Source to ./amd64-codegen.h
/*
* amd64-codegen.h: Macros for generating amd64 code
*
* Authors:
* Paolo Molaro ([email protected])
* Intel Corporation (ORP Project)
* Sergey Chaban ([email protected])
* Dietmar Maurer ([email protected])
* Patrik Torstensson
* Zalman Stern
*
* Copyright (C) 2000 Intel Corporation. All rights reserved.
* Copyright (C) 2001, 2002 Ximian, Inc.
*/
#ifndef AMD64_H
#define AMD64_H
typedef enum {
AMD64_RAX = 0,
AMD64_RCX = 1,
AMD64_RDX = 2,
AMD64_RBX = 3,
AMD64_RSP = 4,
AMD64_RBP = 5,
AMD64_RSI = 6,
AMD64_RDI = 7,
AMD64_R8 = 8,
AMD64_R9 = 9,
AMD64_R10 = 10,
AMD64_R11 = 11,
AMD64_R12 = 12,
AMD64_R13 = 13,
AMD64_R14 = 14,
AMD64_R15 = 15,
AMD64_RIP = 16,
AMD64_NREG
} AMD64_Reg_No;
typedef enum {
AMD64_XMM0 = 0,
AMD64_XMM1 = 1,
AMD64_XMM2 = 2,
AMD64_XMM3 = 3,
AMD64_XMM4 = 4,
AMD64_XMM5 = 5,
AMD64_XMM6 = 6,
AMD64_XMM7 = 7,
AMD64_XMM8 = 8,
AMD64_XMM9 = 9,
AMD64_XMM10 = 10,
AMD64_XMM11 = 11,
AMD64_XMM12 = 12,
AMD64_XMM13 = 13,
AMD64_XMM14 = 14,
AMD64_XMM15 = 15,
AMD64_XMM_NREG = 16,
} AMD64_XMM_Reg_No;
typedef enum
{
AMD64_REX_B = 1, /* The register in r/m field, base register in SIB byte, or reg in opcode is 8-15 rather than 0-7 */
AMD64_REX_X = 2, /* The index register in SIB byte is 8-15 rather than 0-7 */
AMD64_REX_R = 4, /* The reg field of ModRM byte is 8-15 rather than 0-7 */
AMD64_REX_W = 8 /* Opeartion is 64-bits instead of 32 (default) or 16 (with 0x66 prefix) */
} AMD64_REX_Bits;
#define AMD64_CALLEE_REGS ((1<<AMD64_RAX) | (1<<AMD64_RCX) | (1<<AMD64_RDX) | (1<<AMD64_RSI) | (1<<AMD64_RDI) | (1<<AMD64_R8) | (1<<AMD64_R9) | (1<<AMD64_R10))
#define AMD64_IS_CALLEE_REG(reg) (AMD64_CALLEE_REGS & (1 << (reg)))
#define AMD64_ARGUMENT_REGS ((1<<AMD64_RDI) | (1<<AMD64_RSI) | (1<<AMD64_RDX) | (1<<AMD64_RCX) | (1<<AMD64_R8) | (1<<AMD64_R9))
#define AMD64_IS_ARGUMENT_REG(reg) (AMD64_ARGUMENT_REGS & (1 << (reg)))
#define AMD64_CALLEE_SAVED_REGS ((1<<AMD64_RBX) | (1<<AMD64_R12) | (1<<AMD64_R13) | (1<<AMD64_R14) | (1<<AMD64_R15) | (1<<AMD64_RBP))
#define AMD64_IS_CALLEE_SAVED_REG(reg) (AMD64_CALLEE_SAVED_REGS & (1 << (reg)))
#define AMD64_REX(bits) ((unsigned char)(0x40 | (bits)))
#define amd64_emit_rex(inst, width, reg_modrm, reg_index, reg_rm_base_opcode) do \
{ \
unsigned char _amd64_rex_bits = \
(((width) > 4) ? AMD64_REX_W : 0) | \
(((reg_modrm) > 7) ? AMD64_REX_R : 0) | \
(((reg_index) > 7) ? AMD64_REX_X : 0) | \
(((reg_rm_base_opcode) > 7) ? AMD64_REX_B : 0); \
if ((_amd64_rex_bits != 0) || (((width) == 1))) *(inst)++ = AMD64_REX(_amd64_rex_bits); \
} while (0)
typedef union {
long val;
unsigned char b [8];
} amd64_imm_buf;
#include "x86-codegen.h"
#define amd64_bswap32(inst,reg) \
do { \
*(inst)++ = 0x0f; \
*(inst)++ = (unsigned char)0xc8 + (reg); \
} while (0)
/* In 64 bit mode, all registers have a low byte subregister */
#undef X86_IS_BYTE_REG
#define X86_IS_BYTE_REG(reg) 1
#define amd64_modrm_mod(modrm) ((modrm) >> 6)
#define amd64_modrm_reg(modrm) (((modrm) >> 3) & 0x7)
#define amd64_modrm_rm(modrm) ((modrm) & 0x7)
#define amd64_rex_r(rex) ((((rex) >> 2) & 0x1) << 3)
#define amd64_rex_x(rex) ((((rex) >> 1) & 0x1) << 3)
#define amd64_rex_b(rex) ((((rex) >> 0) & 0x1) << 3)
#define amd64_is_imm32(val) ((glong)val >= -((glong)1<<31) && (glong)val <= (((glong)1<<31)-1))
#define x86_imm_emit64(inst,imm) \
do { \
amd64_imm_buf imb; imb.val = (long) (imm); \
*(inst)++ = imb.b [0]; \
*(inst)++ = imb.b [1]; \
*(inst)++ = imb.b [2]; \
*(inst)++ = imb.b [3]; \
*(inst)++ = imb.b [4]; \
*(inst)++ = imb.b [5]; \
*(inst)++ = imb.b [6]; \
*(inst)++ = imb.b [7]; \
} while (0)
#define amd64_membase_emit(inst,reg,basereg,disp) do { \
if ((basereg) == AMD64_RIP) { \
x86_address_byte ((inst), 0, (reg)&0x7, 5); \
x86_imm_emit32 ((inst), (disp)); \
} \
else \
x86_membase_emit ((inst),(reg)&0x7, (basereg)&0x7, (disp)); \
} while (0)
#define amd64_alu_reg_imm_size(inst,opc,reg,imm,size) \
do { \
if ((reg) == X86_EAX) { \
amd64_emit_rex(inst, size, 0, 0, 0); \
*(inst)++ = (((unsigned char)(opc)) << 3) + 5; \
x86_imm_emit32 ((inst), (imm)); \
break; \
} \
if (x86_is_imm8((imm))) { \
amd64_emit_rex(inst, size, 0, 0, (reg)); \
*(inst)++ = (unsigned char)0x83; \
x86_reg_emit ((inst), (opc), (reg)); \
x86_imm_emit8 ((inst), (imm)); \
} else { \
amd64_emit_rex(inst, size, 0, 0, (reg)); \
*(inst)++ = (unsigned char)0x81; \
x86_reg_emit ((inst), (opc), (reg)); \
x86_imm_emit32 ((inst), (imm)); \
} \
} while (0)
#define amd64_alu_reg_imm(inst,opc,reg,imm) amd64_alu_reg_imm_size((inst),(opc),(reg),(imm),8)
#define amd64_alu_reg_reg_size(inst,opc,dreg,reg,size) \
do { \
amd64_emit_rex(inst, size, (dreg), 0, (reg)); \
*(inst)++ = (((unsigned char)(opc)) << 3) + 3; \
x86_reg_emit ((inst), (dreg), (reg)); \
} while (0)
#define amd64_alu_reg_reg(inst,opc,dreg,reg) amd64_alu_reg_reg_size ((inst),(opc),(dreg),(reg),8)
#define amd64_mov_regp_reg(inst,regp,reg,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size), (reg), 0, (regp)); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x88; break; \
case 2: case 4: case 8: *(inst)++ = (unsigned char)0x89; break; \
default: assert (0); \
} \
x86_regp_emit ((inst), (reg), (regp)); \
} while (0)
#define amd64_mov_membase_reg(inst,basereg,disp,reg,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size), (reg), 0, (basereg)); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x88; break; \
case 2: case 4: case 8: *(inst)++ = (unsigned char)0x89; break; \
default: assert (0); \
} \
x86_membase_emit ((inst), ((reg)&0x7), ((basereg)&0x7), (disp)); \
} while (0)
#define amd64_mov_reg_reg(inst,dreg,reg,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size), (dreg), 0, (reg)); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x8a; break; \
case 2: case 4: case 8: *(inst)++ = (unsigned char)0x8b; break; \
default: assert (0); \
} \
x86_reg_emit ((inst), (dreg), (reg)); \
} while (0)
#define amd64_mov_reg_mem(inst,reg,mem,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size), (reg), 0, 0); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x8a; break; \
case 2: case 4: case 8: *(inst)++ = (unsigned char)0x8b; break; \
default: assert (0); \
} \
x86_address_byte ((inst), 0, (reg), 4); \
x86_address_byte ((inst), 0, 4, 5); \
x86_imm_emit32 ((inst), (mem)); \
} while (0)
#define amd64_mov_reg_membase(inst,reg,basereg,disp,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size), (reg), 0, (basereg)); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x8a; break; \
case 2: case 4: case 8: *(inst)++ = (unsigned char)0x8b; break; \
default: assert (0); \
} \
amd64_membase_emit ((inst), (reg), (basereg), (disp)); \
} while (0)
#define amd64_movzx_reg_membase(inst,reg,basereg,disp,size) \
do { \
amd64_emit_rex(inst, (size), (reg), 0, (basereg)); \
switch ((size)) { \
case 1: *(inst)++ = (unsigned char)0x0f; *(inst)++ = (unsigned char)0xb6; break; \
case 2: *(inst)++ = (unsigned char)0x0f; *(inst)++ = (unsigned char)0xb7; break; \
case 4: case 8: *(inst)++ = (unsigned char)0x8b; break; \
default: assert (0); \
} \
x86_membase_emit ((inst), ((reg)&0x7), ((basereg)&0x7), (disp)); \
} while (0)
#define amd64_movsxd_reg_membase(inst,reg,basereg,disp) \
do { \
amd64_emit_rex(inst,8,(reg),0,(basereg)); \
*(inst)++ = (unsigned char)0x63; \
x86_membase_emit ((inst), ((reg)&0x7), ((basereg)&0x7), (disp)); \
} while (0)
#define amd64_movsxd_reg_reg(inst,dreg,reg) \
do { \
amd64_emit_rex(inst,8,(dreg),0,(reg)); \
*(inst)++ = (unsigned char)0x63; \
x86_reg_emit ((inst), (dreg), (reg)); \
} while (0)
/* Pretty much the only instruction that supports a 64-bit immediate. Optimize for common case of
* 32-bit immediate. Pepper with casts to avoid warnings.
*/
#define amd64_mov_reg_imm_size(inst,reg,imm,size) \
do { \
amd64_emit_rex(inst, (size), 0, 0, (reg)); \
*(inst)++ = (unsigned char)0xb8 + ((reg) & 0x7); \
if ((size) == 8) \
x86_imm_emit64 ((inst), (long)(imm)); \
else \
x86_imm_emit32 ((inst), (int)(long)(imm)); \
} while (0)
#define amd64_mov_reg_imm(inst,reg,imm) \
do { \
int _amd64_width_temp = ((long)(imm) == (long)(int)(long)(imm)); \
amd64_mov_reg_imm_size ((inst), (reg), (imm), (_amd64_width_temp ? 4 : 8)); \
} while (0)
#define amd64_set_reg_template(inst,reg) amd64_mov_reg_imm_size ((inst),(reg), 0, 8)
#define amd64_set_template(inst,reg) amd64_set_reg_template((inst),(reg))
#define amd64_mov_membase_imm(inst,basereg,disp,imm,size) \
do { \
if ((size) == 2) \
*(inst)++ = (unsigned char)0x66; \
amd64_emit_rex(inst, (size) == 1 ? 0 : (size), 0, 0, (basereg)); \
if ((size) == 1) { \
*(inst)++ = (unsigned char)0xc6; \
x86_membase_emit ((inst), 0, (basereg) & 0x7, (disp)); \
x86_imm_emit8 ((inst), (imm)); \
} else if ((size) == 2) { \
*(inst)++ = (unsigned char)0xc7; \
x86_membase_emit ((inst), 0, (basereg) & 0x7, (disp)); \
x86_imm_emit16 ((inst), (imm)); \
} else { \
*(inst)++ = (unsigned char)0xc7; \
x86_membase_emit ((inst), 0, (basereg) & 0x7, (disp)); \
x86_imm_emit32 ((inst), (imm)); \
} \
} while (0)
#define amd64_lea_membase(inst,reg,basereg,disp) \
do { \
amd64_emit_rex(inst, 8, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)0x8d; \
amd64_membase_emit ((inst), (reg), (basereg), (disp)); \
} while (0)
/* Instruction are implicitly 64-bits so don't generate REX for just the size. */
#define amd64_push_reg(inst,reg) \
do { \
amd64_emit_rex(inst, 0, 0, 0, (reg)); \
*(inst)++ = (unsigned char)0x50 + ((reg) & 0x7); \
} while (0)
/* Instruction is implicitly 64-bits so don't generate REX for just the size. */
#define amd64_push_membase(inst,basereg,disp) \
do { \
amd64_emit_rex(inst, 0, 0, 0, (basereg)); \
*(inst)++ = (unsigned char)0xff; \
x86_membase_emit ((inst), 6, (basereg) & 0x7, (disp)); \
} while (0)
#define amd64_pop_reg(inst,reg) \
do { \
amd64_emit_rex(inst, 0, 0, 0, (reg)); \
*(inst)++ = (unsigned char)0x58 + ((reg) & 0x7); \
} while (0)
#define amd64_call_reg(inst,reg) \
do { \
amd64_emit_rex(inst, 8, 0, 0, (reg)); \
*(inst)++ = (unsigned char)0xff; \
x86_reg_emit ((inst), 2, ((reg) & 0x7)); \
} while (0)
#define amd64_ret(inst) do { *(inst)++ = (unsigned char)0xc3; } while (0)
#define amd64_leave(inst) do { *(inst)++ = (unsigned char)0xc9; } while (0)
#define amd64_movsd_reg_regp(inst,reg,regp) \
do { \
*(inst)++ = (unsigned char)0xf2; \
amd64_emit_rex(inst, 0, (reg), 0, (regp)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x10; \
x86_regp_emit ((inst), (reg) & 0x7, (regp) & 0x7); \
} while (0)
#define amd64_movsd_regp_reg(inst,regp,reg) \
do { \
*(inst)++ = (unsigned char)0xf2; \
amd64_emit_rex(inst, 0, (reg), 0, (regp)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x11; \
x86_regp_emit ((inst), (reg) & 0x7, (regp) & 0x7); \
} while (0)
#define amd64_movss_reg_regp(inst,reg,regp) \
do { \
*(inst)++ = (unsigned char)0xf3; \
amd64_emit_rex(inst, 0, (reg), 0, (regp)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x10; \
x86_regp_emit ((inst), (reg) & 0x7, (regp) & 0x7); \
} while (0)
#define amd64_movss_regp_reg(inst,regp,reg) \
do { \
*(inst)++ = (unsigned char)0xf3; \
amd64_emit_rex(inst, 0, (reg), 0, (regp)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x11; \
x86_regp_emit ((inst), (reg) & 0x7, (regp) & 0x7); \
} while (0)
#define amd64_movsd_reg_membase(inst,reg,basereg,disp) \
do { \
*(inst)++ = (unsigned char)0xf2; \
amd64_emit_rex(inst, 0, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x10; \
x86_membase_emit ((inst), (reg) & 0x7, (basereg) & 0x7, (disp)); \
} while (0)
#define amd64_movss_reg_membase(inst,reg,basereg,disp) \
do { \
*(inst)++ = (unsigned char)0xf3; \
amd64_emit_rex(inst, 0, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x10; \
x86_membase_emit ((inst), (reg) & 0x7, (basereg) & 0x7, (disp)); \
} while (0)
#define amd64_movsd_membase_reg(inst,basereg,disp,reg) \
do { \
*(inst)++ = (unsigned char)0xf2; \
amd64_emit_rex(inst, 0, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x11; \
x86_membase_emit ((inst), (reg) & 0x7, (basereg) & 0x7, (disp)); \
} while (0)
#define amd64_movss_membase_reg(inst,basereg,disp,reg) \
do { \
*(inst)++ = (unsigned char)0xf3; \
amd64_emit_rex(inst, 0, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)0x0f; \
*(inst)++ = (unsigned char)0x11; \
x86_membase_emit ((inst), (reg) & 0x7, (basereg) & 0x7, (disp)); \
} while (0)
/* The original inc_reg opcode is used as the REX prefix */
#define amd64_inc_reg_size(inst,reg,size) \
do { \
amd64_emit_rex ((inst),(size),0,0,(reg)); \
*(inst)++ = (unsigned char)0xff; \
x86_reg_emit ((inst),0,(reg) & 0x7); \
} while (0)
#define amd64_dec_reg_size(inst,reg,size) \
do { \
amd64_emit_rex ((inst),(size),0,0,(reg)); \
*(inst)++ = (unsigned char)0xff; \
x86_reg_emit ((inst),1,(reg) & 0x7); \
} while (0)
#define amd64_padding_size(inst,size) \
do { if (size == 1) x86_padding ((inst),(size)); else { amd64_emit_rex ((inst),8,0,0,0); x86_padding((inst),(size) - 1); } } while (0)
#define amd64_fld_membase_size(inst,basereg,disp,is_double,size) do { \
amd64_emit_rex ((inst),0,0,0,(basereg)); \
*(inst)++ = (is_double) ? (unsigned char)0xdd : (unsigned char)0xd9; \
amd64_membase_emit ((inst), 0, (basereg), (disp)); \
} while (0)
#define amd64_call_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); *(inst)++ = (unsigned char)0xff; amd64_membase_emit ((inst),2, (basereg),(disp)); } while (0)
/*
* SSE
*/
#define emit_opcode3(inst,op1,op2,op3) do { \
*(inst)++ = (unsigned char)(op1); \
*(inst)++ = (unsigned char)(op2); \
*(inst)++ = (unsigned char)(op3); \
} while (0)
#define emit_sse_reg_reg_size(inst,dreg,reg,op1,op2,op3,size) do { \
*(inst)++ = (unsigned char)(op1); \
amd64_emit_rex ((inst), size, (dreg), 0, (reg)); \
*(inst)++ = (unsigned char)(op2); \
*(inst)++ = (unsigned char)(op3); \
x86_reg_emit ((inst), (dreg), (reg)); \
} while (0)
#define emit_sse_reg_reg(inst,dreg,reg,op1,op2,op3) emit_sse_reg_reg_size ((inst), (dreg), (reg), (op1), (op2), (op3), 0)
#define emit_sse_membase_reg(inst,basereg,disp,reg,op1,op2,op3) do { \
*(inst)++ = (unsigned char)(op1); \
amd64_emit_rex ((inst), 0, (reg), 0, (basereg)); \
*(inst)++ = (unsigned char)(op2); \
*(inst)++ = (unsigned char)(op3); \
amd64_membase_emit ((inst), (reg), (basereg), (disp)); \
} while (0)
#define emit_sse_reg_membase(inst,dreg,basereg,disp,op1,op2,op3) do { \
*(inst)++ = (unsigned char)(op1); \
amd64_emit_rex ((inst), 0, (dreg), 0, (basereg) == AMD64_RIP ? 0 : (basereg)); \
*(inst)++ = (unsigned char)(op2); \
*(inst)++ = (unsigned char)(op3); \
amd64_membase_emit ((inst), (dreg), (basereg), (disp)); \
} while (0)
#define amd64_sse_xorpd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst),(dreg),(reg), 0x66, 0x0f, 0x57)
#define amd64_sse_xorpd_reg_membase(inst,dreg,basereg,disp) emit_sse_reg_membase ((inst),(dreg),(basereg), (disp), 0x66, 0x0f, 0x57)
#define amd64_sse_movsd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x10)
#define amd64_sse_movsd_reg_membase(inst,dreg,basereg,disp) emit_sse_reg_membase ((inst), (dreg), (basereg), (disp), 0xf2, 0x0f, 0x10)
#define amd64_sse_movsd_membase_reg(inst,basereg,disp,reg) emit_sse_membase_reg ((inst), (basereg), (disp), (reg), 0xf2, 0x0f, 0x11)
#define amd64_sse_movss_membase_reg(inst,basereg,disp,reg) emit_sse_membase_reg ((inst), (basereg), (disp), (reg), 0xf3, 0x0f, 0x11)
#define amd64_sse_movss_reg_membase(inst,dreg,basereg,disp) emit_sse_reg_membase ((inst), (dreg), (basereg), (disp), 0xf3, 0x0f, 0x10)
#define amd64_sse_comisd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst),(dreg),(reg),0x66,0x0f,0x2f)
#define amd64_sse_comisd_reg_membase(inst,dreg,basereg,disp) emit_sse_reg_membase ((inst), (dreg), (basereg), (disp), 0x66, 0x0f, 0x2f)
#define amd64_sse_cvtsd2si_reg_reg(inst,dreg,reg) emit_sse_reg_reg_size ((inst), (dreg), (reg), 0xf2, 0x0f, 0x2d, 8)
#define amd64_sse_cvttsd2si_reg_reg_size(inst,dreg,reg,size) emit_sse_reg_reg_size ((inst), (dreg), (reg), 0xf2, 0x0f, 0x2c, (size))
#define amd64_sse_cvttsd2si_reg_reg(inst,dreg,reg) amd64_sse_cvttsd2si_reg_reg_size ((inst), (dreg), (reg), 8)
#define amd64_sse_cvtsi2sd_reg_reg_size(inst,dreg,reg,size) emit_sse_reg_reg_size ((inst), (dreg), (reg), 0xf2, 0x0f, 0x2a, (size))
#define amd64_sse_cvtsi2sd_reg_reg(inst,dreg,reg) amd64_sse_cvtsi2sd_reg_reg_size ((inst), (dreg), (reg), 8)
#define amd64_sse_cvtsd2ss_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x5a)
#define amd64_sse_cvtss2sd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf3, 0x0f, 0x5a)
#define amd64_sse_addsd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x58)
#define amd64_sse_subsd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x5c)
#define amd64_sse_mulsd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x59)
#define amd64_sse_divsd_reg_reg(inst,dreg,reg) emit_sse_reg_reg ((inst), (dreg), (reg), 0xf2, 0x0f, 0x5e)
/* Generated from x86-codegen.h */
#define amd64_breakpoint_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_breakpoint(inst); } while (0)
#define amd64_cld_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_cld(inst); } while (0)
#define amd64_stosb_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_stosb(inst); } while (0)
#define amd64_stosl_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_stosl(inst); } while (0)
#define amd64_stosd_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_stosd(inst); } while (0)
#define amd64_movsb_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_movsb(inst); } while (0)
#define amd64_movsl_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_movsl(inst); } while (0)
#define amd64_movsd_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_movsd(inst); } while (0)
#define amd64_prefix_size(inst,p,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_prefix((inst), p); } while (0)
#define amd64_rdtsc_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_rdtsc(inst); } while (0)
#define amd64_cmpxchg_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_cmpxchg_reg_reg((inst),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_cmpxchg_mem_reg_size(inst,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_cmpxchg_mem_reg((inst),(mem),((reg)&0x7)); } while (0)
#define amd64_cmpxchg_membase_reg_size(inst,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_cmpxchg_membase_reg((inst),((basereg)&0x7),(disp),((reg)&0x7)); } while (0)
#define amd64_xchg_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_xchg_reg_reg((inst),((dreg)&0x7),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_xchg_mem_reg_size(inst,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_xchg_mem_reg((inst),(mem),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_xchg_membase_reg_size(inst,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg))); x86_xchg_membase_reg((inst),((basereg)&0x7),(disp),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_inc_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_inc_mem((inst),(mem)); } while (0)
#define amd64_inc_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_inc_membase((inst),((basereg)&0x7),(disp)); } while (0)
//#define amd64_inc_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_inc_reg((inst),((reg)&0x7)); } while (0)
#define amd64_dec_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_dec_mem((inst),(mem)); } while (0)
#define amd64_dec_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_dec_membase((inst),((basereg)&0x7),(disp)); } while (0)
//#define amd64_dec_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_dec_reg((inst),((reg)&0x7)); } while (0)
#define amd64_not_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_not_mem((inst),(mem)); } while (0)
#define amd64_not_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_not_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_not_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_not_reg((inst),((reg)&0x7)); } while (0)
#define amd64_neg_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_neg_mem((inst),(mem)); } while (0)
#define amd64_neg_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_neg_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_neg_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_neg_reg((inst),((reg)&0x7)); } while (0)
#define amd64_nop_size(inst,size) do { x86_nop(inst); } while (0)
//#define amd64_alu_reg_imm_size(inst,opc,reg,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_alu_reg_imm((inst),(opc),((reg)&0x7),(imm)); } while (0)
#define amd64_alu_mem_imm_size(inst,opc,mem,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_alu_mem_imm((inst),(opc),(mem),(imm)); } while (0)
#define amd64_alu_membase_imm_size(inst,opc,basereg,disp,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_alu_membase_imm((inst),(opc),((basereg)&0x7),(disp),(imm)); } while (0)
#define amd64_alu_mem_reg_size(inst,opc,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_alu_mem_reg((inst),(opc),(mem),((reg)&0x7)); } while (0)
#define amd64_alu_membase_reg_size(inst,opc,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_alu_membase_reg((inst),(opc),((basereg)&0x7),(disp),((reg)&0x7)); } while (0)
//#define amd64_alu_reg_reg_size(inst,opc,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_alu_reg_reg((inst),(opc),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_alu_reg8_reg8_size(inst,opc,dreg,reg,is_dreg_h,is_reg_h,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_alu_reg8_reg8((inst),(opc),((dreg)&0x7),((reg)&0x7),(is_dreg_h),(is_reg_h)); } while (0)
#define amd64_alu_reg_mem_size(inst,opc,reg,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_alu_reg_mem((inst),(opc),((reg)&0x7),(mem)); } while (0)
#define amd64_alu_reg_membase_size(inst,opc,reg,basereg,disp,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_alu_reg_membase((inst),(opc),((reg)&0x7),((basereg)&0x7),(disp)); } while (0)
#define amd64_test_reg_imm_size(inst,reg,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_test_reg_imm((inst),((reg)&0x7),(imm)); } while (0)
#define amd64_test_mem_imm_size(inst,mem,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_test_mem_imm((inst),(mem),(imm)); } while (0)
#define amd64_test_membase_imm_size(inst,basereg,disp,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_test_membase_imm((inst),((basereg)&0x7),(disp),(imm)); } while (0)
#define amd64_test_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_test_reg_reg((inst),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_test_mem_reg_size(inst,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_test_mem_reg((inst),(mem),((reg)&0x7)); } while (0)
#define amd64_test_membase_reg_size(inst,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_test_membase_reg((inst),((basereg)&0x7),(disp),((reg)&0x7)); } while (0)
#define amd64_shift_reg_imm_size(inst,opc,reg,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_shift_reg_imm((inst),(opc),((reg)&0x7),(imm)); } while (0)
#define amd64_shift_mem_imm_size(inst,opc,mem,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_shift_mem_imm((inst),(opc),(mem),(imm)); } while (0)
#define amd64_shift_membase_imm_size(inst,opc,basereg,disp,imm,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_shift_membase_imm((inst),(opc),((basereg)&0x7),(disp),(imm)); } while (0)
#define amd64_shift_reg_size(inst,opc,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_shift_reg((inst),(opc),((reg)&0x7)); } while (0)
#define amd64_shift_mem_size(inst,opc,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_shift_mem((inst),(opc),(mem)); } while (0)
#define amd64_shift_membase_size(inst,opc,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_shift_membase((inst),(opc),((basereg)&0x7),(disp)); } while (0)
#define amd64_shrd_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_shrd_reg((inst),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_shrd_reg_imm_size(inst,dreg,reg,shamt,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_shrd_reg_imm((inst),((dreg)&0x7),((reg)&0x7),(shamt)); } while (0)
#define amd64_shld_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_shld_reg((inst),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_shld_reg_imm_size(inst,dreg,reg,shamt,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_shld_reg_imm((inst),((dreg)&0x7),((reg)&0x7),(shamt)); } while (0)
#define amd64_mul_reg_size(inst,reg,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_mul_reg((inst),((reg)&0x7),(is_signed)); } while (0)
#define amd64_mul_mem_size(inst,mem,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_mul_mem((inst),(mem),(is_signed)); } while (0)
#define amd64_mul_membase_size(inst,basereg,disp,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_mul_membase((inst),((basereg)&0x7),(disp),(is_signed)); } while (0)
#define amd64_imul_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_imul_reg_reg((inst),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_imul_reg_mem_size(inst,reg,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_imul_reg_mem((inst),((reg)&0x7),(mem)); } while (0)
#define amd64_imul_reg_membase_size(inst,reg,basereg,disp,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_imul_reg_membase((inst),((reg)&0x7),((basereg)&0x7),(disp)); } while (0)
#define amd64_imul_reg_reg_imm_size(inst,dreg,reg,imm,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_imul_reg_reg_imm((inst),((dreg)&0x7),((reg)&0x7),(imm)); } while (0)
#define amd64_imul_reg_mem_imm_size(inst,reg,mem,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_imul_reg_mem_imm((inst),((reg)&0x7),(mem),(imm)); } while (0)
#define amd64_imul_reg_membase_imm_size(inst,reg,basereg,disp,imm,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_imul_reg_membase_imm((inst),((reg)&0x7),((basereg)&0x7),(disp),(imm)); } while (0)
#define amd64_div_reg_size(inst,reg,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_div_reg((inst),((reg)&0x7),(is_signed)); } while (0)
#define amd64_div_mem_size(inst,mem,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_div_mem((inst),(mem),(is_signed)); } while (0)
#define amd64_div_membase_size(inst,basereg,disp,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_div_membase((inst),((basereg)&0x7),(disp),(is_signed)); } while (0)
#define amd64_mov_mem_reg_size(inst,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_mov_mem_reg((inst),(mem),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
//#define amd64_mov_regp_reg_size(inst,regp,reg,size) do { amd64_emit_rex ((inst),(size),(regp),0,(reg)); x86_mov_regp_reg((inst),(regp),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
//#define amd64_mov_membase_reg_size(inst,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_mov_membase_reg((inst),((basereg)&0x7),(disp),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_mov_memindex_reg_size(inst,basereg,disp,indexreg,shift,reg,size) do { amd64_emit_rex ((inst),(size),(reg),(indexreg),(basereg)); x86_mov_memindex_reg((inst),((basereg)&0x7),(disp),((indexreg)&0x7),(shift),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_mov_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_mov_reg_reg((inst),((dreg)&0x7),((reg)&0x7),(size) == 8 ? 4 : (size)); } while (0)
//#define amd64_mov_reg_mem_size(inst,reg,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_mov_reg_mem((inst),((reg)&0x7),(mem),(size) == 8 ? 4 : (size)); } while (0)
//#define amd64_mov_reg_membase_size(inst,reg,basereg,disp,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_mov_reg_membase((inst),((reg)&0x7),((basereg)&0x7),(disp),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_mov_reg_memindex_size(inst,reg,basereg,disp,indexreg,shift,size) do { amd64_emit_rex ((inst),(size),(reg),(indexreg),(basereg)); x86_mov_reg_memindex((inst),((reg)&0x7),((basereg)&0x7),(disp),((indexreg)&0x7),(shift),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_clear_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_clear_reg((inst),((reg)&0x7)); } while (0)
//#define amd64_mov_reg_imm_size(inst,reg,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_mov_reg_imm((inst),((reg)&0x7),(imm)); } while (0)
#define amd64_mov_mem_imm_size(inst,mem,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_mov_mem_imm((inst),(mem),(imm),(size) == 8 ? 4 : (size)); } while (0)
//#define amd64_mov_membase_imm_size(inst,basereg,disp,imm,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_mov_membase_imm((inst),((basereg)&0x7),(disp),(imm),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_mov_memindex_imm_size(inst,basereg,disp,indexreg,shift,imm,size) do { amd64_emit_rex ((inst),(size),0,(indexreg),(basereg)); x86_mov_memindex_imm((inst),((basereg)&0x7),(disp),((indexreg)&0x7),(shift),(imm),(size) == 8 ? 4 : (size)); } while (0)
#define amd64_lea_mem_size(inst,reg,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_lea_mem((inst),((reg)&0x7),(mem)); } while (0)
//#define amd64_lea_membase_size(inst,reg,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_lea_membase((inst),((reg)&0x7),((basereg)&0x7),(disp)); } while (0)
#define amd64_lea_memindex_size(inst,reg,basereg,disp,indexreg,shift,size) do { amd64_emit_rex ((inst),(size),(reg),(indexreg),(basereg)); x86_lea_memindex((inst),((reg)&0x7),((basereg)&0x7),(disp),((indexreg)&0x7),(shift)); } while (0)
#define amd64_widen_reg_size(inst,dreg,reg,is_signed,is_half,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_widen_reg((inst),((dreg)&0x7),((reg)&0x7),(is_signed),(is_half)); } while (0)
#define amd64_widen_mem_size(inst,dreg,mem,is_signed,is_half,size) do { amd64_emit_rex ((inst),(size),(dreg),0,0); x86_widen_mem((inst),((dreg)&0x7),(mem),(is_signed),(is_half)); } while (0)
#define amd64_widen_membase_size(inst,dreg,basereg,disp,is_signed,is_half,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(basereg)); x86_widen_membase((inst),((dreg)&0x7),((basereg)&0x7),(disp),(is_signed),(is_half)); } while (0)
#define amd64_widen_memindex_size(inst,dreg,basereg,disp,indexreg,shift,is_signed,is_half,size) do { amd64_emit_rex ((inst),(size),(dreg),(indexreg),(basereg)); x86_widen_memindex((inst),((dreg)&0x7),((basereg)&0x7),(disp),((indexreg)&0x7),(shift),(is_signed),(is_half)); } while (0)
#define amd64_cdq_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_cdq(inst); } while (0)
#define amd64_wait_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_wait(inst); } while (0)
#define amd64_fp_op_mem_size(inst,opc,mem,is_double,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fp_op_mem((inst),(opc),(mem),(is_double)); } while (0)
#define amd64_fp_op_membase_size(inst,opc,basereg,disp,is_double,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fp_op_membase((inst),(opc),((basereg)&0x7),(disp),(is_double)); } while (0)
#define amd64_fp_op_size(inst,opc,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fp_op((inst),(opc),(index)); } while (0)
#define amd64_fp_op_reg_size(inst,opc,index,pop_stack,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fp_op_reg((inst),(opc),(index),(pop_stack)); } while (0)
#define amd64_fp_int_op_membase_size(inst,opc,basereg,disp,is_int,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fp_int_op_membase((inst),(opc),((basereg)&0x7),(disp),(is_int)); } while (0)
#define amd64_fstp_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fstp((inst),(index)); } while (0)
#define amd64_fcompp_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fcompp(inst); } while (0)
#define amd64_fucompp_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fucompp(inst); } while (0)
#define amd64_fnstsw_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fnstsw(inst); } while (0)
#define amd64_fnstcw_size(inst,mem,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fnstcw((inst),(mem)); } while (0)
#define amd64_fnstcw_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_fnstcw_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_fldcw_size(inst,mem,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fldcw((inst),(mem)); } while (0)
#define amd64_fldcw_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fldcw_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_fchs_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fchs(inst); } while (0)
#define amd64_frem_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_frem(inst); } while (0)
#define amd64_fxch_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fxch((inst),(index)); } while (0)
#define amd64_fcomi_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fcomi((inst),(index)); } while (0)
#define amd64_fcomip_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fcomip((inst),(index)); } while (0)
#define amd64_fucomi_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fucomi((inst),(index)); } while (0)
#define amd64_fucomip_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fucomip((inst),(index)); } while (0)
#define amd64_fld_size(inst,mem,is_double,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fld((inst),(mem),(is_double)); } while (0)
//#define amd64_fld_membase_size(inst,basereg,disp,is_double,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fld_membase((inst),((basereg)&0x7),(disp),(is_double)); } while (0)
#define amd64_fld80_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fld80_mem((inst),(mem)); } while (0)
#define amd64_fld80_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_fld80_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_fild_size(inst,mem,is_long,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fild((inst),(mem),(is_long)); } while (0)
#define amd64_fild_membase_size(inst,basereg,disp,is_long,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fild_membase((inst),((basereg)&0x7),(disp),(is_long)); } while (0)
#define amd64_fld_reg_size(inst,index,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fld_reg((inst),(index)); } while (0)
#define amd64_fldz_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fldz(inst); } while (0)
#define amd64_fld1_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fld1(inst); } while (0)
#define amd64_fldpi_size(inst,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fldpi(inst); } while (0)
#define amd64_fst_size(inst,mem,is_double,pop_stack,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fst((inst),(mem),(is_double),(pop_stack)); } while (0)
#define amd64_fst_membase_size(inst,basereg,disp,is_double,pop_stack,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fst_membase((inst),((basereg)&0x7),(disp),(is_double),(pop_stack)); } while (0)
#define amd64_fst80_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fst80_mem((inst),(mem)); } while (0)
#define amd64_fst80_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fst80_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_fist_pop_size(inst,mem,is_long,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_fist_pop((inst),(mem),(is_long)); } while (0)
#define amd64_fist_pop_membase_size(inst,basereg,disp,is_long,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fist_pop_membase((inst),((basereg)&0x7),(disp),(is_long)); } while (0)
#define amd64_fstsw_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fstsw(inst); } while (0)
#define amd64_fist_membase_size(inst,basereg,disp,is_int,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_fist_membase((inst),((basereg)&0x7),(disp),(is_int)); } while (0)
//#define amd64_push_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_push_reg((inst),((reg)&0x7)); } while (0)
#define amd64_push_regp_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_push_regp((inst),((reg)&0x7)); } while (0)
#define amd64_push_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_push_mem((inst),(mem)); } while (0)
//#define amd64_push_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_push_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_push_memindex_size(inst,basereg,disp,indexreg,shift,size) do { amd64_emit_rex ((inst),(size),0,(indexreg),(basereg)); x86_push_memindex((inst),((basereg)&0x7),(disp),((indexreg)&0x7),(shift)); } while (0)
#define amd64_push_imm_size(inst,imm,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_push_imm((inst),(imm)); } while (0)
//#define amd64_pop_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_pop_reg((inst),((reg)&0x7)); } while (0)
#define amd64_pop_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_pop_mem((inst),(mem)); } while (0)
#define amd64_pop_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_pop_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_pushad_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_pushad(inst); } while (0)
#define amd64_pushfd_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_pushfd(inst); } while (0)
#define amd64_popad_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_popad(inst); } while (0)
#define amd64_popfd_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_popfd(inst); } while (0)
#define amd64_loop_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_loop((inst),(imm)); } while (0)
#define amd64_loope_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_loope((inst),(imm)); } while (0)
#define amd64_loopne_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_loopne((inst),(imm)); } while (0)
#define amd64_jump32_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_jump32((inst),(imm)); } while (0)
#define amd64_jump8_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_jump8((inst),(imm)); } while (0)
#define amd64_jump_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_jump_reg((inst),((reg)&0x7)); } while (0)
#define amd64_jump_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_jump_mem((inst),(mem)); } while (0)
#define amd64_jump_membase_size(inst,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_jump_membase((inst),((basereg)&0x7),(disp)); } while (0)
#define amd64_jump_code_size(inst,target,size) do { x86_jump_code((inst),(target)); } while (0)
#define amd64_jump_disp_size(inst,disp,size) do { amd64_emit_rex ((inst),0,0,0,0); x86_jump_disp((inst),(disp)); } while (0)
#define amd64_branch8_size(inst,cond,imm,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_branch8((inst),(cond),(imm),(is_signed)); } while (0)
#define amd64_branch32_size(inst,cond,imm,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_branch32((inst),(cond),(imm),(is_signed)); } while (0)
#define amd64_branch_size(inst,cond,target,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_branch((inst),(cond),(target),(is_signed)); } while (0)
#define amd64_branch_disp_size(inst,cond,disp,is_signed,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_branch_disp((inst),(cond),(disp),(is_signed)); } while (0)
#define amd64_set_reg_size(inst,cond,reg,is_signed,size) do { amd64_emit_rex((inst),1,0,0,(reg)); x86_set_reg((inst),(cond),((reg)&0x7),(is_signed)); } while (0)
#define amd64_set_mem_size(inst,cond,mem,is_signed,size) do { x86_set_mem((inst),(cond),(mem),(is_signed)); } while (0)
#define amd64_set_membase_size(inst,cond,basereg,disp,is_signed,size) do { amd64_emit_rex ((inst),0,0,0,(basereg)); x86_set_membase((inst),(cond),((basereg)&0x7),(disp),(is_signed)); } while (0)
#define amd64_call_imm_size(inst,disp,size) do { x86_call_imm((inst),(disp)); } while (0)
//#define amd64_call_reg_size(inst,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_call_reg((inst),((reg)&0x7)); } while (0)
#define amd64_call_mem_size(inst,mem,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_call_mem((inst),(mem)); } while (0)
#define amd64_call_code_size(inst,target,size) do { x86_call_code((inst),(target)); } while (0)
//#define amd64_ret_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_ret(inst); } while (0)
#define amd64_ret_imm_size(inst,imm,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_ret_imm((inst),(imm)); } while (0)
#define amd64_cmov_reg_size(inst,cond,is_signed,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_cmov_reg((inst),(cond),(is_signed),((dreg)&0x7),((reg)&0x7)); } while (0)
#define amd64_cmov_mem_size(inst,cond,is_signed,reg,mem,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_cmov_mem((inst),(cond),(is_signed),((reg)&0x7),(mem)); } while (0)
#define amd64_cmov_membase_size(inst,cond,is_signed,reg,basereg,disp,size) do { amd64_emit_rex ((inst),(size),0,0,(basereg)); x86_cmov_membase((inst),(cond),(is_signed),((reg)&0x7),((basereg)&0x7),(disp)); } while (0)
#define amd64_enter_size(inst,framesize) do { amd64_emit_rex ((inst),(size),0,0,0); x86_enter((inst),(framesize)); } while (0)
//#define amd64_leave_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_leave(inst); } while (0)
#define amd64_sahf_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_sahf(inst); } while (0)
#define amd64_fsin_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fsin(inst); } while (0)
#define amd64_fcos_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fcos(inst); } while (0)
#define amd64_fabs_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fabs(inst); } while (0)
#define amd64_ftst_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_ftst(inst); } while (0)
#define amd64_fxam_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fxam(inst); } while (0)
#define amd64_fpatan_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fpatan(inst); } while (0)
#define amd64_fprem_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fprem(inst); } while (0)
#define amd64_fprem1_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fprem1(inst); } while (0)
#define amd64_frndint_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_frndint(inst); } while (0)
#define amd64_fsqrt_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fsqrt(inst); } while (0)
#define amd64_fptan_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_fptan(inst); } while (0)
//#define amd64_padding_size(inst,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_padding((inst),(size)); } while (0)
#define amd64_prolog_size(inst,frame_size,reg_mask,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_prolog((inst),(frame_size),(reg_mask)); } while (0)
#define amd64_epilog_size(inst,reg_mask,size) do { amd64_emit_rex ((inst),(size),0,0,0); x86_epilog((inst),(reg_mask)); } while (0)
#define amd64_xadd_reg_reg_size(inst,dreg,reg,size) do { amd64_emit_rex ((inst),(size),(dreg),0,(reg)); x86_xadd_reg_reg ((inst), (dreg), (reg), (size)); } while (0)
#define amd64_xadd_mem_reg_size(inst,mem,reg,size) do { amd64_emit_rex ((inst),(size),0,0,(reg)); x86_xadd_mem_reg((inst),(mem),((reg)&0x7), (size)); } while (0)
#define amd64_xadd_membase_reg_size(inst,basereg,disp,reg,size) do { amd64_emit_rex ((inst),(size),(reg),0,(basereg)); x86_xadd_membase_reg((inst),((basereg)&0x7),(disp),((reg)&0x7),(size)); } while (0)
#define amd64_breakpoint(inst) amd64_breakpoint_size(inst,8)
#define amd64_cld(inst) amd64_cld_size(inst,8)
#define amd64_stosb(inst) amd64_stosb_size(inst,8)
#define amd64_stosl(inst) amd64_stosl_size(inst,8)
#define amd64_stosd(inst) amd64_stosd_size(inst,8)
#define amd64_movsb(inst) amd64_movsb_size(inst,8)
#define amd64_movsl(inst) amd64_movsl_size(inst,8)
#define amd64_movsd(inst) amd64_movsd_size(inst,8)
#define amd64_prefix(inst,p) amd64_prefix_size(inst,p,8)
#define amd64_rdtsc(inst) amd64_rdtsc_size(inst,8)
#define amd64_cmpxchg_reg_reg(inst,dreg,reg) amd64_cmpxchg_reg_reg_size(inst,dreg,reg,8)
#define amd64_cmpxchg_mem_reg(inst,mem,reg) amd64_cmpxchg_mem_reg_size(inst,mem,reg,8)
#define amd64_cmpxchg_membase_reg(inst,basereg,disp,reg) amd64_cmpxchg_membase_reg_size(inst,basereg,disp,reg,8)
#define amd64_xchg_reg_reg(inst,dreg,reg,size) amd64_xchg_reg_reg_size(inst,dreg,reg,size)
#define amd64_xchg_mem_reg(inst,mem,reg,size) amd64_xchg_mem_reg_size(inst,mem,reg,size)
#define amd64_xchg_membase_reg(inst,basereg,disp,reg,size) amd64_xchg_membase_reg_size(inst,basereg,disp,reg,size)
#define amd64_xadd_reg_reg(inst,dreg,reg,size) amd64_xadd_reg_reg_size(inst,dreg,reg,size)
#define amd64_xadd_mem_reg(inst,mem,reg,size) amd64_xadd_mem_reg_size(inst,mem,reg,size)
#define amd64_xadd_membase_reg(inst,basereg,disp,reg,size) amd64_xadd_membase_reg_size(inst,basereg,disp,reg,size)
#define amd64_inc_mem(inst,mem) amd64_inc_mem_size(inst,mem,8)
#define amd64_inc_membase(inst,basereg,disp) amd64_inc_membase_size(inst,basereg,disp,8)
#define amd64_inc_reg(inst,reg) amd64_inc_reg_size(inst,reg,8)
#define amd64_dec_mem(inst,mem) amd64_dec_mem_size(inst,mem,8)
#define amd64_dec_membase(inst,basereg,disp) amd64_dec_membase_size(inst,basereg,disp,8)
#define amd64_dec_reg(inst,reg) amd64_dec_reg_size(inst,reg,8)
#define amd64_not_mem(inst,mem) amd64_not_mem_size(inst,mem,8)
#define amd64_not_membase(inst,basereg,disp) amd64_not_membase_size(inst,basereg,disp,8)
#define amd64_not_reg(inst,reg) amd64_not_reg_size(inst,reg,8)
#define amd64_neg_mem(inst,mem) amd64_neg_mem_size(inst,mem,8)
#define amd64_neg_membase(inst,basereg,disp) amd64_neg_membase_size(inst,basereg,disp,8)
#define amd64_neg_reg(inst,reg) amd64_neg_reg_size(inst,reg,8)
#define amd64_nop(inst) amd64_nop_size(inst,8)
//#define amd64_alu_reg_imm(inst,opc,reg,imm) amd64_alu_reg_imm_size(inst,opc,reg,imm,8)
#define amd64_alu_mem_imm(inst,opc,mem,imm) amd64_alu_mem_imm_size(inst,opc,mem,imm,8)
#define amd64_alu_membase_imm(inst,opc,basereg,disp,imm) amd64_alu_membase_imm_size(inst,opc,basereg,disp,imm,8)
#define amd64_alu_mem_reg(inst,opc,mem,reg) amd64_alu_mem_reg_size(inst,opc,mem,reg,8)
#define amd64_alu_membase_reg(inst,opc,basereg,disp,reg) amd64_alu_membase_reg_size(inst,opc,basereg,disp,reg,8)
//#define amd64_alu_reg_reg(inst,opc,dreg,reg) amd64_alu_reg_reg_size(inst,opc,dreg,reg,8)
#define amd64_alu_reg8_reg8(inst,opc,dreg,reg,is_dreg_h,is_reg_h) amd64_alu_reg8_reg8_size(inst,opc,dreg,reg,is_dreg_h,is_reg_h,8)
#define amd64_alu_reg_mem(inst,opc,reg,mem) amd64_alu_reg_mem_size(inst,opc,reg,mem,8)
#define amd64_alu_reg_membase(inst,opc,reg,basereg,disp) amd64_alu_reg_membase_size(inst,opc,reg,basereg,disp,8)
#define amd64_test_reg_imm(inst,reg,imm) amd64_test_reg_imm_size(inst,reg,imm,8)
#define amd64_test_mem_imm(inst,mem,imm) amd64_test_mem_imm_size(inst,mem,imm,8)
#define amd64_test_membase_imm(inst,basereg,disp,imm) amd64_test_membase_imm_size(inst,basereg,disp,imm,8)
#define amd64_test_reg_reg(inst,dreg,reg) amd64_test_reg_reg_size(inst,dreg,reg,8)
#define amd64_test_mem_reg(inst,mem,reg) amd64_test_mem_reg_size(inst,mem,reg,8)
#define amd64_test_membase_reg(inst,basereg,disp,reg) amd64_test_membase_reg_size(inst,basereg,disp,reg,8)
#define amd64_shift_reg_imm(inst,opc,reg,imm) amd64_shift_reg_imm_size(inst,opc,reg,imm,8)
#define amd64_shift_mem_imm(inst,opc,mem,imm) amd64_shift_mem_imm_size(inst,opc,mem,imm,8)
#define amd64_shift_membase_imm(inst,opc,basereg,disp,imm) amd64_shift_membase_imm_size(inst,opc,basereg,disp,imm,8)
#define amd64_shift_reg(inst,opc,reg) amd64_shift_reg_size(inst,opc,reg,8)
#define amd64_shift_mem(inst,opc,mem) amd64_shift_mem_size(inst,opc,mem,8)
#define amd64_shift_membase(inst,opc,basereg,disp) amd64_shift_membase_size(inst,opc,basereg,disp,8)
#define amd64_shrd_reg(inst,dreg,reg) amd64_shrd_reg_size(inst,dreg,reg,8)
#define amd64_shrd_reg_imm(inst,dreg,reg,shamt) amd64_shrd_reg_imm_size(inst,dreg,reg,shamt,8)
#define amd64_shld_reg(inst,dreg,reg) amd64_shld_reg_size(inst,dreg,reg,8)
#define amd64_shld_reg_imm(inst,dreg,reg,shamt) amd64_shld_reg_imm_size(inst,dreg,reg,shamt,8)
#define amd64_mul_reg(inst,reg,is_signed) amd64_mul_reg_size(inst,reg,is_signed,8)
#define amd64_mul_mem(inst,mem,is_signed) amd64_mul_mem_size(inst,mem,is_signed,8)
#define amd64_mul_membase(inst,basereg,disp,is_signed) amd64_mul_membase_size(inst,basereg,disp,is_signed,8)
#define amd64_imul_reg_reg(inst,dreg,reg) amd64_imul_reg_reg_size(inst,dreg,reg,8)
#define amd64_imul_reg_mem(inst,reg,mem) amd64_imul_reg_mem_size(inst,reg,mem,8)
#define amd64_imul_reg_membase(inst,reg,basereg,disp) amd64_imul_reg_membase_size(inst,reg,basereg,disp,8)
#define amd64_imul_reg_reg_imm(inst,dreg,reg,imm) amd64_imul_reg_reg_imm_size(inst,dreg,reg,imm,8)
#define amd64_imul_reg_mem_imm(inst,reg,mem,imm) amd64_imul_reg_mem_imm_size(inst,reg,mem,imm,8)
#define amd64_imul_reg_membase_imm(inst,reg,basereg,disp,imm) amd64_imul_reg_membase_imm_size(inst,reg,basereg,disp,imm,8)
#define amd64_div_reg(inst,reg,is_signed) amd64_div_reg_size(inst,reg,is_signed,8)
#define amd64_div_mem(inst,mem,is_signed) amd64_div_mem_size(inst,mem,is_signed,8)
#define amd64_div_membase(inst,basereg,disp,is_signed) amd64_div_membase_size(inst,basereg,disp,is_signed,8)
#define amd64_mov_mem_reg(inst,mem,reg,size) amd64_mov_mem_reg_size(inst,mem,reg,size)
//#define amd64_mov_regp_reg(inst,regp,reg,size) amd64_mov_regp_reg_size(inst,regp,reg,size)
//#define amd64_mov_membase_reg(inst,basereg,disp,reg,size) amd64_mov_membase_reg_size(inst,basereg,disp,reg,size)
#define amd64_mov_memindex_reg(inst,basereg,disp,indexreg,shift,reg,size) amd64_mov_memindex_reg_size(inst,basereg,disp,indexreg,shift,reg,size)
//#define amd64_mov_reg_reg(inst,dreg,reg,size) amd64_mov_reg_reg_size(inst,dreg,reg,size)
//#define amd64_mov_reg_mem(inst,reg,mem,size) amd64_mov_reg_mem_size(inst,reg,mem,size)
//#define amd64_mov_reg_membase(inst,reg,basereg,disp,size) amd64_mov_reg_membase_size(inst,reg,basereg,disp,size)
#define amd64_mov_reg_memindex(inst,reg,basereg,disp,indexreg,shift,size) amd64_mov_reg_memindex_size(inst,reg,basereg,disp,indexreg,shift,size)
#define amd64_clear_reg(inst,reg) amd64_clear_reg_size(inst,reg,8)
//#define amd64_mov_reg_imm(inst,reg,imm) amd64_mov_reg_imm_size(inst,reg,imm,8)
#define amd64_mov_mem_imm(inst,mem,imm,size) amd64_mov_mem_imm_size(inst,mem,imm,size)
//#define amd64_mov_membase_imm(inst,basereg,disp,imm,size) amd64_mov_membase_imm_size(inst,basereg,disp,imm,size)
#define amd64_mov_memindex_imm(inst,basereg,disp,indexreg,shift,imm,size) amd64_mov_memindex_imm_size(inst,basereg,disp,indexreg,shift,imm,size)
#define amd64_lea_mem(inst,reg,mem) amd64_lea_mem_size(inst,reg,mem,8)
//#define amd64_lea_membase(inst,reg,basereg,disp) amd64_lea_membase_size(inst,reg,basereg,disp,8)
#define amd64_lea_memindex(inst,reg,basereg,disp,indexreg,shift) amd64_lea_memindex_size(inst,reg,basereg,disp,indexreg,shift,8)
#define amd64_widen_reg(inst,dreg,reg,is_signed,is_half) amd64_widen_reg_size(inst,dreg,reg,is_signed,is_half,8)
#define amd64_widen_mem(inst,dreg,mem,is_signed,is_half) amd64_widen_mem_size(inst,dreg,mem,is_signed,is_half,8)
#define amd64_widen_membase(inst,dreg,basereg,disp,is_signed,is_half) amd64_widen_membase_size(inst,dreg,basereg,disp,is_signed,is_half,8)
#define amd64_widen_memindex(inst,dreg,basereg,disp,indexreg,shift,is_signed,is_half) amd64_widen_memindex_size(inst,dreg,basereg,disp,indexreg,shift,is_signed,is_half,8)
#define amd64_cdq(inst) amd64_cdq_size(inst,8)
#define amd64_wait(inst) amd64_wait_size(inst,8)
#define amd64_fp_op_mem(inst,opc,mem,is_double) amd64_fp_op_mem_size(inst,opc,mem,is_double,8)
#define amd64_fp_op_membase(inst,opc,basereg,disp,is_double) amd64_fp_op_membase_size(inst,opc,basereg,disp,is_double,8)
#define amd64_fp_op(inst,opc,index) amd64_fp_op_size(inst,opc,index,8)
#define amd64_fp_op_reg(inst,opc,index,pop_stack) amd64_fp_op_reg_size(inst,opc,index,pop_stack,8)
#define amd64_fp_int_op_membase(inst,opc,basereg,disp,is_int) amd64_fp_int_op_membase_size(inst,opc,basereg,disp,is_int,8)
#define amd64_fstp(inst,index) amd64_fstp_size(inst,index,8)
#define amd64_fcompp(inst) amd64_fcompp_size(inst,8)
#define amd64_fucompp(inst) amd64_fucompp_size(inst,8)
#define amd64_fnstsw(inst) amd64_fnstsw_size(inst,8)
#define amd64_fnstcw(inst,mem) amd64_fnstcw_size(inst,mem,8)
#define amd64_fnstcw_membase(inst,basereg,disp) amd64_fnstcw_membase_size(inst,basereg,disp,8)
#define amd64_fldcw(inst,mem) amd64_fldcw_size(inst,mem,8)
#define amd64_fldcw_membase(inst,basereg,disp) amd64_fldcw_membase_size(inst,basereg,disp,8)
#define amd64_fchs(inst) amd64_fchs_size(inst,8)
#define amd64_frem(inst) amd64_frem_size(inst,8)
#define amd64_fxch(inst,index) amd64_fxch_size(inst,index,8)
#define amd64_fcomi(inst,index) amd64_fcomi_size(inst,index,8)
#define amd64_fcomip(inst,index) amd64_fcomip_size(inst,index,8)
#define amd64_fucomi(inst,index) amd64_fucomi_size(inst,index,8)
#define amd64_fucomip(inst,index) amd64_fucomip_size(inst,index,8)
#define amd64_fld(inst,mem,is_double) amd64_fld_size(inst,mem,is_double,8)
#define amd64_fld_membase(inst,basereg,disp,is_double) amd64_fld_membase_size(inst,basereg,disp,is_double,8)
#define amd64_fld80_mem(inst,mem) amd64_fld80_mem_size(inst,mem,8)
#define amd64_fld80_membase(inst,basereg,disp) amd64_fld80_membase_size(inst,basereg,disp,8)
#define amd64_fild(inst,mem,is_long) amd64_fild_size(inst,mem,is_long,8)
#define amd64_fild_membase(inst,basereg,disp,is_long) amd64_fild_membase_size(inst,basereg,disp,is_long,8)
#define amd64_fld_reg(inst,index) amd64_fld_reg_size(inst,index,8)
#define amd64_fldz(inst) amd64_fldz_size(inst,8)
#define amd64_fld1(inst) amd64_fld1_size(inst,8)
#define amd64_fldpi(inst) amd64_fldpi_size(inst,8)
#define amd64_fst(inst,mem,is_double,pop_stack) amd64_fst_size(inst,mem,is_double,pop_stack,8)
#define amd64_fst_membase(inst,basereg,disp,is_double,pop_stack) amd64_fst_membase_size(inst,basereg,disp,is_double,pop_stack,8)
#define amd64_fst80_mem(inst,mem) amd64_fst80_mem_size(inst,mem,8)
#define amd64_fst80_membase(inst,basereg,disp) amd64_fst80_membase_size(inst,basereg,disp,8)
#define amd64_fist_pop(inst,mem,is_long) amd64_fist_pop_size(inst,mem,is_long,8)
#define amd64_fist_pop_membase(inst,basereg,disp,is_long) amd64_fist_pop_membase_size(inst,basereg,disp,is_long,8)
#define amd64_fstsw(inst) amd64_fstsw_size(inst,8)
#define amd64_fist_membase(inst,basereg,disp,is_int) amd64_fist_membase_size(inst,basereg,disp,is_int,8)
//#define amd64_push_reg(inst,reg) amd64_push_reg_size(inst,reg,8)
#define amd64_push_regp(inst,reg) amd64_push_regp_size(inst,reg,8)
#define amd64_push_mem(inst,mem) amd64_push_mem_size(inst,mem,8)
//#define amd64_push_membase(inst,basereg,disp) amd64_push_membase_size(inst,basereg,disp,8)
#define amd64_push_memindex(inst,basereg,disp,indexreg,shift) amd64_push_memindex_size(inst,basereg,disp,indexreg,shift,8)
#define amd64_push_imm(inst,imm) amd64_push_imm_size(inst,imm,8)
//#define amd64_pop_reg(inst,reg) amd64_pop_reg_size(inst,reg,8)
#define amd64_pop_mem(inst,mem) amd64_pop_mem_size(inst,mem,8)
#define amd64_pop_membase(inst,basereg,disp) amd64_pop_membase_size(inst,basereg,disp,8)
#define amd64_pushad(inst) amd64_pushad_size(inst,8)
#define amd64_pushfd(inst) amd64_pushfd_size(inst,8)
#define amd64_popad(inst) amd64_popad_size(inst,8)
#define amd64_popfd(inst) amd64_popfd_size(inst,8)
#define amd64_loop(inst,imm) amd64_loop_size(inst,imm,8)
#define amd64_loope(inst,imm) amd64_loope_size(inst,imm,8)
#define amd64_loopne(inst,imm) amd64_loopne_size(inst,imm,8)
#define amd64_jump32(inst,imm) amd64_jump32_size(inst,imm,8)
#define amd64_jump8(inst,imm) amd64_jump8_size(inst,imm,8)
#define amd64_jump_reg(inst,reg) amd64_jump_reg_size(inst,reg,8)
#define amd64_jump_mem(inst,mem) amd64_jump_mem_size(inst,mem,8)
#define amd64_jump_membase(inst,basereg,disp) amd64_jump_membase_size(inst,basereg,disp,8)
#define amd64_jump_code(inst,target) amd64_jump_code_size(inst,target,8)
#define amd64_jump_disp(inst,disp) amd64_jump_disp_size(inst,disp,8)
#define amd64_branch8(inst,cond,imm,is_signed) amd64_branch8_size(inst,cond,imm,is_signed,8)
#define amd64_branch32(inst,cond,imm,is_signed) amd64_branch32_size(inst,cond,imm,is_signed,8)
#define amd64_branch(inst,cond,target,is_signed) amd64_branch_size(inst,cond,target,is_signed,8)
#define amd64_branch_disp(inst,cond,disp,is_signed) amd64_branch_disp_size(inst,cond,disp,is_signed,8)
#define amd64_set_reg(inst,cond,reg,is_signed) amd64_set_reg_size(inst,cond,reg,is_signed,8)
#define amd64_set_mem(inst,cond,mem,is_signed) amd64_set_mem_size(inst,cond,mem,is_signed,8)
#define amd64_set_membase(inst,cond,basereg,disp,is_signed) amd64_set_membase_size(inst,cond,basereg,disp,is_signed,8)
#define amd64_call_imm(inst,disp) amd64_call_imm_size(inst,disp,8)
//#define amd64_call_reg(inst,reg) amd64_call_reg_size(inst,reg,8)
#define amd64_call_mem(inst,mem) amd64_call_mem_size(inst,mem,8)
#define amd64_call_membase(inst,basereg,disp) amd64_call_membase_size(inst,basereg,disp,8)
#define amd64_call_code(inst,target) amd64_call_code_size(inst,target,8)
//#define amd64_ret(inst) amd64_ret_size(inst,8)
#define amd64_ret_imm(inst,imm) amd64_ret_imm_size(inst,imm,8)
#define amd64_cmov_reg(inst,cond,is_signed,dreg,reg) amd64_cmov_reg_size(inst,cond,is_signed,dreg,reg,8)
#define amd64_cmov_mem(inst,cond,is_signed,reg,mem) amd64_cmov_mem_size(inst,cond,is_signed,reg,mem,8)
#define amd64_cmov_membase(inst,cond,is_signed,reg,basereg,disp) amd64_cmov_membase_size(inst,cond,is_signed,reg,basereg,disp,8)
#define amd64_enter(inst,framesize) amd64_enter_size(inst,framesize)
//#define amd64_leave(inst) amd64_leave_size(inst,8)
#define amd64_sahf(inst) amd64_sahf_size(inst,8)
#define amd64_fsin(inst) amd64_fsin_size(inst,8)
#define amd64_fcos(inst) amd64_fcos_size(inst,8)
#define amd64_fabs(inst) amd64_fabs_size(inst,8)
#define amd64_ftst(inst) amd64_ftst_size(inst,8)
#define amd64_fxam(inst) amd64_fxam_size(inst,8)
#define amd64_fpatan(inst) amd64_fpatan_size(inst,8)
#define amd64_fprem(inst) amd64_fprem_size(inst,8)
#define amd64_fprem1(inst) amd64_fprem1_size(inst,8)
#define amd64_frndint(inst) amd64_frndint_size(inst,8)
#define amd64_fsqrt(inst) amd64_fsqrt_size(inst,8)
#define amd64_fptan(inst) amd64_fptan_size(inst,8)
#define amd64_padding(inst,size) amd64_padding_size(inst,size)
#define amd64_prolog(inst,frame,reg_mask) amd64_prolog_size(inst,frame,reg_mask,8)
#define amd64_epilog(inst,reg_mask) amd64_epilog_size(inst,reg_mask,8)
static inline void amd64_jump_code_fn(u_char **instp,u_char *target)
{
amd64_jump_code(*instp,target);
}
#endif // AMD64_H