uae_cpu/compiler/codegen_x86.h

/******************** -*- mode: C; tab-width: 8 -*- ********************
 *
 *      Run-time assembler for i386 and x86-64
 *
 ***********************************************************************/


/***********************************************************************
 *
 *  This file is derived from GNU lightning.
 *
 *  Copyright 1999, 2000, 2001, 2002, 2003 Ian Piumarta
 *
 *  Adaptations and enhancements for x86-64 support, Copyright 2003
 *    Gwenole Beauchesne
 *
 *  Basilisk II (C) 1997-2003 Christian Bauer
 *  
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 ***********************************************************************/

#ifndef X86_RTASM_H
#define X86_RTASM_H

/* NOTES
 *
 *      o Best viewed on a 1024x768 screen with fixed-6x10 font ;-)
 *
 * TODO
 *
 *      o Fix FIXMEs
 *      o Conditional moves
 *      o i387 FPU instructions
 *      o SSE instructions
 *      o Add notes about RIP addressing mode for x86-64
 *      o Optimize for cases where register numbers are not integral constants
 */

/* --- Configuration ------------------------------------------------------- */

/* Define to settle a "flat" register set, i.e. different regno for
   each size variant.  */
#ifndef X86_FLAT_REGISTERS
#define X86_FLAT_REGISTERS      1
#endif

/* Define to generate x86-64 code.  */
#ifndef X86_TARGET_64BIT
#define X86_TARGET_64BIT        0
#endif

/* Define to optimize ALU instructions.  */
#ifndef X86_OPTIMIZE_ALU
#define X86_OPTIMIZE_ALU        1
#endif

/* Define to optimize rotate/shift instructions.  */
#ifndef X86_OPTIMIZE_ROTSHI
#define X86_OPTIMIZE_ROTSHI     1
#endif


/* --- Macros -------------------------------------------------------------- */

/* Functions used to emit code.
 *
 *      x86_emit_byte(B)
 *      x86_emit_word(W)
 *      x86_emit_long(L)
 */

/* Get pointer to current code
 *
 *      x86_get_target()
 */

/* Abort assembler, fatal failure.
 *
 *      x86_emit_failure(MSG)
 */


/* --- Register set -------------------------------------------------------- */

enum {
#if X86_FLAT_REGISTERS
  X86_NOREG      = 0,
  X86_Reg8L_Base =  0x10,
  X86_Reg8H_Base = 0x110,
  X86_Reg16_Base =  0x20,
  X86_Reg32_Base =  0x40,
  X86_Reg64_Base =  0x80,
#else
  X86_NOREG      = -1,
  X86_Reg8L_Base = 0,
  X86_Reg8H_Base = 16,
  X86_Reg16_Base = 0,
  X86_Reg32_Base = 0,
  X86_Reg64_Base = 0,
#endif
};

enum {
  X86_AL  = X86_Reg8L_Base,
  X86_CL,   X86_DL,   X86_BL,
  X86_AH,   X86_CH,   X86_DH,   X86_BH,
  X86_R8B,  X86_R9B,  X86_R10B, X86_R11B,
  X86_R12B, X86_R13B, X86_R14B, X86_R15B,
  X86_SPL = X86_Reg8H_Base + 4,
  X86_BPL,  X86_SIL,  X86_DIL
};

enum {
  X86_AX  = X86_Reg16_Base,
  X86_CX,   X86_DX,   X86_BX,
  X86_SP,   X86_BP,   X86_SI,   X86_DI,
  X86_R8W,  X86_R9W,  X86_R10W, X86_R11W,
  X86_R12W, X86_R13W, X86_R14W, X86_R15W
};

enum {
  X86_EAX = X86_Reg32_Base,
  X86_ECX,  X86_EDX,  X86_EBX,
  X86_ESP,  X86_EBP,  X86_ESI,  X86_EDI,
  X86_R8D,  X86_R9D,  X86_R10D, X86_R11D,
  X86_R12D, X86_R13D, X86_R14D, X86_R15D
};

enum {
  X86_RAX = X86_Reg64_Base,
  X86_RCX,  X86_RDX,  X86_RBX,
  X86_RSP,  X86_RBP,  X86_RSI,  X86_RDI,
  X86_R8,   X86_R9,   X86_R10,  X86_R11,
  X86_R12,  X86_R13,  X86_R14,  X86_R15
};

/* Register control and access
 *
 *      _rS(R)  Size of register (only valid if X86_FLAT_REGISTERS)
 *
 *      _rR(R)  Full register number
 *      _rN(R)  Short register number for encoding
 *
 *      _rAP(R) Is it the accumulator register ?
 *      _rXP(R) Is it an extended register designed for x86-64 ?
 *      _r0P(R) Is it the nil register ?
 *
 *      _r1(R)  8-bit register ID
 *      _r2(R)  16-bit register ID
 *      _r4(R)  32-bit register ID
 *      _r8(R)  64-bit register ID
 */

#if X86_FLAT_REGISTERS

#define _rS(R)          (((R)>>4)&0xf)
#define _rR(R)          ((R)&0xf)
#define _rN(R)          ((R)&0x7)
#define _rAP(R)         (_rR(R) == _rR(X86_RAX))
#define _rXP(R)         (_rR(R)>7)
#define _r0P(R)         ((R)==0)
#define _rSP(R)         (_rN(R)==_rN(X86_RSP))
#define _rBP(R)         ((R)==_rN(X86_RBP))

#ifndef _ASM_SAFETY
#define _r1(R)          _rN(R)
#define _r2(R)          _rN(R)
#define _r4(R)          _rN(R)
#define _r8(R)          _rN(R)
#define _rm4(R)         _rN(R)
#else
#define _r1(R)          ((_rS(R)==1) ? _rN(R) : x86_emit_failure( "8-bit register required"))
#define _r2(R)          ((_rS(R)==2) ? _rN(R) : x86_emit_failure("16-bit register required"))
#define _r4(R)          ((_rS(R)==4) ? _rN(R) : x86_emit_failure("32-bit register required"))
#define _r8(R)          ((_rS(R)==8) ? _rN(R) : x86_emit_failure("64-bit register required"))
#define _rm4(R)         (X86_TARGET_64BIT ? \
                        ((_rS(R)==8) ? _rN(R) : x86_emit_failure("not a valid 64-bit base/index expression")) : \
                        ((_rS(R)==4) ? _rN(R) : x86_emit_failure("not a valid 32-bit base/index expression")) )
#endif

#else

#define _rN(R)          ((R)&0x7)
#define _rR(R)          ((R)&0xf)
#define _rXP(X)         (_rR(X)>7)
#define _r0P(R)         ((R)==-1)
#define _rSP(R)         (_rN(R)==_rN(X86_RSP))
#define _rBP(R)         ((R)==_rN(X86_RBP))
#define _r1(R)          _rN(R)
#define _r2(R)          _rN(R)
#define _r4(R)          _rN(R)
#define _r8(R)          _rN(R)

#endif


/* ========================================================================= */
/* --- UTILITY ------------------------------------------------------------- */
/* ========================================================================= */

typedef char            _sc;
typedef unsigned char   _uc;
typedef unsigned short  _us;
typedef int             _sl;
typedef unsigned int    _ul;

#define _UC(X)          ((_uc  )(X))
#define _US(X)          ((_us  )(X))
#define _SL(X)          ((_sl  )(X))
#define _UL(X)          ((_ul  )(X))

# define _PUC(X)        ((_uc *)(X))
# define _PUS(X)        ((_us *)(X))
# define _PSL(X)        ((_sl *)(X))
# define _PUL(X)        ((_ul *)(X))

#define _B(B)           x86_emit_byte((B))
#define _W(W)           x86_emit_word((W))
#define _L(L)           x86_emit_long((L))

#define _MASK(N)        ((unsigned)((1<<(N)))-1)
#define _siP(N,I)       (!((((unsigned)(I))^(((unsigned)(I))<<1))&~_MASK(N)))
#define _uiP(N,I)       (!(((unsigned)(I))&~_MASK(N)))
#define _suiP(N,I)      (_siP(N,I) | _uiP(N,I))

#ifndef _ASM_SAFETY
#define _ck_s(W,I)      (_UL(I) & _MASK(W))
#define _ck_u(W,I)      (_UL(I) & _MASK(W))
#define _ck_su(W,I)     (_UL(I) & _MASK(W))
#define _ck_d(W,I)      (_UL(I) & _MASK(W))
#else
#define _ck_s(W,I)      (_siP(W,I) ? (_UL(I) & _MASK(W)) : x86_emit_failure(  "signed integer `"#I"' too large for "#W"-bit field"))
#define _ck_u(W,I)      (_uiP(W,I) ? (_UL(I) & _MASK(W)) : x86_emit_failure("unsigned integer `"#I"' too large for "#W"-bit field"))
#define _ck_su(W,I)     (_suiP(W,I) ? (_UL(I) & _MASK(W)) : x86_emit_failure(        "integer `"#I"' too large for "#W"-bit field"))
#define _ck_d(W,I)      (_siP(W,I) ? (_UL(I) & _MASK(W)) : x86_emit_failure(    "displacement `"#I"' too large for "#W"-bit field"))
#endif

#define _s0P(I)         ((I)==0)
#define _s8P(I)         _siP(8,I)
#define _s16P(I)        _siP(16,I)
#define _u8P(I)         _uiP(8,I)
#define _u16P(I)        _uiP(16,I)

#define _su8(I)         _ck_su(8,I)
#define _su16(I)        _ck_su(16,I)

#define _s1(I)          _ck_s( 1,I)
#define _s2(I)          _ck_s( 2,I)
#define _s3(I)          _ck_s( 3,I)
#define _s4(I)          _ck_s( 4,I)
#define _s5(I)          _ck_s( 5,I)
#define _s6(I)          _ck_s( 6,I)
#define _s7(I)          _ck_s( 7,I)
#define _s8(I)          _ck_s( 8,I)
#define _s9(I)          _ck_s( 9,I)
#define _s10(I)         _ck_s(10,I)
#define _s11(I)         _ck_s(11,I)
#define _s12(I)         _ck_s(12,I)
#define _s13(I)         _ck_s(13,I)
#define _s14(I)         _ck_s(14,I)
#define _s15(I)         _ck_s(15,I)
#define _s16(I)         _ck_s(16,I)
#define _s17(I)         _ck_s(17,I)
#define _s18(I)         _ck_s(18,I)
#define _s19(I)         _ck_s(19,I)
#define _s20(I)         _ck_s(20,I)
#define _s21(I)         _ck_s(21,I)
#define _s22(I)         _ck_s(22,I)
#define _s23(I)         _ck_s(23,I)
#define _s24(I)         _ck_s(24,I)
#define _s25(I)         _ck_s(25,I)
#define _s26(I)         _ck_s(26,I)
#define _s27(I)         _ck_s(27,I)
#define _s28(I)         _ck_s(28,I)
#define _s29(I)         _ck_s(29,I)
#define _s30(I)         _ck_s(30,I)
#define _s31(I)         _ck_s(31,I)
#define _u1(I)          _ck_u( 1,I)
#define _u2(I)          _ck_u( 2,I)
#define _u3(I)          _ck_u( 3,I)
#define _u4(I)          _ck_u( 4,I)
#define _u5(I)          _ck_u( 5,I)
#define _u6(I)          _ck_u( 6,I)
#define _u7(I)          _ck_u( 7,I)
#define _u8(I)          _ck_u( 8,I)
#define _u9(I)          _ck_u( 9,I)
#define _u10(I)         _ck_u(10,I)
#define _u11(I)         _ck_u(11,I)
#define _u12(I)         _ck_u(12,I)
#define _u13(I)         _ck_u(13,I)
#define _u14(I)         _ck_u(14,I)
#define _u15(I)         _ck_u(15,I)
#define _u16(I)         _ck_u(16,I)
#define _u17(I)         _ck_u(17,I)
#define _u18(I)         _ck_u(18,I)
#define _u19(I)         _ck_u(19,I)
#define _u20(I)         _ck_u(20,I)
#define _u21(I)         _ck_u(21,I)
#define _u22(I)         _ck_u(22,I)
#define _u23(I)         _ck_u(23,I)
#define _u24(I)         _ck_u(24,I)
#define _u25(I)         _ck_u(25,I)
#define _u26(I)         _ck_u(26,I)
#define _u27(I)         _ck_u(27,I)
#define _u28(I)         _ck_u(28,I)
#define _u29(I)         _ck_u(29,I)
#define _u30(I)         _ck_u(30,I)
#define _u31(I)         _ck_u(31,I)

/* ========================================================================= */
/* --- ASSEMBLER ----------------------------------------------------------- */
/* ========================================================================= */

#define _b00            0
#define _b01            1
#define _b10            2
#define _b11            3

#define _b000           0
#define _b001           1
#define _b010           2
#define _b011           3
#define _b100           4
#define _b101           5
#define _b110           6
#define _b111           7

#define _OFF4(D)        (_UL(D) - _UL(x86_get_target()))
#define _CKD8(D)        _ck_d(8, ((_uc) _OFF4(D)) )

#define _D8(D)          (_B(0), ((*(_PUC(x86_get_target())-1))= _CKD8(D)))
#define _D32(D)         (_L(0), ((*(_PUL(x86_get_target())-1))= _OFF4(D)))

#ifndef _ASM_SAFETY
# define _M(M)          (M)
# define _r(R)          (R)
# define _m(M)          (M)
# define _s(S)          (S)
# define _i(I)          (I)
# define _b(B)          (B)
#else
# define _M(M)          (((M)>3) ? x86_emit_failure("internal error: mod = " #M) : (M))
# define _r(R)          (((R)>7) ? x86_emit_failure("internal error: reg = " #R) : (R))
# define _m(M)          (((M)>7) ? x86_emit_failure("internal error: r/m = " #M) : (M))
# define _s(S)          (((S)>3) ? x86_emit_failure("internal error: memory scale = " #S) : (S))
# define _i(I)          (((I)>7) ? x86_emit_failure("internal error: memory index = " #I) : (I))
# define _b(B)          (((B)>7) ? x86_emit_failure("internal error: memory base = "  #B) : (B))
#endif

#define _Mrm(Md,R,M)    _B((_M(Md)<<6)|(_r(R)<<3)|_m(M))
#define _SIB(Sc,I, B)   _B((_s(Sc)<<6)|(_i(I)<<3)|_b(B))

#define _SCL(S)         ((((S)==1) ? _b00 : \
                         (((S)==2) ? _b01 : \
                         (((S)==4) ? _b10 : \
                         (((S)==8) ? _b11 : x86_emit_failure("illegal scale: " #S))))))


/* --- Memory subformats - urgh! ------------------------------------------- */

#define _r_D(   R, D      )     (_Mrm(_b00,_rN(R),_b101 )                              ,_L((long)(D)))
#define _r_0B(  R,   B    )     (_Mrm(_b00,_rN(R),_rm4(B))                                   )
#define _r_0BIS(R,   B,I,S)     (_Mrm(_b00,_rN(R),_b100 ),_SIB(_SCL(S),_rm4(I),_rm4(B))      )
#define _r_1B(  R, D,B    )     (_Mrm(_b01,_rN(R),_rm4(B))                             ,_B((long)(D)))
#define _r_1BIS(R, D,B,I,S)     (_Mrm(_b01,_rN(R),_b100 ),_SIB(_SCL(S),_rm4(I),_rm4(B)),_B((long)(D)))
#define _r_4B(  R, D,B    )     (_Mrm(_b10,_rN(R),_rm4(B))                             ,_L((long)(D)))
#define _r_4IS( R, D,I,S)       (_Mrm(_b00,_rN(R),_b100 ),_SIB(_SCL(S),_rm4(I),_b101  ),_L((long)(D)))
#define _r_4BIS(R, D,B,I,S)     (_Mrm(_b10,_rN(R),_b100 ),_SIB(_SCL(S),_rm4(I),_rm4(B)),_L((long)(D)))

#define _r_DB(  R, D,B    )     ((_s0P(D) && (!_rBP(B)) ? _r_0B  (R,  B    ) : (_s8P(D) ? _r_1B(  R,D,B    ) : _r_4B(  R,D,B    ))))
#define _r_DBIS(R, D,B,I,S)     ((_s0P(D)               ? _r_0BIS(R,  B,I,S) : (_s8P(D) ? _r_1BIS(R,D,B,I,S) : _r_4BIS(R,D,B,I,S))))

// FIXME: 
#define _r_X(   R, D,B,I,S)     (_r0P(I) ?       (_r0P(B) ? _r_D   (R,D            )   : \
                                                 (_rSP(B) ? _r_DBIS(R,D,X86_ESP,X86_ESP,1)   : \
                                                            _r_DB  (R,D,   B       ))) : \
                                 (_r0P(B)                 ? _r_4IS (R,D,            I,S)   : \
                                 ((_rR(I)!=_rR(X86_RSP))  ? _r_DBIS(R,D,   B,   I,S)   : \
                                                      x86_emit_failure("illegal index register: %esp"))))


/* --- Instruction formats ------------------------------------------------- */

#define _m32only(X)             (! X86_TARGET_64BIT ? X : x86_emit_failure("invalid instruction in 64-bit mode"))
#define _m64only(X)             (  X86_TARGET_64BIT ? X : x86_emit_failure("invalid instruction in 32-bit mode"))
#define _m64(X)                 (  X86_TARGET_64BIT ? X : ((void)0)                                             )

/*       _format                                                     Opcd         ModR/M dN(rB,rI,Sc)     imm... */

#define  _d16()                                    (              _B(0x66       )                                 )
#define   _O(        OP                         )  (              _B(  OP       )                                 )
#define   _Or(       OP,R                       )  (              _B( (OP)|_r(R))                                 )
#define  _OO(        OP                         )  ( _B((OP)>>8), _B( (OP)      )                                 )
#define  _OOr(       OP,R                       )  ( _B((OP)>>8), _B( (OP)|_r(R))                                 )
#define   _Os(       OP,B                       )  (    _s8P(B) ? _B(((OP)|_b10)) : _B(OP)                        )
#define     _sW(                             W  )  (                                   _s8P(W) ? _B(W):_W(W)      )
#define     _sL(                             L  )  (                                   _s8P(L) ? _B(L):_L(L)      )
#define   _O_B(      OP                     ,B  )  (        _O      (  OP  )                          ,_B(B)      )
#define   _O_W(      OP                     ,W  )  (        _O      (  OP  )                          ,_W(W)      )
#define   _O_L(      OP                     ,L  )  (        _O      (  OP  )                          ,_L(L)      )
#define   _O_D8(     OP                     ,D  )  (        _O      (  OP  )                         ,_D8(D)      )
#define   _O_D32(     OP                    ,D  )  (        _O      (  OP  )                         ,_D32(D)     )
#define  _OO_D32(     OP                    ,D  )  (       _OO      (  OP  )                         ,_D32(D)     )
#define   _Os_sW(    OP                     ,W  )  (        _Os     (  OP,W)                         ,_sW(W)      )
#define   _Os_sL(    OP                     ,L  )  (        _Os     (  OP,L)                         ,_sL(L)      )
#define   _O_W_B(    OP                     ,W,B)  (        _O      (  OP  )                          ,_W(W),_B(B))
#define   _Or_B(     OP,R                   ,B  )  (        _Or     (  OP,R)                          ,_B(B)      )
#define   _Or_W(     OP,R                   ,W  )  (        _Or     (  OP,R)                          ,_W(W)      )
#define   _Or_L(     OP,R                   ,L  )  (        _Or     (  OP,R)                          ,_L(L)      )
#define   _O_Mrm(    OP  ,MO,R,M                )  (        _O      (  OP  ),_Mrm(MO,R,M            )             )
#define  _OO_Mrm(    OP  ,MO,R,M                )  (       _OO      (  OP  ),_Mrm(MO,R,M            )             )
#define   _O_Mrm_B(  OP  ,MO,R,M            ,B  )  (        _O      (  OP  ),_Mrm(MO,R,M            ) ,_B(B)      )
#define   _O_Mrm_W(  OP  ,MO,R,M            ,W  )  (        _O      (  OP  ),_Mrm(MO,R,M            ) ,_W(W)      )
#define   _O_Mrm_L(  OP  ,MO,R,M            ,L  )  (        _O      (  OP  ),_Mrm(MO,R,M            ) ,_L(L)      )
#define  _OO_Mrm_B(  OP  ,MO,R,M            ,B  )  (       _OO      (  OP  ),_Mrm(MO,R,M            ) ,_B(B)      )
#define   _Os_Mrm_sW(OP  ,MO,R,M            ,W  )  (        _Os     (  OP,W),_Mrm(MO,R,M            ),_sW(W)      )
#define   _Os_Mrm_sL(OP  ,MO,R,M            ,L  )  (        _Os     (  OP,L),_Mrm(MO,R,M            ),_sL(L)      )
#define   _O_r_X(    OP     ,R  ,MD,MB,MI,MS    )  (        _O      (  OP  ),_r_X(   R  ,MD,MB,MI,MS)             )
#define  _OO_r_X(    OP     ,R  ,MD,MB,MI,MS    )  (       _OO      (  OP  ),_r_X(   R  ,MD,MB,MI,MS)             )
#define   _O_r_X_B(  OP     ,R  ,MD,MB,MI,MS,B  )  (        _O      (  OP  ),_r_X(   R  ,MD,MB,MI,MS) ,_B(B)      )
#define   _O_r_X_W(  OP     ,R  ,MD,MB,MI,MS,W  )  (        _O      (  OP  ),_r_X(   R  ,MD,MB,MI,MS) ,_W(W)      )
#define   _O_r_X_L(  OP     ,R  ,MD,MB,MI,MS,L  )  (        _O      (  OP  ),_r_X(   R  ,MD,MB,MI,MS) ,_L(L)      )
#define  _OO_r_X_B(  OP     ,R  ,MD,MB,MI,MS,B  )  (       _OO      (  OP  ),_r_X(   R  ,MD,MB,MI,MS) ,_B(B)      )
#define   _Os_r_X_sW(OP     ,R  ,MD,MB,MI,MS,W  )  (        _Os     (  OP,W),_r_X(   R  ,MD,MB,MI,MS),_sW(W)      )
#define   _Os_r_X_sL(OP     ,R  ,MD,MB,MI,MS,L  )  (        _Os     (  OP,L),_r_X(   R  ,MD,MB,MI,MS),_sL(L)      )
#define   _O_X_B(    OP         ,MD,MB,MI,MS,B  )  (        _O_r_X_B(  OP           ,0  ,MD,MB,MI,MS     ,B)      )
#define   _O_X_W(    OP         ,MD,MB,MI,MS,W  )  (        _O_r_X_W(  OP           ,0  ,MD,MB,MI,MS     ,W)      )
#define   _O_X_L(    OP         ,MD,MB,MI,MS,L  )  (        _O_r_X_L(  OP           ,0  ,MD,MB,MI,MS     ,L)      )


/* --- REX prefixes -------------------------------------------------------- */

#define _VOID()                 ((void)0)
#define _BIT(X)                 (!!(X))
#define _d64(W,R,X,B)           (_B(0x40|(W)<<3|(R)<<2|(X)<<1|(B)))

#define __REXwrxb(L,W,R,X,B)    ((W|R|X|B) || (L) ? _d64(W,R,X,B) : _VOID())
#define __REXwrx_(L,W,R,X,MR)   (__REXwrxb(L,W,R,X,_BIT(_rXP(MR))))
#define __REXw_x_(L,W,R,X,MR)   (__REXwrx_(L,W,_BIT(_rXP(R)),X,MR))

// FIXME: can't mix new (SPL,BPL,SIL,DIL) with (AH,BH,CH,DH)
#define _REXBrr(RR,MR)          _m64(__REXw_x_(((RR)|(MR))>=X86_SPL,0,RR,0,MR))
#define _REXBmr(MB,MI,RD)       _m64(__REXw_x_(((RR)|(MR))>=X86_SPL,0,RD,_BIT(_rXP(MI)),MB))
#define _REXBrm(RS,MB,MI)       _REXBmr(MB,MI,RS)

#define _REXLrr(RR,MR)          _m64(__REXw_x_(0,0,RR,0,MR))
#define _REXLmr(MB,MI,RD)       _m64(__REXw_x_(0,0,RD,_BIT(_rXP(MI)),MB))
#define _REXLrm(RS,MB,MI)       _REXLmr(MB,MI,RS)

#define _REXQrr(RR,MR)          _m64only(__REXw_x_(0,1,RR,0,MR))
#define _REXQmr(MB,MI,RD)       _m64only(__REXw_x_(0,1,RD,_BIT(_rXP(MI)),MB))
#define _REXQrm(RS,MB,MI)       _REXQmr(MB,MI,RS)


/* ========================================================================= */
/* --- Fully-qualified intrinsic instructions ------------------------------ */
/* ========================================================================= */

/*      OPCODE  + i     = immediate operand
 *              + r     = register operand
 *              + m     = memory operand (disp,base,index,scale)
 *              + sr/sm = a star preceding a register or memory
 *              + 0     = top of stack register (for FPU instructions)
 */

/* --- ALU instructions ---------------------------------------------------- */

enum {
  X86_ADD = 0,
  X86_OR  = 1,
  X86_ADC = 2,
  X86_SBB = 3,
  X86_AND = 4,
  X86_SUB = 5,
  X86_XOR = 6,
  X86_CMP = 7,
};

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define _ALUBrr(OP,RS, RD)              (_REXBrr(RS, RD),               _O_Mrm          (((OP) << 3)    ,_b11,_r1(RS),_r1(RD)                           ))
#define _ALUBmr(OP, MD, MB, MI, MS, RD) (_REXBmr(MB, MI, RD),           _O_r_X          (((OP) << 3) + 2,_r1(RD)                ,MD,MB,MI,MS            ))
#define _ALUBrm(OP, RS, MD, MB, MI, MS) (_REXBrm(RS, MB, MI),           _O_r_X          (((OP) << 3)    ,    ,_r1(RS)           ,MD,MB,MI,MS            ))
#define _ALUBir(OP, IM, RD)             (X86_OPTIMIZE_ALU && ((RD) == X86_AL) ? \
                                        (_REXBrr(0, RD),                _O_B            (((OP) << 3) + 4                                        ,_su8(IM))) : \
                                        (_REXBrr(0, RD),                _O_Mrm_B        (0x80           ,_b11,OP     ,_r1(RD)                   ,_su8(IM))) )
#define _ALUBim(OP, IM, MD, MB, MI, MS) (_REXBrm(0, MB, MI),            _O_r_X_B        (0x80                ,OP                ,MD,MB,MI,MS    ,_su8(IM)))

#define _ALUWrr(OP, RS, RD)             (_d16(), _REXLrr(RS, RD),       _O_Mrm          (((OP) << 3) + 1,_b11,_r2(RS),_r2(RD)                           ))
#define _ALUWmr(OP, MD, MB, MI, MS, RD) (_d16(), _REXLmr(MD, MI, RD),   _O_r_X          (((OP) << 3) + 3     ,_r2(RD)           ,MD,MB,MI,MS            ))
#define _ALUWrm(OP, RS, MD, MB, MI, MS) (_d16(), _REXLrm(RS, MD, MI),   _O_r_X          (((OP) << 3) + 1     ,_r2(RS)           ,MD,MB,MI,MS            ))
#define _ALUWir(OP, IM, RD)             (X86_OPTIMIZE_ALU && ((RD) == X86_AX) ? \
                                        (_d16(), _REXLrr(0, RD),        _O_W            (((OP) << 3) + 5                                        ,_su16(IM))) : \
                                        (_d16(), _REXLrr(0, RD),        _Os_Mrm_sW      (0x81           ,_b11,OP     ,_r2(RD)                   ,_su16(IM))) )
#define _ALUWim(OP, IM, MD, MB, MI, MS) (_d16(), _REXLrm(0, MD, MI),    _Os_r_X_sW      (0x81                ,OP                ,MD,MB,MI,MS    ,_su16(IM)))

#define _ALULrr(OP, RS, RD)             (_REXLrr(RS, RD),               _O_Mrm          (((OP) << 3) + 1,_b11,_r4(RS),_r4(RD)                           ))
#define _ALULmr(OP, MD, MB, MI, MS, RD) (_REXLmr(MB, MI, RD),           _O_r_X          (((OP) << 3) + 3     ,_r4(RD)           ,MD,MB,MI,MS            ))
#define _ALULrm(OP, RS, MD, MB, MI, MS) (_REXLrm(RS, MB, MI),           _O_r_X          (((OP) << 3) + 1     ,_r4(RS)           ,MD,MB,MI,MS            ))
#define _ALULir(OP, IM, RD)             (X86_OPTIMIZE_ALU && ((RD) == X86_EAX) ? \
                                        (_REXLrr(0, RD),                _O_L            (((OP) << 3) + 5                                        ,IM     )) : \
                                        (_REXLrr(0, RD),                _Os_Mrm_sL      (0x81           ,_b11,OP     ,_r4(RD)                   ,IM     )) )
#define _ALULim(OP, IM, MD, MB, MI, MS) (_REXLrm(0, MB, MI),            _Os_r_X_sL      (0x81                ,OP                ,MD,MB,MI,MS    ,IM     ))

#define _ALUQrr(OP, RS, RD)             (_REXQrr(RS, RD),               _O_Mrm          (((OP) << 3) + 1,_b11,_r8(RS),_r8(RD)                           ))
#define _ALUQmr(OP, MD, MB, MI, MS, RD) (_REXQmr(MB, MI, RD),           _O_r_X          (((OP) << 3) + 3     ,_r8(RD)           ,MD,MB,MI,MS            ))
#define _ALUQrm(OP, RS, MD, MB, MI, MS) (_REXQrm(RS, MB, MI),           _O_r_X          (((OP) << 3) + 1     ,_r8(RS)           ,MD,MB,MI,MS            ))
#define _ALUQir(OP, IM, RD)             (X86_OPTIMIZE_ALU && ((RD) == X86_RAX) ? \
                                        (_REXQrr(0, RD),                _O_L            (((OP) << 3) + 5                                        ,IM     )) : \
                                        (_REXQrr(0, RD),                _Os_Mrm_sL      (0x81           ,_b11,OP     ,_r8(RD)                   ,IM     )) )
#define _ALUQim(OP, IM, MD, MB, MI, MS) (_REXQrm(0, MB, MI),            _Os_r_X_sL      (0x81                ,OP                ,MD,MB,MI,MS    ,IM     ))

#define ADCBrr(RS, RD)                  _ALUBrr(X86_ADC, RS, RD)
#define ADCBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_ADC, MD, MB, MI, MS, RD)
#define ADCBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_ADC, RS, MD, MB, MI, MS)
#define ADCBir(IM, RD)                  _ALUBir(X86_ADC, IM, RD)
#define ADCBim(IM, MD, MB, MI, MS)      _ALUBim(X86_ADC, IM, MD, MB, MI, MS)

#define ADCWrr(RS, RD)                  _ALUWrr(X86_ADC, RS, RD)
#define ADCWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_ADC, MD, MB, MI, MS, RD)
#define ADCWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_ADC, RS, MD, MB, MI, MS)
#define ADCWir(IM, RD)                  _ALUWir(X86_ADC, IM, RD)
#define ADCWim(IM, MD, MB, MI, MS)      _ALUWim(X86_ADC, IM, MD, MB, MI, MS)

#define ADCLrr(RS, RD)                  _ALULrr(X86_ADC, RS, RD)
#define ADCLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_ADC, MD, MB, MI, MS, RD)
#define ADCLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_ADC, RS, MD, MB, MI, MS)
#define ADCLir(IM, RD)                  _ALULir(X86_ADC, IM, RD)
#define ADCLim(IM, MD, MB, MI, MS)      _ALULim(X86_ADC, IM, MD, MB, MI, MS)

#define ADCQrr(RS, RD)                  _ALUQrr(X86_ADC, RS, RD)
#define ADCQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_ADC, MD, MB, MI, MS, RD)
#define ADCQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_ADC, RS, MD, MB, MI, MS)
#define ADCQir(IM, RD)                  _ALUQir(X86_ADC, IM, RD)
#define ADCQim(IM, MD, MB, MI, MS)      _ALUQim(X86_ADC, IM, MD, MB, MI, MS)

#define ADDBrr(RS, RD)                  _ALUBrr(X86_ADD, RS, RD)
#define ADDBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_ADD, MD, MB, MI, MS, RD)
#define ADDBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_ADD, RS, MD, MB, MI, MS)
#define ADDBir(IM, RD)                  _ALUBir(X86_ADD, IM, RD)
#define ADDBim(IM, MD, MB, MI, MS)      _ALUBim(X86_ADD, IM, MD, MB, MI, MS)

#define ADDWrr(RS, RD)                  _ALUWrr(X86_ADD, RS, RD)
#define ADDWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_ADD, MD, MB, MI, MS, RD)
#define ADDWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_ADD, RS, MD, MB, MI, MS)
#define ADDWir(IM, RD)                  _ALUWir(X86_ADD, IM, RD)
#define ADDWim(IM, MD, MB, MI, MS)      _ALUWim(X86_ADD, IM, MD, MB, MI, MS)

#define ADDLrr(RS, RD)                  _ALULrr(X86_ADD, RS, RD)
#define ADDLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_ADD, MD, MB, MI, MS, RD)
#define ADDLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_ADD, RS, MD, MB, MI, MS)
#define ADDLir(IM, RD)                  _ALULir(X86_ADD, IM, RD)
#define ADDLim(IM, MD, MB, MI, MS)      _ALULim(X86_ADD, IM, MD, MB, MI, MS)

#define ADDQrr(RS, RD)                  _ALUQrr(X86_ADD, RS, RD)
#define ADDQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_ADD, MD, MB, MI, MS, RD)
#define ADDQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_ADD, RS, MD, MB, MI, MS)
#define ADDQir(IM, RD)                  _ALUQir(X86_ADD, IM, RD)
#define ADDQim(IM, MD, MB, MI, MS)      _ALUQim(X86_ADD, IM, MD, MB, MI, MS)

#define ANDBrr(RS, RD)                  _ALUBrr(X86_AND, RS, RD)
#define ANDBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_AND, MD, MB, MI, MS, RD)
#define ANDBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_AND, RS, MD, MB, MI, MS)
#define ANDBir(IM, RD)                  _ALUBir(X86_AND, IM, RD)
#define ANDBim(IM, MD, MB, MI, MS)      _ALUBim(X86_AND, IM, MD, MB, MI, MS)

#define ANDWrr(RS, RD)                  _ALUWrr(X86_AND, RS, RD)
#define ANDWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_AND, MD, MB, MI, MS, RD)
#define ANDWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_AND, RS, MD, MB, MI, MS)
#define ANDWir(IM, RD)                  _ALUWir(X86_AND, IM, RD)
#define ANDWim(IM, MD, MB, MI, MS)      _ALUWim(X86_AND, IM, MD, MB, MI, MS)

#define ANDLrr(RS, RD)                  _ALULrr(X86_AND, RS, RD)
#define ANDLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_AND, MD, MB, MI, MS, RD)
#define ANDLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_AND, RS, MD, MB, MI, MS)
#define ANDLir(IM, RD)                  _ALULir(X86_AND, IM, RD)
#define ANDLim(IM, MD, MB, MI, MS)      _ALULim(X86_AND, IM, MD, MB, MI, MS)

#define ANDQrr(RS, RD)                  _ALUQrr(X86_AND, RS, RD)
#define ANDQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_AND, MD, MB, MI, MS, RD)
#define ANDQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_AND, RS, MD, MB, MI, MS)
#define ANDQir(IM, RD)                  _ALUQir(X86_AND, IM, RD)
#define ANDQim(IM, MD, MB, MI, MS)      _ALUQim(X86_AND, IM, MD, MB, MI, MS)

#define CMPBrr(RS, RD)                  _ALUBrr(X86_CMP, RS, RD)
#define CMPBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_CMP, MD, MB, MI, MS, RD)
#define CMPBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_CMP, RS, MD, MB, MI, MS)
#define CMPBir(IM, RD)                  _ALUBir(X86_CMP, IM, RD)
#define CMPBim(IM, MD, MB, MI, MS)      _ALUBim(X86_CMP, IM, MD, MB, MI, MS)

#define CMPWrr(RS, RD)                  _ALUWrr(X86_CMP, RS, RD)
#define CMPWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_CMP, MD, MB, MI, MS, RD)
#define CMPWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_CMP, RS, MD, MB, MI, MS)
#define CMPWir(IM, RD)                  _ALUWir(X86_CMP, IM, RD)
#define CMPWim(IM, MD, MB, MI, MS)      _ALUWim(X86_CMP, IM, MD, MB, MI, MS)

#define CMPLrr(RS, RD)                  _ALULrr(X86_CMP, RS, RD)
#define CMPLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_CMP, MD, MB, MI, MS, RD)
#define CMPLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_CMP, RS, MD, MB, MI, MS)
#define CMPLir(IM, RD)                  _ALULir(X86_CMP, IM, RD)
#define CMPLim(IM, MD, MB, MI, MS)      _ALULim(X86_CMP, IM, MD, MB, MI, MS)

#define CMPQrr(RS, RD)                  _ALUQrr(X86_CMP, RS, RD)
#define CMPQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_CMP, MD, MB, MI, MS, RD)
#define CMPQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_CMP, RS, MD, MB, MI, MS)
#define CMPQir(IM, RD)                  _ALUQir(X86_CMP, IM, RD)
#define CMPQim(IM, MD, MB, MI, MS)      _ALUQim(X86_CMP, IM, MD, MB, MI, MS)

#define ORBrr(RS, RD)                   _ALUBrr(X86_OR, RS, RD)
#define ORBmr(MD, MB, MI, MS, RD)       _ALUBmr(X86_OR, MD, MB, MI, MS, RD)
#define ORBrm(RS, MD, MB, MI, MS)       _ALUBrm(X86_OR, RS, MD, MB, MI, MS)
#define ORBir(IM, RD)                   _ALUBir(X86_OR, IM, RD)
#define ORBim(IM, MD, MB, MI, MS)       _ALUBim(X86_OR, IM, MD, MB, MI, MS)

#define ORWrr(RS, RD)                   _ALUWrr(X86_OR, RS, RD)
#define ORWmr(MD, MB, MI, MS, RD)       _ALUWmr(X86_OR, MD, MB, MI, MS, RD)
#define ORWrm(RS, MD, MB, MI, MS)       _ALUWrm(X86_OR, RS, MD, MB, MI, MS)
#define ORWir(IM, RD)                   _ALUWir(X86_OR, IM, RD)
#define ORWim(IM, MD, MB, MI, MS)       _ALUWim(X86_OR, IM, MD, MB, MI, MS)

#define ORLrr(RS, RD)                   _ALULrr(X86_OR, RS, RD)
#define ORLmr(MD, MB, MI, MS, RD)       _ALULmr(X86_OR, MD, MB, MI, MS, RD)
#define ORLrm(RS, MD, MB, MI, MS)       _ALULrm(X86_OR, RS, MD, MB, MI, MS)
#define ORLir(IM, RD)                   _ALULir(X86_OR, IM, RD)
#define ORLim(IM, MD, MB, MI, MS)       _ALULim(X86_OR, IM, MD, MB, MI, MS)

#define ORQrr(RS, RD)                   _ALUQrr(X86_OR, RS, RD)
#define ORQmr(MD, MB, MI, MS, RD)       _ALUQmr(X86_OR, MD, MB, MI, MS, RD)
#define ORQrm(RS, MD, MB, MI, MS)       _ALUQrm(X86_OR, RS, MD, MB, MI, MS)
#define ORQir(IM, RD)                   _ALUQir(X86_OR, IM, RD)
#define ORQim(IM, MD, MB, MI, MS)       _ALUQim(X86_OR, IM, MD, MB, MI, MS)

#define SBBBrr(RS, RD)                  _ALUBrr(X86_SBB, RS, RD)
#define SBBBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_SBB, MD, MB, MI, MS, RD)
#define SBBBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_SBB, RS, MD, MB, MI, MS)
#define SBBBir(IM, RD)                  _ALUBir(X86_SBB, IM, RD)
#define SBBBim(IM, MD, MB, MI, MS)      _ALUBim(X86_SBB, IM, MD, MB, MI, MS)

#define SBBWrr(RS, RD)                  _ALUWrr(X86_SBB, RS, RD)
#define SBBWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_SBB, MD, MB, MI, MS, RD)
#define SBBWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_SBB, RS, MD, MB, MI, MS)
#define SBBWir(IM, RD)                  _ALUWir(X86_SBB, IM, RD)
#define SBBWim(IM, MD, MB, MI, MS)      _ALUWim(X86_SBB, IM, MD, MB, MI, MS)

#define SBBLrr(RS, RD)                  _ALULrr(X86_SBB, RS, RD)
#define SBBLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_SBB, MD, MB, MI, MS, RD)
#define SBBLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_SBB, RS, MD, MB, MI, MS)
#define SBBLir(IM, RD)                  _ALULir(X86_SBB, IM, RD)
#define SBBLim(IM, MD, MB, MI, MS)      _ALULim(X86_SBB, IM, MD, MB, MI, MS)

#define SBBQrr(RS, RD)                  _ALUQrr(X86_SBB, RS, RD)
#define SBBQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_SBB, MD, MB, MI, MS, RD)
#define SBBQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_SBB, RS, MD, MB, MI, MS)
#define SBBQir(IM, RD)                  _ALUQir(X86_SBB, IM, RD)
#define SBBQim(IM, MD, MB, MI, MS)      _ALUQim(X86_SBB, IM, MD, MB, MI, MS)

#define SUBBrr(RS, RD)                  _ALUBrr(X86_SUB, RS, RD)
#define SUBBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_SUB, MD, MB, MI, MS, RD)
#define SUBBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_SUB, RS, MD, MB, MI, MS)
#define SUBBir(IM, RD)                  _ALUBir(X86_SUB, IM, RD)
#define SUBBim(IM, MD, MB, MI, MS)      _ALUBim(X86_SUB, IM, MD, MB, MI, MS)

#define SUBWrr(RS, RD)                  _ALUWrr(X86_SUB, RS, RD)
#define SUBWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_SUB, MD, MB, MI, MS, RD)
#define SUBWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_SUB, RS, MD, MB, MI, MS)
#define SUBWir(IM, RD)                  _ALUWir(X86_SUB, IM, RD)
#define SUBWim(IM, MD, MB, MI, MS)      _ALUWim(X86_SUB, IM, MD, MB, MI, MS)

#define SUBLrr(RS, RD)                  _ALULrr(X86_SUB, RS, RD)
#define SUBLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_SUB, MD, MB, MI, MS, RD)
#define SUBLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_SUB, RS, MD, MB, MI, MS)
#define SUBLir(IM, RD)                  _ALULir(X86_SUB, IM, RD)
#define SUBLim(IM, MD, MB, MI, MS)      _ALULim(X86_SUB, IM, MD, MB, MI, MS)

#define SUBQrr(RS, RD)                  _ALUQrr(X86_SUB, RS, RD)
#define SUBQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_SUB, MD, MB, MI, MS, RD)
#define SUBQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_SUB, RS, MD, MB, MI, MS)
#define SUBQir(IM, RD)                  _ALUQir(X86_SUB, IM, RD)
#define SUBQim(IM, MD, MB, MI, MS)      _ALUQim(X86_SUB, IM, MD, MB, MI, MS)

#define XORBrr(RS, RD)                  _ALUBrr(X86_XOR, RS, RD)
#define XORBmr(MD, MB, MI, MS, RD)      _ALUBmr(X86_XOR, MD, MB, MI, MS, RD)
#define XORBrm(RS, MD, MB, MI, MS)      _ALUBrm(X86_XOR, RS, MD, MB, MI, MS)
#define XORBir(IM, RD)                  _ALUBir(X86_XOR, IM, RD)
#define XORBim(IM, MD, MB, MI, MS)      _ALUBim(X86_XOR, IM, MD, MB, MI, MS)

#define XORWrr(RS, RD)                  _ALUWrr(X86_XOR, RS, RD)
#define XORWmr(MD, MB, MI, MS, RD)      _ALUWmr(X86_XOR, MD, MB, MI, MS, RD)
#define XORWrm(RS, MD, MB, MI, MS)      _ALUWrm(X86_XOR, RS, MD, MB, MI, MS)
#define XORWir(IM, RD)                  _ALUWir(X86_XOR, IM, RD)
#define XORWim(IM, MD, MB, MI, MS)      _ALUWim(X86_XOR, IM, MD, MB, MI, MS)

#define XORLrr(RS, RD)                  _ALULrr(X86_XOR, RS, RD)
#define XORLmr(MD, MB, MI, MS, RD)      _ALULmr(X86_XOR, MD, MB, MI, MS, RD)
#define XORLrm(RS, MD, MB, MI, MS)      _ALULrm(X86_XOR, RS, MD, MB, MI, MS)
#define XORLir(IM, RD)                  _ALULir(X86_XOR, IM, RD)
#define XORLim(IM, MD, MB, MI, MS)      _ALULim(X86_XOR, IM, MD, MB, MI, MS)

#define XORQrr(RS, RD)                  _ALUQrr(X86_XOR, RS, RD)
#define XORQmr(MD, MB, MI, MS, RD)      _ALUQmr(X86_XOR, MD, MB, MI, MS, RD)
#define XORQrm(RS, MD, MB, MI, MS)      _ALUQrm(X86_XOR, RS, MD, MB, MI, MS)
#define XORQir(IM, RD)                  _ALUQir(X86_XOR, IM, RD)
#define XORQim(IM, MD, MB, MI, MS)      _ALUQim(X86_XOR, IM, MD, MB, MI, MS)


/* --- Shift/Rotate instructions ------------------------------------------- */

enum {
  X86_ROL = 0,
  X86_ROR = 1,
  X86_RCL = 2,
  X86_RCR = 3,
  X86_SHL = 4,
  X86_SHR = 5,
  X86_SAR = 7,
};

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define _ROTSHIBir(OP,IM,RD)            (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXBrr(0, RD),                _O_Mrm          (0xd0           ,_b11,OP,_r1(RD)                                )) : \
                                        (_REXBrr(0, RD),                _O_Mrm_B        (0xc0           ,_b11,OP,_r1(RD)                        ,_u8(IM))) )
#define _ROTSHIBim(OP,IM,MD,MB,MI,MS)   (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXBrm(0, MB, MI),            _O_r_X          (0xd0                ,OP                ,MD,MB,MI,MS            )) : \
                                        (_REXBrm(0, MB, MI),            _O_r_X_B        (0xc0                ,OP                ,MD,MB,MI,MS    ,_u8(IM))) )
#define _ROTSHIBrr(OP,RS,RD)            (((RS) == X86_CL) ? \
                                        (_REXBrr(RS, RD),               _O_Mrm          (0xd2           ,_b11,OP,_r1(RD)                                )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )
#define _ROTSHIBrm(OP,RS,MD,MB,MI,MS)   (((RS) == X86_CL) ? \
                                        (_REXBrm(RS, MB, MI),           _O_r_X          (0xd2                ,OP                ,MD,MB,MI,MS            )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )

#define _ROTSHIWir(OP,IM,RD)            (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_d16(), _REXLrr(0, RD),        _O_Mrm          (0xd1           ,_b11,OP,_r2(RD)                                )) : \
                                        (_d16(), _REXLrr(0, RD),        _O_Mrm_B        (0xc1           ,_b11,OP,_r2(RD)                        ,_u8(IM))) )
#define _ROTSHIWim(OP,IM,MD,MB,MI,MS)   (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_d16(), _REXLrm(0, MB, MI),    _O_r_X          (0xd1                ,OP                ,MD,MB,MI,MS            )) : \
                                        (_d16(), _REXLrm(0, MB, MI),    _O_r_X_B        (0xc1                ,OP                ,MD,MB,MI,MS    ,_u8(IM))) )
#define _ROTSHIWrr(OP,RS,RD)            (((RS) == X86_CL) ? \
                                        (_d16(), _REXLrr(RS, RD),       _O_Mrm          (0xd3           ,_b11,OP,_r2(RD)                                )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )
#define _ROTSHIWrm(OP,RS,MD,MB,MI,MS)   (((RS) == X86_CL) ? \
                                        (_d16(), _REXLrm(RS, MB, MI),   _O_r_X          (0xd3                ,OP                ,MD,MB,MI,MS            )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )

#define _ROTSHILir(OP,IM,RD)            (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXLrr(0, RD),                _O_Mrm          (0xd1           ,_b11,OP,_r4(RD)                                )) : \
                                        (_REXLrr(0, RD),                _O_Mrm_B        (0xc1           ,_b11,OP,_r4(RD)                        ,_u8(IM))) )
#define _ROTSHILim(OP,IM,MD,MB,MI,MS)   (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXLrm(0, MB, MI),            _O_r_X          (0xd1                ,OP                ,MD,MB,MI,MS            )) : \
                                        (_REXLrm(0, MB, MI),            _O_r_X_B        (0xc1                ,OP                ,MD,MB,MI,MS    ,_u8(IM))) )
#define _ROTSHILrr(OP,RS,RD)            (((RS) == X86_CL) ? \
                                        (_REXLrr(RS, RD),               _O_Mrm          (0xd3           ,_b11,OP,_r4(RD)                                )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )
#define _ROTSHILrm(OP,RS,MD,MB,MI,MS)   (((RS) == X86_CL) ? \
                                        (_REXLrm(RS, MB, MI),           _O_r_X          (0xd3                ,OP                ,MD,MB,MI,MS            )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )

#define _ROTSHIQir(OP,IM,RD)            (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXQrr(0, RD),                _O_Mrm          (0xd1           ,_b11,OP,_r8(RD)                                )) : \
                                        (_REXQrr(0, RD),                _O_Mrm_B        (0xc1           ,_b11,OP,_r8(RD)                        ,_u8(IM))) )
#define _ROTSHIQim(OP,IM,MD,MB,MI,MS)   (X86_OPTIMIZE_ROTSHI && ((IM) == 1) ? \
                                        (_REXQrm(0, MB, MI),            _O_r_X          (0xd1                ,OP                ,MD,MB,MI,MS            )) : \
                                        (_REXQrm(0, MB, MI),            _O_r_X_B        (0xc1                ,OP                ,MD,MB,MI,MS    ,_u8(IM))) )
#define _ROTSHIQrr(OP,RS,RD)            (((RS) == X86_CL) ? \
                                        (_REXQrr(RS, RD),               _O_Mrm          (0xd3           ,_b11,OP,_r8(RD)                                )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )
#define _ROTSHIQrm(OP,RS,MD,MB,MI,MS)   (((RS) == X86_CL) ? \
                                        (_REXQrm(RS, MB, MI),           _O_r_X          (0xd3                ,OP                ,MD,MB,MI,MS            )) : \
                                                                        x86_emit_failure("source register must be CL"                                   )  )

#define ROLBir(IM, RD)                  _ROTSHIBir(X86_ROL, IM, RD)
#define ROLBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_ROL, IM, MD, MB, MI, MS)
#define ROLBrr(RS, RD)                  _ROTSHIBrr(X86_ROL, RS, RD)
#define ROLBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_ROL, RS, MD, MB, MI, MS)

#define ROLWir(IM, RD)                  _ROTSHIWir(X86_ROL, IM, RD)
#define ROLWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_ROL, IM, MD, MB, MI, MS)
#define ROLWrr(RS, RD)                  _ROTSHIWrr(X86_ROL, RS, RD)
#define ROLWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_ROL, RS, MD, MB, MI, MS)

#define ROLLir(IM, RD)                  _ROTSHILir(X86_ROL, IM, RD)
#define ROLLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_ROL, IM, MD, MB, MI, MS)
#define ROLLrr(RS, RD)                  _ROTSHILrr(X86_ROL, RS, RD)
#define ROLLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_ROL, RS, MD, MB, MI, MS)

#define ROLQir(IM, RD)                  _ROTSHIQir(X86_ROL, IM, RD)
#define ROLQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_ROL, IM, MD, MB, MI, MS)
#define ROLQrr(RS, RD)                  _ROTSHIQrr(X86_ROL, RS, RD)
#define ROLQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_ROL, RS, MD, MB, MI, MS)

#define RORBir(IM, RD)                  _ROTSHIBir(X86_ROR, IM, RD)
#define RORBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_ROR, IM, MD, MB, MI, MS)
#define RORBrr(RS, RD)                  _ROTSHIBrr(X86_ROR, RS, RD)
#define RORBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_ROR, RS, MD, MB, MI, MS)

#define RORWir(IM, RD)                  _ROTSHIWir(X86_ROR, IM, RD)
#define RORWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_ROR, IM, MD, MB, MI, MS)
#define RORWrr(RS, RD)                  _ROTSHIWrr(X86_ROR, RS, RD)
#define RORWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_ROR, RS, MD, MB, MI, MS)

#define RORLir(IM, RD)                  _ROTSHILir(X86_ROR, IM, RD)
#define RORLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_ROR, IM, MD, MB, MI, MS)
#define RORLrr(RS, RD)                  _ROTSHILrr(X86_ROR, RS, RD)
#define RORLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_ROR, RS, MD, MB, MI, MS)

#define RORQir(IM, RD)                  _ROTSHIQir(X86_ROR, IM, RD)
#define RORQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_ROR, IM, MD, MB, MI, MS)
#define RORQrr(RS, RD)                  _ROTSHIQrr(X86_ROR, RS, RD)
#define RORQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_ROR, RS, MD, MB, MI, MS)

#define RCLBir(IM, RD)                  _ROTSHIBir(X86_RCL, IM, RD)
#define RCLBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_RCL, IM, MD, MB, MI, MS)
#define RCLBrr(RS, RD)                  _ROTSHIBrr(X86_RCL, RS, RD)
#define RCLBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_RCL, RS, MD, MB, MI, MS)

#define RCLWir(IM, RD)                  _ROTSHIWir(X86_RCL, IM, RD)
#define RCLWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_RCL, IM, MD, MB, MI, MS)
#define RCLWrr(RS, RD)                  _ROTSHIWrr(X86_RCL, RS, RD)
#define RCLWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_RCL, RS, MD, MB, MI, MS)

#define RCLLir(IM, RD)                  _ROTSHILir(X86_RCL, IM, RD)
#define RCLLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_RCL, IM, MD, MB, MI, MS)
#define RCLLrr(RS, RD)                  _ROTSHILrr(X86_RCL, RS, RD)
#define RCLLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_RCL, RS, MD, MB, MI, MS)

#define RCLQir(IM, RD)                  _ROTSHIQir(X86_RCL, IM, RD)
#define RCLQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_RCL, IM, MD, MB, MI, MS)
#define RCLQrr(RS, RD)                  _ROTSHIQrr(X86_RCL, RS, RD)
#define RCLQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_RCL, RS, MD, MB, MI, MS)

#define RCRBir(IM, RD)                  _ROTSHIBir(X86_RCR, IM, RD)
#define RCRBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_RCR, IM, MD, MB, MI, MS)
#define RCRBrr(RS, RD)                  _ROTSHIBrr(X86_RCR, RS, RD)
#define RCRBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_RCR, RS, MD, MB, MI, MS)

#define RCRWir(IM, RD)                  _ROTSHIWir(X86_RCR, IM, RD)
#define RCRWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_RCR, IM, MD, MB, MI, MS)
#define RCRWrr(RS, RD)                  _ROTSHIWrr(X86_RCR, RS, RD)
#define RCRWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_RCR, RS, MD, MB, MI, MS)

#define RCRLir(IM, RD)                  _ROTSHILir(X86_RCR, IM, RD)
#define RCRLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_RCR, IM, MD, MB, MI, MS)
#define RCRLrr(RS, RD)                  _ROTSHILrr(X86_RCR, RS, RD)
#define RCRLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_RCR, RS, MD, MB, MI, MS)

#define RCRQir(IM, RD)                  _ROTSHIQir(X86_RCR, IM, RD)
#define RCRQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_RCR, IM, MD, MB, MI, MS)
#define RCRQrr(RS, RD)                  _ROTSHIQrr(X86_RCR, RS, RD)
#define RCRQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_RCR, RS, MD, MB, MI, MS)

#define SHLBir(IM, RD)                  _ROTSHIBir(X86_SHL, IM, RD)
#define SHLBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_SHL, IM, MD, MB, MI, MS)
#define SHLBrr(RS, RD)                  _ROTSHIBrr(X86_SHL, RS, RD)
#define SHLBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_SHL, RS, MD, MB, MI, MS)

#define SHLWir(IM, RD)                  _ROTSHIWir(X86_SHL, IM, RD)
#define SHLWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_SHL, IM, MD, MB, MI, MS)
#define SHLWrr(RS, RD)                  _ROTSHIWrr(X86_SHL, RS, RD)
#define SHLWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_SHL, RS, MD, MB, MI, MS)

#define SHLLir(IM, RD)                  _ROTSHILir(X86_SHL, IM, RD)
#define SHLLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_SHL, IM, MD, MB, MI, MS)
#define SHLLrr(RS, RD)                  _ROTSHILrr(X86_SHL, RS, RD)
#define SHLLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_SHL, RS, MD, MB, MI, MS)

#define SHLQir(IM, RD)                  _ROTSHIQir(X86_SHL, IM, RD)
#define SHLQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_SHL, IM, MD, MB, MI, MS)
#define SHLQrr(RS, RD)                  _ROTSHIQrr(X86_SHL, RS, RD)
#define SHLQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_SHL, RS, MD, MB, MI, MS)

#define SHRBir(IM, RD)                  _ROTSHIBir(X86_SHR, IM, RD)
#define SHRBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_SHR, IM, MD, MB, MI, MS)
#define SHRBrr(RS, RD)                  _ROTSHIBrr(X86_SHR, RS, RD)
#define SHRBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_SHR, RS, MD, MB, MI, MS)

#define SHRWir(IM, RD)                  _ROTSHIWir(X86_SHR, IM, RD)
#define SHRWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_SHR, IM, MD, MB, MI, MS)
#define SHRWrr(RS, RD)                  _ROTSHIWrr(X86_SHR, RS, RD)
#define SHRWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_SHR, RS, MD, MB, MI, MS)

#define SHRLir(IM, RD)                  _ROTSHILir(X86_SHR, IM, RD)
#define SHRLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_SHR, IM, MD, MB, MI, MS)
#define SHRLrr(RS, RD)                  _ROTSHILrr(X86_SHR, RS, RD)
#define SHRLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_SHR, RS, MD, MB, MI, MS)

#define SHRQir(IM, RD)                  _ROTSHIQir(X86_SHR, IM, RD)
#define SHRQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_SHR, IM, MD, MB, MI, MS)
#define SHRQrr(RS, RD)                  _ROTSHIQrr(X86_SHR, RS, RD)
#define SHRQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_SHR, RS, MD, MB, MI, MS)

#define SALBir                          SHLBir
#define SALBim                          SHLBim
#define SALBrr                          SHLBrr
#define SALBrm                          SHLBrm

#define SALWir                          SHLWir
#define SALWim                          SHLWim
#define SALWrr                          SHLWrr
#define SALWrm                          SHLWrm

#define SALLir                          SHLLir
#define SALLim                          SHLLim
#define SALLrr                          SHLLrr
#define SALLrm                          SHLLrm

#define SALQir                          SHLQir
#define SALQim                          SHLQim
#define SALQrr                          SHLQrr
#define SALQrm                          SHLQrm

#define SARBir(IM, RD)                  _ROTSHIBir(X86_SAR, IM, RD)
#define SARBim(IM, MD, MB, MI, MS)      _ROTSHIBim(X86_SAR, IM, MD, MB, MI, MS)
#define SARBrr(RS, RD)                  _ROTSHIBrr(X86_SAR, RS, RD)
#define SARBrm(RS, MD, MB, MI, MS)      _ROTSHIBrm(X86_SAR, RS, MD, MB, MI, MS)

#define SARWir(IM, RD)                  _ROTSHIWir(X86_SAR, IM, RD)
#define SARWim(IM, MD, MB, MI, MS)      _ROTSHIWim(X86_SAR, IM, MD, MB, MI, MS)
#define SARWrr(RS, RD)                  _ROTSHIWrr(X86_SAR, RS, RD)
#define SARWrm(RS, MD, MB, MI, MS)      _ROTSHIWrm(X86_SAR, RS, MD, MB, MI, MS)

#define SARLir(IM, RD)                  _ROTSHILir(X86_SAR, IM, RD)
#define SARLim(IM, MD, MB, MI, MS)      _ROTSHILim(X86_SAR, IM, MD, MB, MI, MS)
#define SARLrr(RS, RD)                  _ROTSHILrr(X86_SAR, RS, RD)
#define SARLrm(RS, MD, MB, MI, MS)      _ROTSHILrm(X86_SAR, RS, MD, MB, MI, MS)

#define SARQir(IM, RD)                  _ROTSHIQir(X86_SAR, IM, RD)
#define SARQim(IM, MD, MB, MI, MS)      _ROTSHIQim(X86_SAR, IM, MD, MB, MI, MS)
#define SARQrr(RS, RD)                  _ROTSHIQrr(X86_SAR, RS, RD)
#define SARQrm(RS, MD, MB, MI, MS)      _ROTSHIQrm(X86_SAR, RS, MD, MB, MI, MS)


/* --- Bit test instructions ----------------------------------------------- */

enum {
  X86_BT  = 4,
  X86_BTS = 5,
  X86_BTR = 6,
  X86_BTC = 7,
};

/*                                                                      _format         Opcd             ,Mod ,r      ,m        ,mem=dsp+sib    ,imm... */

#define _BTWir(OP, IM, RD)              (_d16(), _REXLrr(0, RD),        _OO_Mrm_B       (0x0fba          ,_b11,OP     ,_r2(RD)                  ,_u8(IM)))
#define _BTWim(OP, IM, MD, MB, MI, MS)  (_d16(), _REXLrm(0, MB, MI),    _OO_r_X_B       (0x0fba               ,OP               ,MD,MB,MI,MS    ,_u8(IM)))
#define _BTWrr(OP, RS, RD)              (_d16(), _REXLrr(RS, RD),       _OO_Mrm         (0x0f83|((OP)<<3),_b11,_r2(RS),_r2(RD)                          ))
#define _BTWrm(OP, RS, MD, MB, MI, MS)  (_d16(), _REXLrm(RS, MB, MI),   _OO_r_X         (0x0f83|((OP)<<3)     ,_r2(RS)          ,MD,MB,MI,MS            ))

#define _BTLir(OP, IM, RD)              (_REXLrr(0, RD),                _OO_Mrm_B       (0x0fba          ,_b11,OP     ,_r4(RD)                  ,_u8(IM)))
#define _BTLim(OP, IM, MD, MB, MI, MS)  (_REXLrm(0, MB, MI),            _OO_r_X_B       (0x0fba               ,OP               ,MD,MB,MI,MS    ,_u8(IM)))
#define _BTLrr(OP, RS, RD)              (_REXLrr(RS, RD),               _OO_Mrm         (0x0f83|((OP)<<3),_b11,_r4(RS),_r4(RD)                          ))
#define _BTLrm(OP, RS, MD, MB, MI, MS)  (_REXLrm(RS, MB, MI),           _OO_r_X         (0x0f83|((OP)<<3)     ,_r4(RS)          ,MD,MB,MI,MS            ))

#define _BTQir(OP, IM, RD)              (_REXQrr(0, RD),                _OO_Mrm_B       (0x0fba          ,_b11,OP     ,_r8(RD)                  ,_u8(IM)))
#define _BTQim(OP, IM, MD, MB, MI, MS)  (_REXQrm(0, MB, MI),            _OO_r_X_B       (0x0fba               ,OP               ,MD,MB,MI,MS    ,_u8(IM)))
#define _BTQrr(OP, RS, RD)              (_REXQrr(RS, RD),               _OO_Mrm         (0x0f83|((OP)<<3),_b11,_r8(RS),_r8(RD)                          ))
#define _BTQrm(OP, RS, MD, MB, MI, MS)  (_REXQrm(RS, MB, MI),           _OO_r_X         (0x0f83|((OP)<<3)     ,_r8(RS)          ,MD,MB,MI,MS            ))

#define BTWir(IM, RD)                   _BTWir(X86_BT, IM, RD)
#define BTWim(IM, MD, MB, MI, MS)       _BTWim(X86_BT, IM, MD, MI, MS)
#define BTWrr(RS, RD)                   _BTWrr(X86_BT, RS, RD)
#define BTWrm(RS, MD, MB, MI, MS)       _BTWrm(X86_BT, RS, MD, MB, MI, MS)

#define BTLir(IM, RD)                   _BTLir(X86_BT, IM, RD)
#define BTLim(IM, MD, MB, MI, MS)       _BTLim(X86_BT, IM, MD, MB, MI, MS)
#define BTLrr(RS, RD)                   _BTLrr(X86_BT, RS, RD)
#define BTLrm(RS, MD, MB, MI, MS)       _BTLrm(X86_BT, RS, MD, MB, MI, MS)

#define BTQir(IM, RD)                   _BTQir(X86_BT, IM, RD)
#define BTQim(IM, MD, MB, MI, MS)       _BTQim(X86_BT, IM, MD, MB, MI, MS)
#define BTQrr(RS, RD)                   _BTQrr(X86_BT, RS, RD)
#define BTQrm(RS, MD, MB, MI, MS)       _BTQrm(X86_BT, RS, MD, MB, MI, MS)

#define BTCWir(IM, RD)                  _BTWir(X86_BTC, IM, RD)
#define BTCWim(IM, MD, MB, MI, MS)      _BTWim(X86_BTC, IM, MD, MI, MS)
#define BTCWrr(RS, RD)                  _BTWrr(X86_BTC, RS, RD)
#define BTCWrm(RS, MD, MB, MI, MS)      _BTWrm(X86_BTC, RS, MD, MB, MI, MS)

#define BTCLir(IM, RD)                  _BTLir(X86_BTC, IM, RD)
#define BTCLim(IM, MD, MB, MI, MS)      _BTLim(X86_BTC, IM, MD, MB, MI, MS)
#define BTCLrr(RS, RD)                  _BTLrr(X86_BTC, RS, RD)
#define BTCLrm(RS, MD, MB, MI, MS)      _BTLrm(X86_BTC, RS, MD, MB, MI, MS)

#define BTCQir(IM, RD)                  _BTQir(X86_BTC, IM, RD)
#define BTCQim(IM, MD, MB, MI, MS)      _BTQim(X86_BTC, IM, MD, MB, MI, MS)
#define BTCQrr(RS, RD)                  _BTQrr(X86_BTC, RS, RD)
#define BTCQrm(RS, MD, MB, MI, MS)      _BTQrm(X86_BTC, RS, MD, MB, MI, MS)

#define BTRWir(IM, RD)                  _BTWir(X86_BTR, IM, RD)
#define BTRWim(IM, MD, MB, MI, MS)      _BTWim(X86_BTR, IM, MD, MI, MS)
#define BTRWrr(RS, RD)                  _BTWrr(X86_BTR, RS, RD)
#define BTRWrm(RS, MD, MB, MI, MS)      _BTWrm(X86_BTR, RS, MD, MB, MI, MS)

#define BTRLir(IM, RD)                  _BTLir(X86_BTR, IM, RD)
#define BTRLim(IM, MD, MB, MI, MS)      _BTLim(X86_BTR, IM, MD, MB, MI, MS)
#define BTRLrr(RS, RD)                  _BTLrr(X86_BTR, RS, RD)
#define BTRLrm(RS, MD, MB, MI, MS)      _BTLrm(X86_BTR, RS, MD, MB, MI, MS)

#define BTRQir(IM, RD)                  _BTQir(X86_BTR, IM, RD)
#define BTRQim(IM, MD, MB, MI, MS)      _BTQim(X86_BTR, IM, MD, MB, MI, MS)
#define BTRQrr(RS, RD)                  _BTQrr(X86_BTR, RS, RD)
#define BTRQrm(RS, MD, MB, MI, MS)      _BTQrm(X86_BTR, RS, MD, MB, MI, MS)

#define BTSWir(IM, RD)                  _BTWir(X86_BTS, IM, RD)
#define BTSWim(IM, MD, MB, MI, MS)      _BTWim(X86_BTS, IM, MD, MI, MS)
#define BTSWrr(RS, RD)                  _BTWrr(X86_BTS, RS, RD)
#define BTSWrm(RS, MD, MB, MI, MS)      _BTWrm(X86_BTS, RS, MD, MB, MI, MS)

#define BTSLir(IM, RD)                  _BTLir(X86_BTS, IM, RD)
#define BTSLim(IM, MD, MB, MI, MS)      _BTLim(X86_BTS, IM, MD, MB, MI, MS)
#define BTSLrr(RS, RD)                  _BTLrr(X86_BTS, RS, RD)
#define BTSLrm(RS, MD, MB, MI, MS)      _BTLrm(X86_BTS, RS, MD, MB, MI, MS)

#define BTSQir(IM, RD)                  _BTQir(X86_BTS, IM, RD)
#define BTSQim(IM, MD, MB, MI, MS)      _BTQim(X86_BTS, IM, MD, MB, MI, MS)
#define BTSQrr(RS, RD)                  _BTQrr(X86_BTS, RS, RD)
#define BTSQrm(RS, MD, MB, MI, MS)      _BTQrm(X86_BTS, RS, MD, MB, MI, MS)


/* --- Move instructions --------------------------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define MOVBrr(RS, RD)                  (_REXBrr(RS, RD),               _O_Mrm          (0x80           ,_b11,_r1(RS),_r1(RD)                           ))
#define MOVBmr(MD, MB, MI, MS, RD)      (_REXBmr(MB, MI, RD),           _O_r_X          (0x8a                ,_r1(RD)           ,MD,MB,MI,MS            ))
#define MOVBrm(RS, MD, MB, MI, MS)      (_REXBrm(RS, MB, MI),           _O_r_X          (0x88                ,_r1(RS)           ,MD,MB,MI,MS            ))
#define MOVBir(IM,  R)                  (_REXBrr(0, R),                 _Or_B           (0xb0,_r1(R)                                            ,_su8(IM)))
#define MOVBim(IM, MD, MB, MI, MS)      (_REXBrm(0, MB, MI),            _O_X_B          (0xc6                                   ,MD,MB,MI,MS    ,_su8(IM)))

#define MOVWrr(RS, RD)                  (_d16(), _REXLrr(RS, RD),       _O_Mrm          (0x89           ,_b11,_r2(RS),_r2(RD)                           ))
#define MOVWmr(MD, MB, MI, MS, RD)      (_d16(), _REXLmr(MD, MI, RD),   _O_r_X          (0x8b                ,_r2(RD)           ,MD,MB,MI,MS            ))
#define MOVWrm(RS, MD, MB, MI, MS)      (_d16(), _REXLrm(RS, MD, MI),   _O_r_X          (0x89                ,_r2(RS)           ,MD,MB,MI,MS            ))
#define MOVWir(IM,  R)                  (_d16(), _REXLrr(0, R),         _Or_W           (0xb8,_r2(R)                                            ,_su16(IM)))
#define MOVWim(IM, MD, MB, MI, MS)      (_d16(), _REXLrm(0, MD, MI),    _O_X_W          (0xc7                                   ,MD,MB,MI,MS    ,_su16(IM)))

#define MOVLrr(RS, RD)                  (_REXLrr(RS, RD),               _O_Mrm          (0x89           ,_b11,_r4(RS),_r4(RD)                           ))
#define MOVLmr(MD, MB, MI, MS, RD)      (_REXLmr(MB, MI, RD),           _O_r_X          (0x8b                ,_r4(RD)           ,MD,MB,MI,MS            ))
#define MOVLrm(RS, MD, MB, MI, MS)      (_REXLrm(RS, MB, MI),           _O_r_X          (0x89                ,_r4(RS)           ,MD,MB,MI,MS            ))
#define MOVLir(IM,  R)                  (_REXLrr(0, R),                 _Or_L           (0xb8,_r4(R)                                            ,IM     ))
#define MOVLim(IM, MD, MB, MI, MS)      (_REXLrm(0, MB, MI),            _O_X_L          (0xc7                                   ,MD,MB,MI,MS    ,IM     ))

#define MOVQrr(RS, RD)                  (_REXQrr(RS, RD),               _O_Mrm          (0x89           ,_b11,_r8(RS),_r8(RD)                           ))
#define MOVQmr(MD, MB, MI, MS, RD)      (_REXQmr(MB, MI, RD),           _O_r_X          (0x8b                ,_r8(RD)           ,MD,MB,MI,MS            ))
#define MOVQrm(RS, MD, MB, MI, MS)      (_REXQrm(RS, MB, MI),           _O_r_X          (0x89                ,_r8(RS)           ,MD,MB,MI,MS            ))
#define MOVQir(IM,  R)                  (_REXQrr(0, R),                 _Or_L           (0xb8,_r8(R)                                            ,IM     ))
#define MOVQim(IM, MD, MB, MI, MS)      (_REXQrm(0, MB, MI),            _O_X_L          (0xc7                                   ,MD,MB,MI,MS    ,IM     ))


/* --- Unary and Multiply/Divide instructions ------------------------------ */

enum {
  X86_NOT  = 2,
  X86_NEG  = 3,
  X86_MUL  = 4,
  X86_IMUL = 5,
  X86_DIV  = 6,
  X86_IDIV = 7,
};

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define _UNARYBr(OP, RS)                (_REXBrr(0, RS),                _O_Mrm          (0xf6           ,_b11,OP    ,_r1(RS)                            ))
#define _UNARYBm(OP, MD, MB, MI, MS)    (_REXBrm(0, MB, MI),            _O_r_X          (0xf6                ,OP                ,MD,MB,MI,MS            ))
#define _UNARYWr(OP, RS)                (_d16(), _REXLrr(0, RS),        _O_Mrm          (0xf7           ,_b11,OP    ,_r2(RS)                            ))
#define _UNARYWm(OP, MD, MB, MI, MS)    (_d16(), _REXLmr(MB, MI, 0),    _O_r_X          (0xf7                ,OP                ,MD,MB,MI,MS            ))
#define _UNARYLr(OP, RS)                (_REXLrr(0, RS),                _O_Mrm          (0xf7           ,_b11,OP    ,_r4(RS)                            ))
#define _UNARYLm(OP, MD, MB, MI, MS)    (_REXLmr(MB, MI, 0),            _O_r_X          (0xf7                ,OP                ,MD,MB,MI,MS            ))
#define _UNARYQr(OP, RS)                (_REXQrr(0, RS),                _O_Mrm          (0xf7           ,_b11,OP    ,_r8(RS)                            ))
#define _UNARYQm(OP, MD, MB, MI, MS)    (_REXQmr(MB, MI, 0),            _O_r_X          (0xf7                ,OP                ,MD,MB,MI,MS            ))

#define NOTBr(RS)                       _UNARYBr(X86_NOT, RS)
#define NOTBm(MD, MB, MI, MS)           _UNARYBm(X86_NOT, MD, MB, MI, MS)
#define NOTWr(RS)                       _UNARYWr(X86_NOT, RS)
#define NOTWm(MD, MB, MI, MS)           _UNARYWm(X86_NOT, MD, MB, MI, MS)
#define NOTLr(RS)                       _UNARYLr(X86_NOT, RS)
#define NOTLm(MD, MB, MI, MS)           _UNARYLm(X86_NOT, MD, MB, MI, MS)
#define NOTQr(RS)                       _UNARYQr(X86_NOT, RS)
#define NOTQm(MD, MB, MI, MS)           _UNARYQm(X86_NOT, MD, MB, MI, MS)

#define NEGBr(RS)                       _UNARYBr(X86_NEG, RS)
#define NEGBm(MD, MB, MI, MS)           _UNARYBm(X86_NEG, MD, MB, MI, MS)
#define NEGWr(RS)                       _UNARYWr(X86_NEG, RS)
#define NEGWm(MD, MB, MI, MS)           _UNARYWm(X86_NEG, MD, MB, MI, MS)
#define NEGLr(RS)                       _UNARYLr(X86_NEG, RS)
#define NEGLm(MD, MB, MI, MS)           _UNARYLm(X86_NEG, MD, MB, MI, MS)
#define NEGQr(RS)                       _UNARYQr(X86_NEG, RS)
#define NEGQm(MD, MB, MI, MS)           _UNARYQm(X86_NEG, MD, MB, MI, MS)

#define MULBr(RS)                       _UNARYBr(X86_MUL, RS)
#define MULBm(MD, MB, MI, MS)           _UNARYBm(X86_MUL, MD, MB, MI, MS)
#define MULWr(RS)                       _UNARYWr(X86_MUL, RS)
#define MULWm(MD, MB, MI, MS)           _UNARYWm(X86_MUL, MD, MB, MI, MS)
#define MULLr(RS)                       _UNARYLr(X86_MUL, RS)
#define MULLm(MD, MB, MI, MS)           _UNARYLm(X86_MUL, MD, MB, MI, MS)
#define MULQr(RS)                       _UNARYQr(X86_MUL, RS)
#define MULQm(MD, MB, MI, MS)           _UNARYQm(X86_MUL, MD, MB, MI, MS)

#define IMULBr(RS)                      _UNARYBr(X86_IMUL, RS)
#define IMULBm(MD, MB, MI, MS)          _UNARYBm(X86_IMUL, MD, MB, MI, MS)
#define IMULWr(RS)                      _UNARYWr(X86_IMUL, RS)
#define IMULWm(MD, MB, MI, MS)          _UNARYWm(X86_IMUL, MD, MB, MI, MS)
#define IMULLr(RS)                      _UNARYLr(X86_IMUL, RS)
#define IMULLm(MD, MB, MI, MS)          _UNARYLm(X86_IMUL, MD, MB, MI, MS)
#define IMULQr(RS)                      _UNARYQr(X86_IMUL, RS)
#define IMULQm(MD, MB, MI, MS)          _UNARYQm(X86_IMUL, MD, MB, MI, MS)

#define DIVBr(RS)                       _UNARYBr(X86_DIV, RS)
#define DIVBm(MD, MB, MI, MS)           _UNARYBm(X86_DIV, MD, MB, MI, MS)
#define DIVWr(RS)                       _UNARYWr(X86_DIV, RS)
#define DIVWm(MD, MB, MI, MS)           _UNARYWm(X86_DIV, MD, MB, MI, MS)
#define DIVLr(RS)                       _UNARYLr(X86_DIV, RS)
#define DIVLm(MD, MB, MI, MS)           _UNARYLm(X86_DIV, MD, MB, MI, MS)
#define DIVQr(RS)                       _UNARYQr(X86_DIV, RS)
#define DIVQm(MD, MB, MI, MS)           _UNARYQm(X86_DIV, MD, MB, MI, MS)

#define IDIVBr(RS)                      _UNARYBr(X86_IDIV, RS)
#define IDIVBm(MD, MB, MI, MS)          _UNARYBm(X86_IDIV, MD, MB, MI, MS)
#define IDIVWr(RS)                      _UNARYWr(X86_IDIV, RS)
#define IDIVWm(MD, MB, MI, MS)          _UNARYWm(X86_IDIV, MD, MB, MI, MS)
#define IDIVLr(RS)                      _UNARYLr(X86_IDIV, RS)
#define IDIVLm(MD, MB, MI, MS)          _UNARYLm(X86_IDIV, MD, MB, MI, MS)
#define IDIVQr(RS)                      _UNARYQr(X86_IDIV, RS)
#define IDIVQm(MD, MB, MI, MS)          _UNARYQm(X86_IDIV, MD, MB, MI, MS)

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define IMULWrr(RS, RD)                 (_d16(), _REXLrr(RS, RD),       _OO_Mrm         (0x0faf         ,_b11,_r2(RS),_r2(RD)                           ))
#define IMULWmr(MD, MB, MI, MS, RD)     (_d16(), _REXLmr(MB, MI, RD),   _OO_r_X         (0x0faf              ,_r2(RD)           ,MD,MB,MI,MS            ))

#define IMULWirr(IM,RS,RD)              (_d16(), _REXLrr(RS, RD),       _Os_Mrm_sW      (0x69           ,_b11,_r2(RS),_r2(RD)                   ,_su16(IM)      ))
#define IMULWimr(IM,MD,MB,MI,MS,RD)     (_d16(), _REXLmr(MB, MI, RD),   _Os_r_X_sW      (0x69                ,_r2(RD)           ,MD,MB,MI,MS    ,_su16(IM)      ))

#define IMULLir(IM, RD)                 (_REXLrr(0, RD),                _Os_Mrm_sL      (0x69           ,_b11,_r4(RD),_r4(RD)                   ,IM     ))
#define IMULLrr(RS, RD)                 (_REXLrr(RS, RD),               _OO_Mrm         (0x0faf         ,_b11,_r4(RD),_r4(RS)                           ))
#define IMULLmr(MD, MB, MI, MS, RD)     (_REXLmr(MB, MI, RD),           _OO_r_X         (0x0faf              ,_r4(RD)           ,MD,MB,MI,MS            ))

#define IMULQir(IM, RD)                 (_REXQrr(0, RD),                _Os_Mrm_sL      (0x69           ,_b11,_r8(RD),_r8(RD)                   ,IM     ))
#define IMULQrr(RS, RD)                 (_REXQrr(RS, RD),               _OO_Mrm         (0x0faf         ,_b11,_r8(RD),_r8(RS)                           ))
#define IMULQmr(MD, MB, MI, MS, RD)     (_REXQmr(MB, MI, RD),           _OO_r_X         (0x0faf              ,_r8(RD)           ,MD,MB,MI,MS            ))

#define IMULLirr(IM,RS,RD)              (_REXLrr(RS, RD),               _Os_Mrm_sL      (0x69           ,_b11,_r4(RS),_r4(RD)                   ,IM     ))
#define IMULLimr(IM,MD,MB,MI,MS,RD)     (_REXLmr(MB, MI, RD),           _Os_r_X_sL      (0x69                ,_r4(RD)           ,MD,MB,MI,MS    ,IM     ))

#define IMULQirr(IM,RS,RD)              (_REXQrr(RS, RD),               _Os_Mrm_sL      (0x69           ,_b11,_r8(RS),_r8(RD)                   ,IM     ))
#define IMULQimr(IM,MD,MB,MI,MS,RD)     (_REXQmr(MB, MI, RD),           _Os_r_X_sL      (0x69                ,_r8(RD)           ,MD,MB,MI,MS    ,IM     ))


/* --- Control Flow related instructions ----------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

// FIXME: no prefix is availble to encode a 32-bit operand size in 64-bit mode
#define CALLm(M)                                                        _O_D32          (0xe8                                   ,(int)(M)               )
#define CALLsr(R)                       (_REXLrr(0, R),                 _O_Mrm          (0xff           ,_b11,_b010,_r4(R)                              ))
#define CALLQsr(R)                      (_REXQrr(0, R),                 _O_Mrm          (0xff           ,_b11,_b010,_r8(R)                              ))
#define CALLsm(D,B,I,S)                 (_REXLrm(0, B, I),              _O_r_X          (0xff                ,_b010             ,(int)(D),B,I,S         ))

// FIXME: no prefix is availble to encode a 32-bit operand size in 64-bit mode
#define JMPSm(M)                                                        _O_D8           (0xeb                                   ,(int)(D)               )
#define JMPm(M)                                                         _O_D32          (0xe9                                   ,(int)(D)               )
#define JMPsr(R)                        (_REXLrr(0, R),                 _O_Mrm          (0xff           ,_b11,_b100,_r4(R)                              ))
#define JMPQsr(R)                       (_REXQrr(0, R),                 _O_Mrm          (0xff           ,_b11,_b100,_r8(R)                              ))
#define JMPsm(D,B,I,S)                  (_REXLrm(0, B, I),              _O_r_X          (0xff                ,_b100             ,(int)(D),B,I,S         ))

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */
#define JCCSim(CC, D)                                                   _O_D8           (0x70|(CC)                              ,(int)(D)               )
#define JOSm(D)                         JCCSim(0x0, D)
#define JNOSm(D)                        JCCSim(0x1, D)
#define JBSm(D)                         JCCSim(0x2, D)
#define JNAESm(D)                       JCCSim(0x2, D)
#define JNBSm(D)                        JCCSim(0x3, D)
#define JAESm(D)                        JCCSim(0x3, D)
#define JESm(D)                         JCCSim(0x4, D)
#define JZSm(D)                         JCCSim(0x4, D)
#define JNESm(D)                        JCCSim(0x5, D)
#define JNZSm(D)                        JCCSim(0x5, D)
#define JBESm(D)                        JCCSim(0x6, D)
#define JNASm(D)                        JCCSim(0x6, D)
#define JNBESm(D)                       JCCSim(0x7, D)
#define JASm(D)                         JCCSim(0x7, D)
#define JSSm(D)                         JCCSim(0x8, D)
#define JNSSm(D)                        JCCSim(0x9, D)
#define JPSm(D)                         JCCSim(0xa, D)
#define JPESm(D)                        JCCSim(0xa, D)
#define JNPSm(D)                        JCCSim(0xb, D)
#define JPOSm(D)                        JCCSim(0xb, D)
#define JLSm(D)                         JCCSim(0xc, D)
#define JNGESm(D)                       JCCSim(0xc, D)
#define JNLSm(D)                        JCCSim(0xd, D)
#define JGESm(D)                        JCCSim(0xd, D)
#define JLESm(D)                        JCCSim(0xe, D)
#define JNGSm(D)                        JCCSim(0xe, D)
#define JNLESm(D)                       JCCSim(0xf, D)
#define JGSm(D)                         JCCSim(0xf, D)

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */
#define JCCim(CC, D)                                                    _OO_D32         (0x0f80|(CC)                            ,(int)(D)               )
#define JOm(D)                          JCCim(0x0, D)
#define JNOm(D)                         JCCim(0x1, D)
#define JBm(D)                          JCCim(0x2, D)
#define JNAEm(D)                        JCCim(0x2, D)
#define JNBm(D)                         JCCim(0x3, D)
#define JAEm(D)                         JCCim(0x3, D)
#define JEm(D)                          JCCim(0x4, D)
#define JZm(D)                          JCCim(0x4, D)
#define JNEm(D)                         JCCim(0x5, D)
#define JNZm(D)                         JCCim(0x5, D)
#define JBEm(D)                         JCCim(0x6, D)
#define JNAm(D)                         JCCim(0x6, D)
#define JNBEm(D)                        JCCim(0x7, D)
#define JAm(D)                          JCCim(0x7, D)
#define JSm(D)                          JCCim(0x8, D)
#define JNSm(D)                         JCCim(0x9, D)
#define JPm(D)                          JCCim(0xa, D)
#define JPEm(D)                         JCCim(0xa, D)
#define JNPm(D)                         JCCim(0xb, D)
#define JPOm(D)                         JCCim(0xb, D)
#define JLm(D)                          JCCim(0xc, D)
#define JNGEm(D)                        JCCim(0xc, D)
#define JNLm(D)                         JCCim(0xd, D)
#define JGEm(D)                         JCCim(0xd, D)
#define JLEm(D)                         JCCim(0xe, D)
#define JNGm(D)                         JCCim(0xe, D)
#define JNLEm(D)                        JCCim(0xf, D)
#define JGm(D)                          JCCim(0xf, D)

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */
#define SETCCir(CC, RD)                 (_REXBrr(0, RD),                _OO_Mrm         (0x0f90|(CC)    ,_b11,_b000,_r1(RD)                             ))
#define SETOr(RD)                       SETCCir(0x0,RD)
#define SETNOr(RD)                      SETCCir(0x1,RD)
#define SETBr(RD)                       SETCCir(0x2,RD)
#define SETNAEr(RD)                     SETCCir(0x2,RD)
#define SETNBr(RD)                      SETCCir(0x3,RD)
#define SETAEr(RD)                      SETCCir(0x3,RD)
#define SETEr(RD)                       SETCCir(0x4,RD)
#define SETZr(RD)                       SETCCir(0x4,RD)
#define SETNEr(RD)                      SETCCir(0x5,RD)
#define SETNZr(RD)                      SETCCir(0x5,RD)
#define SETBEr(RD)                      SETCCir(0x6,RD)
#define SETNAr(RD)                      SETCCir(0x6,RD)
#define SETNBEr(RD)                     SETCCir(0x7,RD)
#define SETAr(RD)                       SETCCir(0x7,RD)
#define SETSr(RD)                       SETCCir(0x8,RD)
#define SETNSr(RD)                      SETCCir(0x9,RD)
#define SETPr(RD)                       SETCCir(0xa,RD)
#define SETPEr(RD)                      SETCCir(0xa,RD)
#define SETNPr(RD)                      SETCCir(0xb,RD)
#define SETPOr(RD)                      SETCCir(0xb,RD)
#define SETLr(RD)                       SETCCir(0xc,RD)
#define SETNGEr(RD)                     SETCCir(0xc,RD)
#define SETNLr(RD)                      SETCCir(0xd,RD)
#define SETGEr(RD)                      SETCCir(0xd,RD)
#define SETLEr(RD)                      SETCCir(0xe,RD)
#define SETNGr(RD)                      SETCCir(0xe,RD)
#define SETNLEr(RD)                     SETCCir(0xf,RD)
#define SETGr(RD)                       SETCCir(0xf,RD)

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */
#define SETCCim(CC,MD,MB,MI,MS)         (_REXBrm(0, MB, MI),            _OO_r_X         (0x0f90|(CC)         ,_b000             ,MD,MB,MI,MS            ))
#define SETOm(D, B, I, S)               SETCCim(0x0, D, B, I, S)
#define SETNOm(D, B, I, S)              SETCCim(0x1, D, B, I, S)
#define SETBm(D, B, I, S)               SETCCim(0x2, D, B, I, S)
#define SETNAEm(D, B, I, S)             SETCCim(0x2, D, B, I, S)
#define SETNBm(D, B, I, S)              SETCCim(0x3, D, B, I, S)
#define SETAEm(D, B, I, S)              SETCCim(0x3, D, B, I, S)
#define SETEm(D, B, I, S)               SETCCim(0x4, D, B, I, S)
#define SETZm(D, B, I, S)               SETCCim(0x4, D, B, I, S)
#define SETNEm(D, B, I, S)              SETCCim(0x5, D, B, I, S)
#define SETNZm(D, B, I, S)              SETCCim(0x5, D, B, I, S)
#define SETBEm(D, B, I, S)              SETCCim(0x6, D, B, I, S)
#define SETNAm(D, B, I, S)              SETCCim(0x6, D, B, I, S)
#define SETNBEm(D, B, I, S)             SETCCim(0x7, D, B, I, S)
#define SETAm(D, B, I, S)               SETCCim(0x7, D, B, I, S)
#define SETSm(D, B, I, S)               SETCCim(0x8, D, B, I, S)
#define SETNSm(D, B, I, S)              SETCCim(0x9, D, B, I, S)
#define SETPm(D, B, I, S)               SETCCim(0xa, D, B, I, S)
#define SETPEm(D, B, I, S)              SETCCim(0xa, D, B, I, S)
#define SETNPm(D, B, I, S)              SETCCim(0xb, D, B, I, S)
#define SETPOm(D, B, I, S)              SETCCim(0xb, D, B, I, S)
#define SETLm(D, B, I, S)               SETCCim(0xc, D, B, I, S)
#define SETNGEm(D, B, I, S)             SETCCim(0xc, D, B, I, S)
#define SETNLm(D, B, I, S)              SETCCim(0xd, D, B, I, S)
#define SETGEm(D, B, I, S)              SETCCim(0xd, D, B, I, S)
#define SETLEm(D, B, I, S)              SETCCim(0xe, D, B, I, S)
#define SETNGm(D, B, I, S)              SETCCim(0xe, D, B, I, S)
#define SETNLEm(D, B, I, S)             SETCCim(0xf, D, B, I, S)
#define SETGm(D, B, I, S)               SETCCim(0xf, D, B, I, S)


/* --- Push/Pop instructions ----------------------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define POPWr(RD)                       _m32only((_d16(),               _Or             (0x58,_r2(RD)                                                   )))
#define POPWm(MD, MB, MI, MS)           _m32only((_d16(),               _O_r_X          (0x8f                ,_b000             ,MD,MB,MI,MS            )))

#define POPLr(RD)                       _m32only(                       _Or             (0x58,_r4(RD)                                                   ))
#define POPLm(MD, MB, MI, MS)           _m32only(                       _O_r_X          (0x8f                ,_b000             ,MD,MB,MI,MS            ))

#define POPQr(RD)                       _m64only(                       _Or             (0x58,_r8(RD)                                                   ))
#define POPQm(MD, MB, MI, MS)           _m64only(                       _O_r_X          (0x8f                ,_b000             ,MD,MB,MI,MS            ))

#define PUSHWr(RS)                      _m32only((_d16(),               _Or             (0x50,_r2(RS)                                                   )))
#define PUSHWm(MD, MB, MI, MS)          _m32only((_d16(),               _O_r_X          (0xff,               ,_b110             ,MD,MB,MI,MS            )))
#define PUSHWi(IM)                      _m32only((_d16(),               _Os_sW          (0x68                                                   ,IM     )))

#define PUSHLr(RS)                      _m32only(                       _Or             (0x50,_r4(RS)                                                   ))
#define PUSHLm(MD, MB, MI, MS)          _m32only(                       _O_r_X          (0xff                ,_b110             ,MD,MB,MI,MS            ))
#define PUSHLi(IM)                      _m32only(                       _Os_sL          (0x68                                                   ,IM     ))

#define PUSHQr(RS)                      _m64only(                       _Or             (0x50,_r8(RS)                                                   ))
#define PUSHQm(MD, MB, MI, MS)          _m64only(                       _O_r_X          (0xff                ,_b110             ,MD,MB,MI,MS            ))
#define PUSHQi(IM)                      _m64only(                       _Os_sL          (0x68                                                   ,IM     ))

#define POPA()                          (_d16(),                        _O              (0x61                                                           ))
#define POPAD()                                                         _O              (0x61                                                           )

#define PUSHA()                         (_d16(),                        _O              (0x60                                                           ))
#define PUSHAD()                                                        _O              (0x60                                                           )

#define POPF()                          (_d16(),                        _O              (0x9d                                                           ))
#define POPFD()                                                         _O              (0x9d                                                           )

#define PUSHF()                                                         _O              (0x9c                                                           )
#define PUSHFD()                        (_d16(),                        _O              (0x9c                                                           ))


/* --- Test instructions --------------------------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define TESTBrr(RS, RD)                 (_REXBrr(RS, RD),               _O_Mrm          (0x84           ,_b11,_r1(RS),_r1(RD)                           ))
#define TESTBrm(RS, MD, MB, MI, MS)     (_REXBrm(RS, MB, MI),           _O_r_X          (0x84                ,_r1(RS)           ,MD,MB,MI,MS            ))
#define TESTBir(IM, RD)                 (_REXBrr(0, RD),                _O_Mrm_B        (0xf6           ,_b11,_b000  ,_r1(RD)                   ,_u8(IM)))
#define TESTBim(IM, MD, MB, MI, MS)     (_REXBrm(0, MB, MI),            _O_r_X_B        (0xf6                ,_b000             ,MD,MB,MI,MS    ,_u8(IM)))

#define TESTWrr(RS, RD)                 (_d16(), _REXLrr(RS, RD),       _O_Mrm          (0x85           ,_b11,_r2(RS),_r2(RD)                           ))
#define TESTWrm(RS, MD, MB, MI, MS)     (_d16(), _REXLrm(RS, MD, MI),   _O_r_X          (0x85                ,_r2(RS)           ,MD,MB,MI,MS            ))
#define TESTWir(IM, RD)                 (_d16(), _REXLrr(0, RD),        _O_Mrm_W        (0xf7           ,_b11,_b000  ,_r2(RD)                   ,_u16(IM)))
#define TESTWim(IM, MD, MB, MI, MS)     (_d16(), _REXLrm(0, MD, MI),    _O_r_X_W        (0xf7                ,_b000             ,MD,MB,MI,MS    ,_u16(IM)))

#define TESTLrr(RS, RD)                 (_REXLrr(RS, RD),               _O_Mrm          (0x85           ,_b11,_r4(RS),_r4(RD)                           ))
#define TESTLrm(RS, MD, MB, MI, MS)     (_REXLrm(RS, MB, MI),           _O_r_X          (0x85                ,_r4(RS)           ,MD,MB,MI,MS            ))
#define TESTLir(IM, RD)                 (_REXLrr(0, RD),                _O_Mrm_L        (0xf7           ,_b11,_b000  ,_r4(RD)                   ,IM     ))
#define TESTLim(IM, MD, MB, MI, MS)     (_REXLrm(0, MB, MI),            _O_r_X_L        (0xf7                ,_b000             ,MD,MB,MI,MS    ,IM     ))

#define TESTQrr(RS, RD)                 (_REXQrr(RS, RD),               _O_Mrm          (0x85           ,_b11,_r8(RS),_r8(RD)                           ))
#define TESTQrm(RS, MD, MB, MI, MS)     (_REXQrm(RS, MB, MI),           _O_r_X          (0x85                ,_r8(RS)           ,MD,MB,MI,MS            ))
#define TESTQir(IM, RD)                 (_REXQrr(0, RD),                _O_Mrm_L        (0xf7           ,_b11,_b000  ,_r8(RD)                   ,IM     ))
#define TESTQim(IM, MD, MB, MI, MS)     (_REXQrm(0, MB, MI),            _O_r_X_L        (0xf7                ,_b000             ,MD,MB,MI,MS    ,IM     ))


/* --- Exchange instructions ----------------------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define CMPXCHGBrr(RS, RD)              (_REXBrr(RS, RD),               _OO_Mrm         (0x0fb0         ,_b11,_r1(RS),_r1(RD)                           ))
#define CMPXCHGBrm(RS, MD, MB, MI, MS)  (_REXBrm(RS, MB, MI),           _OO_r_X         (0x0fb0              ,_r1(RS)           ,MD,MB,MI,MS            ))

#define CMPXCHGWrr(RS, RD)              (_d16(), _REXLrr(RS, RD),       _OO_Mrm         (0x0fb1         ,_b11,_r2(RS),_r2(RD)                           ))
#define CMPXCHGWrm(RS, MD, MB, MI, MS)  (_d16(), _REXLrm(RS, MB, MI),   _OO_r_X         (0x0fb1              ,_r2(RS)           ,MD,MB,MI,MS            ))

#define CMPXCHGLrr(RS, RD)              (_REXLrr(RS, RD),               _OO_Mrm         (0x0fb1         ,_b11,_r4(RS),_r4(RD)                           ))
#define CMPXCHGLrm(RS, MD, MB, MI, MS)  (_REXLrm(RS, MB, MI),           _OO_r_X         (0x0fb1              ,_r4(RS)           ,MD,MB,MI,MS            ))

#define CMPXCHGQrr(RS, RD)              (_REXQrr(RS, RD),               _OO_Mrm         (0x0fb1         ,_b11,_r8(RS),_r8(RD)                           ))
#define CMPXCHGQrm(RS, MD, MB, MI, MS)  (_REXQrm(RS, MB, MI),           _OO_r_X         (0x0fb1              ,_r8(RS)           ,MD,MB,MI,MS            ))

#define XADDBrr(RS, RD)                 (_REXBrr(RS, RD),               _OO_Mrm         (0x0fc0         ,_b11,_r1(RS),_r1(RD)                           ))
#define XADDBrm(RS, MD, MB, MI, MS)     (_REXBrm(RS, MB, MI),           _OO_r_X         (0x0fc0              ,_r1(RS)           ,MD,MB,MI,MS            ))

#define XADDWrr(RS, RD)                 (_d16(), _REXLrr(RS, RD),       _OO_Mrm         (0x0fc1         ,_b11,_r2(RS),_r2(RD)                           ))
#define XADDWrm(RS, MD, MB, MI, MS)     (_d16(), _REXLrm(RS, MB, MI),   _OO_r_X         (0x0fc1              ,_r2(RS)           ,MD,MB,MI,MS            ))

#define XADDLrr(RS, RD)                 (_REXLrr(RS, RD),               _OO_Mrm         (0x0fc1         ,_b11,_r4(RS),_r4(RD)                           ))
#define XADDLrm(RS, MD, MB, MI, MS)     (_REXLrm(RS, MB, MI),           _OO_r_X         (0x0fc1              ,_r4(RS)           ,MD,MB,MI,MS            ))

#define XADDQrr(RS, RD)                 (_REXQrr(RS, RD),               _OO_Mrm         (0x0fc1         ,_b11,_r8(RS),_r8(RD)                           ))
#define XADDQrm(RS, MD, MB, MI, MS)     (_REXQrm(RS, MB, MI),           _OO_r_X         (0x0fc1              ,_r8(RS)           ,MD,MB,MI,MS            ))

#define XCHGBrr(RS, RD)                 (_REXBrr(RS, RD),               _O_Mrm          (0x86           ,_b11,_r1(RS),_r1(RD)                           ))
#define XCHGBrm(RS, MD, MB, MI, MS)     (_REXBrm(RS, MB, MI),           _O_r_X          (0x86                ,_r1(RS)           ,MD,MB,MI,MS            ))

#define XCHGWrr(RS, RD)                 (_d16(), _REXLrr(RS, RD),       _O_Mrm          (0x87           ,_b11,_r2(RS),_r2(RD)                           ))
#define XCHGWrm(RS, MD, MB, MI, MS)     (_d16(), _REXLrm(RS, MB, MI),   _O_r_X          (0x87                ,_r2(RS)           ,MD,MB,MI,MS            ))

#define XCHGLrr(RS, RD)                 (_REXLrr(RS, RD),               _O_Mrm          (0x87           ,_b11,_r4(RS),_r4(RD)                           ))
#define XCHGLrm(RS, MD, MB, MI, MS)     (_REXLrm(RS, MB, MI),           _O_r_X          (0x87                ,_r4(RS)           ,MD,MB,MI,MS            ))

#define XCHGQrr(RS, RD)                 (_REXQrr(RS, RD),               _O_Mrm          (0x87           ,_b11,_r8(RS),_r8(RD)                           ))
#define XCHGQrm(RS, MD, MB, MI, MS)     (_REXQrm(RS, MB, MI),           _O_r_X          (0x87                ,_r8(RS)           ,MD,MB,MI,MS            ))


/* --- Increment/Decrement instructions ------------------------------------ */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define DECBm(MD, MB, MI, MS)           (_REXBrm(0, MB, MI),            _O_r_X          (0xfe                ,_b001             ,MD,MB,MI,MS            ))
#define DECBr(RD)                       (_REXBrr(0, RD),                _O_Mrm          (0xfe           ,_b11,_b001  ,_r1(RD)                           ))

#define DECWm(MD, MB, MI, MS)           (_d16(), _REXLrm(0, MB, MI),    _O_r_X          (0xff                ,_b001             ,MD,MB,MI,MS            ))
#define DECWr(RD)                       (! X86_TARGET_64BIT ? (_d16(),  _Or             (0x48,_r2(RD)                                                   )) : \
                                        (_d16(), _REXLrr(0, RD),        _O_Mrm          (0xff           ,_b11,_b001  ,_r2(RD)                           )))

#define DECLm(MD, MB, MI, MS)           (_REXLrm(0, MB, MI),            _O_r_X          (0xff                ,_b001             ,MD,MB,MI,MS            ))
#define DECLr(RD)                       (! X86_TARGET_64BIT ?           _Or             (0x48,_r4(RD)                                                   ) : \
                                        (_REXLrr(0, RD),                _O_Mrm          (0xff           ,_b11,_b001  ,_r4(RD)                           )))

#define DECQm(MD, MB, MI, MS)           (_REXQrm(0, MB, MI),            _O_r_X          (0xff                ,_b001             ,MD,MB,MI,MS            ))
#define DECQr(RD)                       (_REXQrr(0, RD),                _O_Mrm          (0xff           ,_b11,_b001  ,_r8(RD)                           ))

#define INCBm(MD, MB, MI, MS)           (_REXBrm(0, MB, MI),            _O_r_X          (0xfe                ,_b000             ,MD,MB,MI,MS            ))
#define INCBr(RD)                       (_REXBrr(0, RD),                _O_Mrm          (0xfe           ,_b11,_b000  ,_r1(RD)                           ))

#define INCWm(MD, MB, MI, MS)           (_d16(), _REXLrm(0, MB, MI),    _O_r_X          (0xff                ,_b000             ,MD,MB,MI,MS            ))
#define INCWr(RD)                       (! X86_TARGET_64BIT ? (_d16(),  _Or             (0x40,_r2(RD)                                                   )) : \
                                        (_d16(), _REXLrr(0, RD),        _O_Mrm          (0xff           ,_b11,_b000  ,_r2(RD)                           )) )

#define INCLm(MD, MB, MI, MS)           (_REXLrm(0, MB, MI),            _O_r_X          (0xff                ,_b000             ,MD,MB,MI,MS            ))
#define INCLr(RD)                       (! X86_TARGET_64BIT ?           _Or             (0x40,_r4(RD)                                                   ) : \
                                        (_REXLrr(0, RD),                _O_Mrm          (0xff           ,_b11,_b000  ,_r4(RD)                           )))

#define INCQm(MD, MB, MI, MS)           (_REXQrm(0, MB, MI),            _O_r_X          (0xff                ,_b000             ,MD,MB,MI,MS            ))
#define INCQr(RD)                       (_REXQrr(0, RD),                _O_Mrm          (0xff           ,_b11,_b000  ,_r8(RD)                           ))


/* --- Misc/Garbage instructions ------------------------------------------- */

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define LEALmr(MD, MB, MI, MS, RD)      (_REXLmr(MB, MI, RD),           _O_r_X          (0x8d                ,_r4(RD)           ,MD,MB,MI,MS            ))

#define BSWAPLr(R)                      (_REXLrr(0, R),                 _OOr            (0x0fc8,_r4(R)                                                  ))
#define BSWAPQr(R)                      (_REXQrr(0, R),                 _OOr            (0x0fc8,_r8(R)                                                  ))

#define CLC()                                                           _O              (0xf8                                                           )
#define STC()                                                           _O              (0xf9                                                           )

#define CMC()                                                           _O              (0xf5                                                           )
#define CLD()                                                           _O              (0xfc                                                           )
#define STD()                                                           _O              (0xfd                                                           )

#define CBTW()                          (_d16(),                        _O              (0x98                                                           ))
#define CWTL()                                                          _O              (0x98                                                           )
#define CLTQ()                          _m64only(_REXQrr(0, 0),         _O              (0x98                                                           ))

#define CBW                             CBTW
#define CWDE                            CWTL
#define CDQE                            CLTQ

#define CWTD()                          (_d16(),                        _O              (0x99                                                           ))
#define CLTD()                                                          _O              (0x99                                                           )
#define CQTO()                          _m64only(_REXQrr(0, 0),         _O              (0x99                                                           ))

#define CWD                             CWTD
#define CDQ                             CLTD
#define CQO                             CQTO

#define LAHF()                          _m32only(                       _O              (0x9f                                                           ))
#define SAHF()                          _m32only(                       _O              (0x9e                                                           ))

/*                                                                      _format         Opcd            ,Mod ,r     ,m          ,mem=dsp+sib    ,imm... */

#define RDTSC()                                                         _OO             (0xff31                                                         )

#define ENTERii(W, B)                                                   _O_W_B          (0xc8                                             ,_su16(W),_su8(B))

#define LEAVE()                                                         _O              (0xc9                                                           )
#define RET()                                                           _O              (0xc3                                                           )
#define RETi(IM)                                                        _O_W            (0xc2                                                   ,_su16(IM))

#define NOP()                                                           _O              (0x90                                                           )


/* --- FLoating-Point instructions ----------------------------------------- */

#define _ESCmi(D,B,I,S,OP)      (_REXLrm(0,B,I), _O_r_X(0xd8|(OP & 7), (OP >> 3), D,B,I,S))

#define FLDr(R)                 _OOr(0xd9c0,_rN(R))
#define FLDLm(D,B,I,S)          _ESCmi(D,B,I,S,005)
#define FLDSm(D,B,I,S)          _ESCmi(D,B,I,S,001)
#define FLDTm(D,B,I,S)          _ESCmi(D,B,I,S,053)

#define FSTr(R)                 _OOr(0xddd0,_rN(R))
#define FSTSm(D,B,I,S)          _ESCmi(D,B,I,S,021)
#define FSTLm(D,B,I,S)          _ESCmi(D,B,I,S,025)

#define FSTPr(R)                _OOr(0xddd8,_rN(R))
#define FSTPSm(D,B,I,S)         _ESCmi(D,B,I,S,031)
#define FSTPLm(D,B,I,S)         _ESCmi(D,B,I,S,035)
#define FSTPTm(D,B,I,S)         _ESCmi(D,B,I,S,073)

#define FADDr0(R)               _OOr(0xd8c0,_rN(R))
#define FADD0r(R)               _OOr(0xdcc0,_rN(R))
#define FADDP0r(R)              _OOr(0xdec0,_rN(R))
#define FADDSm(D,B,I,S)         _ESCmi(D,B,I,S,000)
#define FADDLm(D,B,I,S)         _ESCmi(D,B,I,S,004)

#define FSUBSm(D,B,I,S)         _ESCmi(D,B,I,S,040)
#define FSUBLm(D,B,I,S)         _ESCmi(D,B,I,S,044)
#define FSUBr0(R)               _OOr(0xd8e0,_rN(R))
#define FSUB0r(R)               _OOr(0xdce8,_rN(R))
#define FSUBP0r(R)              _OOr(0xdee8,_rN(R))

#define FSUBRr0(R)              _OOr(0xd8e8,_rN(R))
#define FSUBR0r(R)              _OOr(0xdce0,_rN(R))
#define FSUBRP0r(R)             _OOr(0xdee0,_rN(R))
#define FSUBRSm(D,B,I,S)        _ESCmi(D,B,I,S,050)
#define FSUBRLm(D,B,I,S)        _ESCmi(D,B,I,S,054)

#define FMULr0(R)               _OOr(0xd8c8,_rN(R))
#define FMUL0r(R)               _OOr(0xdcc8,_rN(R))
#define FMULP0r(R)              _OOr(0xdec8,_rN(R))
#define FMULSm(D,B,I,S)         _ESCmi(D,B,I,S,010)
#define FMULLm(D,B,I,S)         _ESCmi(D,B,I,S,014)

#define FDIVr0(R)               _OOr(0xd8f0,_rN(R))
#define FDIV0r(R)               _OOr(0xdcf8,_rN(R))
#define FDIVP0r(R)              _OOr(0xdef8,_rN(R))
#define FDIVSm(D,B,I,S)         _ESCmi(D,B,I,S,060)
#define FDIVLm(D,B,I,S)         _ESCmi(D,B,I,S,064)

#define FDIVRr0(R)              _OOr(0xd8f8,_rN(R))
#define FDIVR0r(R)              _OOr(0xdcf0,_rN(R))
#define FDIVRP0r(R)             _OOr(0xdef0,_rN(R))
#define FDIVRSm(D,B,I,S)        _ESCmi(D,B,I,S,070)
#define FDIVRLm(D,B,I,S)        _ESCmi(D,B,I,S,074)

#define FCMOVBr0(R)             _OOr(0xdac0,_rN(R))
#define FCMOVBEr0(R)            _OOr(0xdad0,_rN(R))
#define FCMOVEr0(R)             _OOr(0xdac8,_rN(R))
#define FCMOVNBr0(R)            _OOr(0xdbc0,_rN(R))
#define FCMOVNBEr0(R)           _OOr(0xdbd0,_rN(R))
#define FCMOVNEr0(R)            _OOr(0xdbc8,_rN(R))
#define FCMOVNUr0(R)            _OOr(0xdbd8,_rN(R))
#define FCMOVUr0(R)             _OOr(0xdad8,_rN(R))
#define FCOMIr0(R)              _OOr(0xdbf0,_rN(R))
#define FCOMIPr0(R)             _OOr(0xdff0,_rN(R))

#define FCOMr(R)                _OOr(0xd8d0,_rN(R))
#define FCOMSm(D,B,I,S)         _ESCmi(D,B,I,S,020)
#define FCOMLm(D,B,I,S)         _ESCmi(D,B,I,S,024)

#define FCOMPr(R)               _OOr(0xd8d8,_rN(R))
#define FCOMPSm(D,B,I,S)        _ESCmi(D,B,I,S,030)
#define FCOMPLm(D,B,I,S)        _ESCmi(D,B,I,S,034)

#define FUCOMIr0(R)             _OOr(0xdbe8,_rN(R))
#define FUCOMIPr0(R)            _OOr(0xdfe8,_rN(R))
#define FUCOMPr(R)              _OOr(0xdde8,_rN(R))
#define FUCOMr(R)               _OOr(0xdde0,_rN(R))

#define FIADDLm(D,B,I,S)        _ESCmi(D,B,I,S,002)
#define FICOMLm(D,B,I,S)        _ESCmi(D,B,I,S,022)
#define FICOMPLm(D,B,I,S)       _ESCmi(D,B,I,S,032)
#define FIDIVLm(D,B,I,S)        _ESCmi(D,B,I,S,062)
#define FIDIVRLm(D,B,I,S)       _ESCmi(D,B,I,S,072)
#define FILDLm(D,B,I,S)         _ESCmi(D,B,I,S,003)
#define FILDQm(D,B,I,S)         _ESCmi(D,B,I,S,057)
#define FIMULLm(D,B,I,S)        _ESCmi(D,B,I,S,012)
#define FISTLm(D,B,I,S)         _ESCmi(D,B,I,S,023)
#define FISTPLm(D,B,I,S)        _ESCmi(D,B,I,S,033)
#define FISTPQm(D,B,I,S)        _ESCmi(D,B,I,S,077)
#define FISUBLm(D,B,I,S)        _ESCmi(D,B,I,S,042)
#define FISUBRLm(D,B,I,S)       _ESCmi(D,B,I,S,052)

#define FREEr(R)                _OOr(0xddc0,_rN(R))
#define FXCHr(R)                _OOr(0xd9c8,_rN(R))

#endif /* X86_RTASM_H */
Revision:	1.2
Committed:	2003-01-31T23:48:10Z (21 years, 7 months ago) by gbeauche
Content type:	text/plain
Branch:	MAIN
Changes since 1.1:	+119 -22 lines
Log Message:	Add some FPU instructions. Minor clean-ups.