() VERR_TRPM_ACTIVE_TRAP
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_RAISE_INVALID_OPCODE() VERR_TRPM_ACTIVE_TRAP
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_RAISE_INVALID_LOCK_PREFIX() VERR_TRPM_ACTIVE_TRAP
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_MNEMONIC(a_szMnemonic) do { } while (0)
673c4af47215ff0f21f244462a3dfd63f8b522cdvboxsync#define IEMOP_MNEMONIC2(a_szMnemonic, a_szOps) do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEMOP_BITCH_ABOUT_STUB() do { } while (0)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync FNIEMOP_DEF(a_Name) { return VERR_NOT_IMPLEMENTED; } \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync FNIEMOP_DEF_1(a_Name, a_Type0, a_Name0) { return VERR_NOT_IMPLEMENTED; } \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync FNIEMOP_DEF(a_Name) { return IEMOP_RAISE_INVALID_OPCODE(); } \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define FNIEMOP_UD_STUB_1(a_Name, a_Type0, a_Name0) \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync FNIEMOP_DEF_1(a_Name, a_Type0, a_Name0) { return IEMOP_RAISE_INVALID_OPCODE(); } \
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define FNIEMOP_CALL_1(a_pfn, a0) (a_pfn)(pIemCpu, a0)
a8b31f6b3abd04475d4abcb5292aa22131b5130fvboxsync#define FNIEMOP_CALL_2(a_pfn, a0, a1) (a_pfn)(pIemCpu, a0, a1)
a8b31f6b3abd04475d4abcb5292aa22131b5130fvboxsync#define IEM_IS_REAL_OR_V86_MODE(a_pIemCpu) (g_fRandom)
a8b31f6b3abd04475d4abcb5292aa22131b5130fvboxsync#define IEM_IS_AMD_CPUID_FEATURE_PRESENT_ECX(a_fEcx) (g_fRandom)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_IS_AMD_CPUID_FEATURE_PRESENT_EDX(a_fEdx) (g_fRandom)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_IS_AMD_CPUID_FEATURES_ANY_PRESENT(a_fEdx, a_fEcx) (g_fRandom)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_IS_INTEL_CPUID_FEATURE_PRESENT_EDX(a_fEdx) (g_fRandom)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_IS_INTEL_CPUID_FEATURE_PRESENT_ECX(a_fEcx) (g_fRandom)
0b74a2f80aba476dc8be8bc1c63891fc53945986vboxsync#define IEM_IS_INTEL_CPUID_FEATURE_PRESENT_EDX_ON_HOST(a_fEdx) (g_fRandom)
fa94cbe3cda9a48bb743f0c2b26ec06927878830vboxsync#define IEM_IS_GUEST_CPU_INTEL(a_pIemCpu) (g_fRandom)
fa94cbe3cda9a48bb743f0c2b26ec06927878830vboxsync#define iemRecalEffOpSize(a_pIemCpu) do { } while (0)
#define IEM_REPEAT_2(a_Callback, a_User) IEM_REPEAT_1(a_Callback, a_User); a_Callback##_CALLBACK(1, a_User)
#define IEM_REPEAT_3(a_Callback, a_User) IEM_REPEAT_2(a_Callback, a_User); a_Callback##_CALLBACK(2, a_User)
#define IEM_REPEAT_4(a_Callback, a_User) IEM_REPEAT_3(a_Callback, a_User); a_Callback##_CALLBACK(3, a_User)
#define IEM_REPEAT_5(a_Callback, a_User) IEM_REPEAT_4(a_Callback, a_User); a_Callback##_CALLBACK(4, a_User)
#define IEM_REPEAT_6(a_Callback, a_User) IEM_REPEAT_5(a_Callback, a_User); a_Callback##_CALLBACK(5, a_User)
#define IEM_REPEAT_7(a_Callback, a_User) IEM_REPEAT_6(a_Callback, a_User); a_Callback##_CALLBACK(6, a_User)
#define IEM_REPEAT_8(a_Callback, a_User) IEM_REPEAT_7(a_Callback, a_User); a_Callback##_CALLBACK(7, a_User)
#define IEM_REPEAT_9(a_Callback, a_User) IEM_REPEAT_8(a_Callback, a_User); a_Callback##_CALLBACK(8, a_User)
#define IEM_REPEAT(a_cTimes, a_Callback, a_User) RT_CONCAT(IEM_REPEAT_,a_cTimes)(a_Callback, a_User)
#define IEM_ARG_CHECK_CALLBACK(a_idx, a_User) int RT_CONCAT(iArgCheck_,a_idx); NOREF(RT_CONCAT(iArgCheck_,a_idx))
#define IEM_MC_END() \
#define IEM_MC_PAUSE() do {} while (0)
#define IEM_MC_CONTINUE() do {} while (0)
#define IEM_MC_ADVANCE_RIP() do {} while (0)
#define IEM_MC_MAYBE_RAISE_DEVICE_NOT_AVAILABLE() do {} while (0)
#define IEM_MC_MAYBE_RAISE_FPU_XCPT() do {} while (0)
#define IEM_MC_MAYBE_RAISE_MMX_RELATED_XCPT() do {} while (0)
#define IEM_MC_MAYBE_RAISE_SSE2_RELATED_XCPT() do {} while (0)
#define IEM_MC_RAISE_GP0_IF_CPL_NOT_ZERO() do {} while (0)
#define IEM_MC_FETCH_GREG_U8(a_u8Dst, a_iGReg) do { (a_u8Dst) = 0; CHK_TYPE(uint8_t, a_u8Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_ZX_U16(a_u16Dst, a_iGReg) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_ZX_U32(a_u32Dst, a_iGReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_ZX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_SX_U16(a_u16Dst, a_iGReg) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_SX_U32(a_u32Dst, a_iGReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_GREG_U8_SX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U16(a_u16Dst, a_iGReg) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_GREG_U16_ZX_U32(a_u32Dst, a_iGReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_GREG_U16_ZX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U16_SX_U32(a_u32Dst, a_iGReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_GREG_U16_SX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U32(a_u32Dst, a_iGReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_GREG_U32_ZX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U32_SX_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_GREG_U64(a_u64Dst, a_iGReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_SREG_U16(a_u16Dst, a_iSReg) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_SREG_ZX_U32(a_u32Dst, a_iSReg) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_SREG_ZX_U64(a_u64Dst, a_iSReg) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_CR0_U16(a_u16Dst) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_CR0_U32(a_u32Dst) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_CR0_U64(a_u64Dst) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_LDTR_U16(a_u16Dst) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_LDTR_U32(a_u32Dst) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_LDTR_U64(a_u64Dst) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_TR_U16(a_u16Dst) do { (a_u16Dst) = 0; CHK_TYPE(uint16_t, a_u16Dst); } while (0)
#define IEM_MC_FETCH_TR_U32(a_u32Dst) do { (a_u32Dst) = 0; CHK_TYPE(uint32_t, a_u32Dst); } while (0)
#define IEM_MC_FETCH_TR_U64(a_u64Dst) do { (a_u64Dst) = 0; CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_EFLAGS(a_EFlags) do { (a_EFlags) = 0; CHK_TYPE(uint32_t, a_EFlags); } while (0)
#define IEM_MC_FETCH_EFLAGS_U8(a_EFlags) do { (a_EFlags) = 0; CHK_TYPE(uint8_t, a_EFlags); } while (0)
#define IEM_MC_STORE_GREG_U8_CONST(a_iGReg, a_u8C) do { AssertCompile((uint8_t )(a_u8C) == (a_u8C) ); } while (0)
#define IEM_MC_STORE_GREG_U16_CONST(a_iGReg, a_u16C) do { AssertCompile((uint16_t)(a_u16C) == (a_u16C)); } while (0)
#define IEM_MC_STORE_GREG_U32_CONST(a_iGReg, a_u32C) do { AssertCompile((uint32_t)(a_u32C) == (a_u32C)); } while (0)
#define IEM_MC_STORE_GREG_U64_CONST(a_iGReg, a_u64C) do { AssertCompile((uint64_t)(a_u64C) == (a_u64C)); } while (0)
#define IEM_MC_STORE_FPUREG_R80_SRC_REF(a_iSt, a_pr80Src) do { CHK_PTYPE(PCRTFLOAT80U, a_pr80Src); Assert((a_iSt) < 8); } while (0)
#define IEM_MC_CLEAR_HIGH_GREG_U64_BY_REF(a_pu32Dst) do { CHK_PTYPE(uint32_t *, a_pu32Dst); } while (0)
#define IEM_MC_REF_GREG_U8(a_pu8Dst, a_iGReg) do { (a_pu8Dst) = (uint8_t *)((uintptr_t)0); CHK_PTYPE(uint8_t *, a_pu8Dst); } while (0)
#define IEM_MC_REF_GREG_U16(a_pu16Dst, a_iGReg) do { (a_pu16Dst) = (uint16_t *)((uintptr_t)0); CHK_PTYPE(uint16_t *, a_pu16Dst); } while (0)
#define IEM_MC_REF_GREG_U32(a_pu32Dst, a_iGReg) do { (a_pu32Dst) = (uint32_t *)((uintptr_t)0); CHK_PTYPE(uint32_t *, a_pu32Dst); } while (0)
#define IEM_MC_REF_GREG_U64(a_pu64Dst, a_iGReg) do { (a_pu64Dst) = (uint64_t *)((uintptr_t)0); CHK_PTYPE(uint64_t *, a_pu64Dst); } while (0)
#define IEM_MC_REF_EFLAGS(a_pEFlags) do { (a_pEFlags) = (uint32_t *)((uintptr_t)0); CHK_PTYPE(uint32_t *, a_pEFlags); } while (0)
#ifdef _MSC_VER
#define IEM_MC_ADD_GREG_U8_TO_LOCAL(a_u16Value, a_iGReg) do { (a_u8Value) += 1; /*CHK_CONST(uint8_t, a_u8Value); */ } while (0)
#define IEM_MC_ADD_GREG_U16_TO_LOCAL(a_u16Value, a_iGReg) do { (a_u16Value) += 1; /*CHK_CONST(uint16_t, a_u16Value);*/ } while (0)
#define IEM_MC_ADD_GREG_U32_TO_LOCAL(a_u32Value, a_iGReg) do { (a_u32Value) += 1; /*CHK_CONST(uint32_t, a_u32Value);*/ } while (0)
#define IEM_MC_ADD_GREG_U64_TO_LOCAL(a_u64Value, a_iGReg) do { (a_u64Value) += 1; /*CHK_CONST(uint64_t, a_u64Value);*/ } while (0)
#define IEM_MC_ADD_GREG_U8_TO_LOCAL(a_u16Value, a_iGReg) do { (a_u8Value) += 1; CHK_CONST(uint8_t, a_u8Value); } while (0)
#define IEM_MC_ADD_GREG_U16_TO_LOCAL(a_u16Value, a_iGReg) do { (a_u16Value) += 1; CHK_CONST(uint16_t, a_u16Value); } while (0)
#define IEM_MC_ADD_GREG_U32_TO_LOCAL(a_u32Value, a_iGReg) do { (a_u32Value) += 1; CHK_CONST(uint32_t, a_u32Value); } while (0)
#define IEM_MC_ADD_GREG_U64_TO_LOCAL(a_u64Value, a_iGReg) do { (a_u64Value) += 1; CHK_CONST(uint64_t, a_u64Value); } while (0)
#define IEM_MC_ADD_LOCAL_S16_TO_EFF_ADDR(a_EffAddr, a_i16) do { (a_EffAddr) += (a_i16); CHK_GCPTR(a_EffAddr); } while (0)
#define IEM_MC_ADD_LOCAL_S32_TO_EFF_ADDR(a_EffAddr, a_i32) do { (a_EffAddr) += (a_i32); CHK_GCPTR(a_EffAddr); } while (0)
#define IEM_MC_ADD_LOCAL_S64_TO_EFF_ADDR(a_EffAddr, a_i64) do { (a_EffAddr) += (a_i64); CHK_GCPTR(a_EffAddr); } while (0)
#define IEM_MC_AND_LOCAL_U8(a_u8Local, a_u8Mask) do { (a_u8Local) &= (a_u8Mask); CHK_TYPE(uint8_t, a_u8Local); CHK_CONST(uint8_t, a_u8Mask); } while (0)
#define IEM_MC_AND_LOCAL_U16(a_u16Local, a_u16Mask) do { (a_u16Local) &= (a_u16Mask); CHK_TYPE(uint16_t, a_u16Local); CHK_CONST(uint16_t, a_u16Mask); } while (0)
#define IEM_MC_AND_LOCAL_U32(a_u32Local, a_u32Mask) do { (a_u32Local) &= (a_u32Mask); CHK_TYPE(uint32_t, a_u32Local); CHK_CONST(uint32_t, a_u32Mask); } while (0)
#define IEM_MC_AND_LOCAL_U64(a_u64Local, a_u64Mask) do { (a_u64Local) &= (a_u64Mask); CHK_TYPE(uint64_t, a_u64Local); CHK_CONST(uint64_t, a_u64Mask); } while (0)
#define IEM_MC_AND_ARG_U16(a_u16Arg, a_u16Mask) do { (a_u16Arg) &= (a_u16Mask); CHK_TYPE(uint16_t, a_u16Arg); CHK_CONST(uint16_t, a_u16Mask); } while (0)
#define IEM_MC_AND_ARG_U32(a_u32Arg, a_u32Mask) do { (a_u32Arg) &= (a_u32Mask); CHK_TYPE(uint32_t, a_u32Arg); CHK_CONST(uint32_t, a_u32Mask); } while (0)
#define IEM_MC_AND_ARG_U64(a_u64Arg, a_u64Mask) do { (a_u64Arg) &= (a_u64Mask); CHK_TYPE(uint64_t, a_u64Arg); CHK_CONST(uint64_t, a_u64Mask); } while (0)
#define IEM_MC_OR_LOCAL_U8(a_u8Local, a_u8Mask) do { (a_u8Local) |= (a_u8Mask); CHK_TYPE(uint8_t, a_u8Local); CHK_CONST(uint8_t, a_u8Mask); } while (0)
#define IEM_MC_OR_LOCAL_U32(a_u32Local, a_u32Mask) do { (a_u32Local) |= (a_u32Mask); CHK_TYPE(uint32_t, a_u32Local); CHK_CONST(uint32_t, a_u32Mask); } while (0)
#define IEM_MC_SAR_LOCAL_S16(a_i16Local, a_cShift) do { (a_i16Local) >>= (a_cShift); CHK_TYPE(int16_t, a_i16Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_SAR_LOCAL_S32(a_i32Local, a_cShift) do { (a_i32Local) >>= (a_cShift); CHK_TYPE(int32_t, a_i32Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_SAR_LOCAL_S64(a_i64Local, a_cShift) do { (a_i64Local) >>= (a_cShift); CHK_TYPE(int64_t, a_i64Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_SHL_LOCAL_S16(a_i16Local, a_cShift) do { (a_i16Local) <<= (a_cShift); CHK_TYPE(int16_t, a_i16Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_SHL_LOCAL_S32(a_i32Local, a_cShift) do { (a_i32Local) <<= (a_cShift); CHK_TYPE(int32_t, a_i32Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_SHL_LOCAL_S64(a_i64Local, a_cShift) do { (a_i64Local) <<= (a_cShift); CHK_TYPE(int64_t, a_i64Local); CHK_CONST(uint8_t, a_cShift); } while (0)
#define IEM_MC_AND_2LOCS_U32(a_u32Local, a_u32Mask) do { (a_u32Local) &= (a_u32Mask); CHK_TYPE(uint32_t, a_u32Local); } while (0)
#define IEM_MC_OR_2LOCS_U32(a_u32Local, a_u32Mask) do { (a_u32Local) |= (a_u32Mask); CHK_TYPE(uint32_t, a_u32Local); } while (0)
#define IEM_MC_CLEAR_FSW_EX() do { } while (0)
#define IEM_MC_STORE_MREG_U32_ZX_U64(a_iMReg, a_u32Value) do { CHK_TYPE(uint32_t, a_u32Value); } while (0)
#define IEM_MC_STORE_XREG_U64_ZX_U128(a_iXReg, a_u64Value) do { CHK_TYPE(uint64_t, a_u64Value); } while (0)
#define IEM_MC_STORE_XREG_U32_ZX_U128(a_iXReg, a_u32Value) do { CHK_TYPE(uint32_t, a_u32Value); } while (0)
#define IEM_MC_FETCH_MEM16_U8(a_u8Dst, a_iSeg, a_GCPtrMem16) do { CHK_TYPE(uint16_t, a_GCPtrMem16); } while (0)
#define IEM_MC_FETCH_MEM32_U8(a_u8Dst, a_iSeg, a_GCPtrMem32) do { CHK_TYPE(uint32_t, a_GCPtrMem32); } while (0)
#define IEM_MC_FETCH_MEM_I16(a_i16Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(int16_t, a_i16Dst); } while (0)
#define IEM_MC_FETCH_MEM_I32(a_i32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(int32_t, a_i32Dst); } while (0)
#define IEM_MC_FETCH_MEM_S32_SX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint8_t, a_offDisp); CHK_TYPE(uint16_t, a_u16Dst); } while (0)
do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint8_t, a_offDisp); CHK_TYPE(uint32_t, a_u32Dst); } while (0)
do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint8_t, a_offDisp); CHK_TYPE(uint64_t, a_u64Dst); } while (0)
#define IEM_MC_FETCH_MEM_R32(a_r32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(RTFLOAT32U, a_r32Dst);} while (0)
#define IEM_MC_FETCH_MEM_R64(a_r64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(RTFLOAT64U, a_r64Dst);} while (0)
#define IEM_MC_FETCH_MEM_R80(a_r80Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(RTFLOAT80U, a_r80Dst);} while (0)
#define IEM_MC_FETCH_MEM_U8_ZX_U16(a_u16Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U8_ZX_U32(a_u32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U8_ZX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U16_ZX_U32(a_u32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U16_ZX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U32_ZX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U8_SX_U16(a_u16Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U8_SX_U32(a_u32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U8_SX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U16_SX_U32(a_u32Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U16_SX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_FETCH_MEM_U32_SX_U64(a_u64Dst, a_iSeg, a_GCPtrMem) do { CHK_GCPTR(a_GCPtrMem); } while (0)
#define IEM_MC_STORE_MEM_U8(a_iSeg, a_GCPtrMem, a_u8Value) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(uint8_t, a_u8Value); CHK_SEG_IDX(a_iSeg); } while (0)
#define IEM_MC_STORE_MEM_U16(a_iSeg, a_GCPtrMem, a_u16Value) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(uint16_t, a_u16Value); } while (0)
#define IEM_MC_STORE_MEM_U32(a_iSeg, a_GCPtrMem, a_u32Value) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(uint32_t, a_u32Value); } while (0)
#define IEM_MC_STORE_MEM_U64(a_iSeg, a_GCPtrMem, a_u64Value) do { CHK_GCPTR(a_GCPtrMem); CHK_TYPE(uint64_t, a_u64Value); } while (0)
#define IEM_MC_STORE_MEM_U8_CONST(a_iSeg, a_GCPtrMem, a_u8C) do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint8_t, a_u8C); } while (0)
#define IEM_MC_STORE_MEM_U16_CONST(a_iSeg, a_GCPtrMem, a_u16C) do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint16_t, a_u16C); } while (0)
#define IEM_MC_STORE_MEM_U32_CONST(a_iSeg, a_GCPtrMem, a_u32C) do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint32_t, a_u32C); } while (0)
#define IEM_MC_STORE_MEM_U64_CONST(a_iSeg, a_GCPtrMem, a_u64C) do { CHK_GCPTR(a_GCPtrMem); CHK_CONST(uint64_t, a_u64C); } while (0)
#define IEM_MC_STORE_MEM_I8_CONST_BY_REF( a_pi8Dst, a_i8C) do { CHK_TYPE(int8_t *, a_pi8Dst); CHK_CONST(int8_t, a_i8C); } while (0)
#define IEM_MC_STORE_MEM_I16_CONST_BY_REF(a_pi16Dst, a_i16C) do { CHK_TYPE(int16_t *, a_pi16Dst); CHK_CONST(int16_t, a_i16C); } while (0)
#define IEM_MC_STORE_MEM_I32_CONST_BY_REF(a_pi32Dst, a_i32C) do { CHK_TYPE(int32_t *, a_pi32Dst); CHK_CONST(int32_t, a_i32C); } while (0)
#define IEM_MC_STORE_MEM_I64_CONST_BY_REF(a_pi64Dst, a_i64C) do { CHK_TYPE(int64_t *, a_pi64Dst); CHK_CONST(int64_t, a_i64C); } while (0)
#define IEM_MC_STORE_MEM_NEG_QNAN_R32_BY_REF(a_pr32Dst) do { CHK_TYPE(PRTFLOAT32U, a_pr32Dst); } while (0)
#define IEM_MC_STORE_MEM_NEG_QNAN_R64_BY_REF(a_pr64Dst) do { CHK_TYPE(PRTFLOAT64U, a_pr64Dst); } while (0)
#define IEM_MC_STORE_MEM_NEG_QNAN_R80_BY_REF(a_pr80Dst) do { CHK_TYPE(PRTFLOAT80U, a_pr80Dst); } while (0)
#define IEM_MC_MEM_MAP(a_pMem, a_fAccess, a_iSeg, a_GCPtrMem, a_iArg) do { NOREF(a_fAccess); } while (0)
#define IEM_MC_CALC_RM_EFF_ADDR(a_GCPtrEff, bRm, cbImm) do { (a_GCPtrEff) = 0; CHK_GCPTR(a_GCPtrEff); } while (0)
#define IEM_MC_STORE_FPU_RESULT_MEM_OP_THEN_POP(a_FpuData, a_iStReg, a_iEffSeg, a_GCPtrEff) do { } while (0)
#define IEM_MC_FPU_STACK_UNDERFLOW_MEM_OP_THEN_POP(a_iStReg, a_iEffSeg, a_GCPtrEff) do { } while (0)
#define IEM_MC_FPU_STACK_UNDERFLOW_THEN_POP_POP() do { } while (0)
#define IEM_MC_FPU_STACK_PUSH_UNDERFLOW() do { } while (0)
#define IEM_MC_FPU_STACK_PUSH_UNDERFLOW_TWO() do { } while (0)
#define IEM_MC_FPU_STACK_PUSH_OVERFLOW() do { } while (0)
#define IEM_MC_UPDATE_FPU_OPCODE_IP() do { } while (0)
#define IEM_MC_FPU_STACK_DEC_TOP() do { } while (0)
#define IEM_MC_FPU_STACK_INC_TOP() do { } while (0)
#define IEM_MC_USED_FPU() do { } while (0)
if (g_fRandom) {
if (g_fRandom) {
if (g_fRandom) {
#define IEM_MC_ELSE() } else {
#define IEM_MC_ENDIF() } do {} while (0)
#include "../VMMAll/IEMAllInstructions.cpp.h"
int main()
return rcExit;