[deliverable/binutils-gdb.git] / opcodes / i386-opc.h

/* Declarations for Intel 80386 opcode table
   Copyright 2007, 2008, 2009
   Free Software Foundation, Inc.

   This file is part of the GNU opcodes library.

   This library 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 3, or (at your option)
   any later version.

   It 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 GAS; see the file COPYING.  If not, write to the Free
   Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
   02110-1301, USA.  */

#include "opcode/i386.h"
#ifdef HAVE_LIMITS_H
#include <limits.h>
#endif

#ifndef CHAR_BIT
#define CHAR_BIT 8
#endif

/* Position of cpu flags bitfiled.  */

enum
{
  /* i186 or better required */
  Cpu186 = 0,
  /* i286 or better required */
  Cpu286,
  /* i386 or better required */
  Cpu386,
  /* i486 or better required */
  Cpu486,
  /* i585 or better required */
  Cpu586,
  /* i686 or better required */
  Cpu686,
  /* CLFLUSH Instuction support required */
  CpuClflush,
  /* SYSCALL Instuctions support required */
  CpuSYSCALL,
  /* Floating point support required */
  Cpu8087,
  /* i287 support required */
  Cpu287,
  /* i387 support required */
  Cpu387,
  /* i686 and floating point support required */
  Cpu687,
  /* SSE3 and floating point support required */
  CpuFISTTP,
  /* MMX support required */
  CpuMMX,
  /* SSE support required */
  CpuSSE,
  /* SSE2 support required */
  CpuSSE2,
  /* 3dnow! support required */
  Cpu3dnow,
  /* 3dnow! Extensions support required */
  Cpu3dnowA,
  /* SSE3 support required */
  CpuSSE3,
  /* VIA PadLock required */
  CpuPadLock,
  /* AMD Secure Virtual Machine Ext-s required */
  CpuSVME,
  /* VMX Instructions required */
  CpuVMX,
  /* SMX Instructions required */
  CpuSMX,
  /* SSSE3 support required */
  CpuSSSE3,
  /* SSE4a support required */
  CpuSSE4a,
  /* ABM New Instructions required */
  CpuABM,
  /* SSE4.1 support required */
  CpuSSE4_1,
  /* SSE4.2 support required */
  CpuSSE4_2,
  /* AVX support required */
  CpuAVX,
  /* Intel L1OM support required */
  CpuL1OM,
  /* Xsave/xrstor New Instuctions support required */
  CpuXsave,
  /* AES support required */
  CpuAES,
  /* PCLMUL support required */
  CpuPCLMUL,
  /* FMA support required */
  CpuFMA,
  /* FMA4 support required */
  CpuFMA4,
  /* XOP support required */
  CpuXOP,
  /* LWP support required */
  CpuLWP,
  /* MOVBE Instuction support required */
  CpuMovbe,
  /* EPT Instructions required */
  CpuEPT,
  /* RDTSCP Instuction support required */
  CpuRdtscp,
  /* 64bit support available, used by -march= in assembler.  */
  CpuLM,
  /* 64bit support required  */
  Cpu64,
  /* Not supported in the 64bit mode  */
  CpuNo64,
  /* The last bitfield in i386_cpu_flags.  */
  CpuMax = CpuNo64
};

#define CpuNumOfUints \
  (CpuMax / sizeof (unsigned int) / CHAR_BIT + 1)
#define CpuNumOfBits \
  (CpuNumOfUints * sizeof (unsigned int) * CHAR_BIT)

/* If you get a compiler error for zero width of the unused field,
   comment it out.  */
#define CpuUnused	(CpuMax + 1)

/* We can check if an instruction is available with array instead
   of bitfield. */
typedef union i386_cpu_flags
{
  struct
    {
      unsigned int cpui186:1;
      unsigned int cpui286:1;
      unsigned int cpui386:1;
      unsigned int cpui486:1;
      unsigned int cpui586:1;
      unsigned int cpui686:1;
      unsigned int cpuclflush:1;
      unsigned int cpusyscall:1;
      unsigned int cpu8087:1;
      unsigned int cpu287:1;
      unsigned int cpu387:1;
      unsigned int cpu687:1;
      unsigned int cpufisttp:1;
      unsigned int cpummx:1;
      unsigned int cpusse:1;
      unsigned int cpusse2:1;
      unsigned int cpua3dnow:1;
      unsigned int cpua3dnowa:1;
      unsigned int cpusse3:1;
      unsigned int cpupadlock:1;
      unsigned int cpusvme:1;
      unsigned int cpuvmx:1;
      unsigned int cpusmx:1;
      unsigned int cpussse3:1;
      unsigned int cpusse4a:1;
      unsigned int cpuabm:1;
      unsigned int cpusse4_1:1;
      unsigned int cpusse4_2:1;
      unsigned int cpuavx:1;
      unsigned int cpul1om:1;
      unsigned int cpuxsave:1;
      unsigned int cpuaes:1;
      unsigned int cpupclmul:1;
      unsigned int cpufma:1;
      unsigned int cpufma4:1;
      unsigned int cpuxop:1;
      unsigned int cpulwp:1;
      unsigned int cpumovbe:1;
      unsigned int cpuept:1;
      unsigned int cpurdtscp:1;
      unsigned int cpulm:1;
      unsigned int cpu64:1;
      unsigned int cpuno64:1;
#ifdef CpuUnused
      unsigned int unused:(CpuNumOfBits - CpuUnused);
#endif
    } bitfield;
  unsigned int array[CpuNumOfUints];
} i386_cpu_flags;

/* Position of opcode_modifier bits.  */

enum
{
  /* has direction bit. */
  D = 0,
  /* set if operands can be words or dwords encoded the canonical way */
  W,
  /* Skip the current insn and use the next insn in i386-opc.tbl to swap
     operand in encoding.  */
  S,
  /* insn has a modrm byte. */
  Modrm,
  /* register is in low 3 bits of opcode */
  ShortForm,
  /* special case for jump insns.  */
  Jump,
  /* call and jump */
  JumpDword,
  /* loop and jecxz */
  JumpByte,
  /* special case for intersegment leaps/calls */
  JumpInterSegment,
  /* FP insn memory format bit, sized by 0x4 */
  FloatMF,
  /* src/dest swap for floats. */
  FloatR,
  /* has float insn direction bit. */
  FloatD,
  /* needs size prefix if in 32-bit mode */
  Size16,
  /* needs size prefix if in 16-bit mode */
  Size32,
  /* needs size prefix if in 64-bit mode */
  Size64,
  /* instruction ignores operand size prefix and in Intel mode ignores
     mnemonic size suffix check.  */
  IgnoreSize,
  /* default insn size depends on mode */
  DefaultSize,
  /* b suffix on instruction illegal */
  No_bSuf,
  /* w suffix on instruction illegal */
  No_wSuf,
  /* l suffix on instruction illegal */
  No_lSuf,
  /* s suffix on instruction illegal */
  No_sSuf,
  /* q suffix on instruction illegal */
  No_qSuf,
  /* long double suffix on instruction illegal */
  No_ldSuf,
  /* instruction needs FWAIT */
  FWait,
  /* quick test for string instructions */
  IsString,
  /* quick test for lockable instructions */
  IsLockable,
  /* fake an extra reg operand for clr, imul and special register
     processing for some instructions.  */
  RegKludge,
  /* The first operand must be xmm0 */
  FirstXmm0,
  /* An implicit xmm0 as the first operand */
  Implicit1stXmm0,
  /* BYTE is OK in Intel syntax. */
  ByteOkIntel,
  /* Convert to DWORD */
  ToDword,
  /* Convert to QWORD */
  ToQword,
  /* Address prefix changes operand 0 */
  AddrPrefixOp0,
  /* opcode is a prefix */
  IsPrefix,
  /* instruction has extension in 8 bit imm */
  ImmExt,
  /* instruction don't need Rex64 prefix.  */
  NoRex64,
  /* instruction require Rex64 prefix.  */
  Rex64,
  /* deprecated fp insn, gets a warning */
  Ugh,
  /* insn has VEX prefix:
	1: 128bit VEX prefix.
	2: 256bit VEX prefix.
   */
  Vex,
  /* insn has VEX NDS. Register-only source is encoded in Vex prefix.
     We use VexNDS on insns with VEX DDS since the register-only source
     is the second source register.  */
  VexNDS,
  /* insn has VEX NDD. Register destination is encoded in Vex prefix. */
  VexNDD,
  /* insn has VEX NDD. Register destination is encoded in Vex prefix
     and one of the operands can access a memory location.  */
  VexLWP,
  /* insn has VEX W0. */
  VexW0,
  /* insn has VEX W1. */
  VexW1,
  /* insn has VEX 0x0F opcode prefix. */
  Vex0F,
  /* insn has VEX 0x0F38 opcode prefix. */
  Vex0F38,
  /* insn has VEX 0x0F3A opcode prefix. */
  Vex0F3A,
  /* insn has XOP 0x08 opcode prefix. */
  XOP08,
  /* insn has XOP 0x09 opcode prefix. */
  XOP09,
  /* insn has XOP 0x0A opcode prefix. */
  XOP0A,
  /* insn has VEX prefix with 2 sources. */
  Vex2Sources,
  /* insn has VEX prefix with 3 sources. */
  Vex3Sources,
  /* instruction has VEX 8 bit imm */
  VexImmExt,
  /* SSE to AVX support required */
  SSE2AVX,
  /* No AVX equivalent */
  NoAVX,
  /* Compatible with old (<= 2.8.1) versions of gcc  */
  OldGcc,
  /* AT&T mnemonic.  */
  ATTMnemonic,
  /* AT&T syntax.  */
  ATTSyntax,
  /* Intel syntax.  */
  IntelSyntax,
  /* The last bitfield in i386_opcode_modifier.  */
  Opcode_Modifier_Max
};

typedef struct i386_opcode_modifier
{
  unsigned int d:1;
  unsigned int w:1;
  unsigned int s:1;
  unsigned int modrm:1;
  unsigned int shortform:1;
  unsigned int jump:1;
  unsigned int jumpdword:1;
  unsigned int jumpbyte:1;
  unsigned int jumpintersegment:1;
  unsigned int floatmf:1;
  unsigned int floatr:1;
  unsigned int floatd:1;
  unsigned int size16:1;
  unsigned int size32:1;
  unsigned int size64:1;
  unsigned int ignoresize:1;
  unsigned int defaultsize:1;
  unsigned int no_bsuf:1;
  unsigned int no_wsuf:1;
  unsigned int no_lsuf:1;
  unsigned int no_ssuf:1;
  unsigned int no_qsuf:1;
  unsigned int no_ldsuf:1;
  unsigned int fwait:1;
  unsigned int isstring:1;
  unsigned int islockable:1;
  unsigned int regkludge:1;
  unsigned int firstxmm0:1;
  unsigned int implicit1stxmm0:1;
  unsigned int byteokintel:1;
  unsigned int todword:1;
  unsigned int toqword:1;
  unsigned int addrprefixop0:1;
  unsigned int isprefix:1;
  unsigned int immext:1;
  unsigned int norex64:1;
  unsigned int rex64:1;
  unsigned int ugh:1;
  unsigned int vex:2;
  unsigned int vexnds:1;
  unsigned int vexndd:1;
  unsigned int vexlwp:1;
  unsigned int vexw0:1;
  unsigned int vexw1:1;
  unsigned int vex0f:1;
  unsigned int vex0f38:1;
  unsigned int vex0f3a:1;
  unsigned int xop08:1;
  unsigned int xop09:1;
  unsigned int xop0a:1;
  unsigned int vex2sources:1;
  unsigned int vex3sources:1;
  unsigned int veximmext:1;
  unsigned int sse2avx:1;
  unsigned int noavx:1;
  unsigned int oldgcc:1;
  unsigned int attmnemonic:1;
  unsigned int attsyntax:1;
  unsigned int intelsyntax:1;
} i386_opcode_modifier;

/* Position of operand_type bits.  */

enum
{
  /* 8bit register */
  Reg8 = 0,
  /* 16bit register */
  Reg16,
  /* 32bit register */
  Reg32,
  /* 64bit register */
  Reg64,
  /* Floating pointer stack register */
  FloatReg,
  /* MMX register */
  RegMMX,
  /* SSE register */
  RegXMM,
  /* AVX registers */
  RegYMM,
  /* Control register */
  Control,
  /* Debug register */
  Debug,
  /* Test register */
  Test,
  /* 2 bit segment register */
  SReg2,
  /* 3 bit segment register */
  SReg3,
  /* 1 bit immediate */
  Imm1,
  /* 8 bit immediate */
  Imm8,
  /* 8 bit immediate sign extended */
  Imm8S,
  /* 16 bit immediate */
  Imm16,
  /* 32 bit immediate */
  Imm32,
  /* 32 bit immediate sign extended */
  Imm32S,
  /* 64 bit immediate */
  Imm64,
  /* 8bit/16bit/32bit displacements are used in different ways,
     depending on the instruction.  For jumps, they specify the
     size of the PC relative displacement, for instructions with
     memory operand, they specify the size of the offset relative
     to the base register, and for instructions with memory offset
     such as `mov 1234,%al' they specify the size of the offset
     relative to the segment base.  */
  /* 8 bit displacement */
  Disp8,
  /* 16 bit displacement */
  Disp16,
  /* 32 bit displacement */
  Disp32,
  /* 32 bit signed displacement */
  Disp32S,
  /* 64 bit displacement */
  Disp64,
  /* Accumulator %al/%ax/%eax/%rax */
  Acc,
  /* Floating pointer top stack register %st(0) */
  FloatAcc,
  /* Register which can be used for base or index in memory operand.  */
  BaseIndex,
  /* Register to hold in/out port addr = dx */
  InOutPortReg,
  /* Register to hold shift count = cl */
  ShiftCount,
  /* Absolute address for jump.  */
  JumpAbsolute,
  /* String insn operand with fixed es segment */
  EsSeg,
  /* RegMem is for instructions with a modrm byte where the register
     destination operand should be encoded in the mod and regmem fields.
     Normally, it will be encoded in the reg field. We add a RegMem
     flag to the destination register operand to indicate that it should
     be encoded in the regmem field.  */
  RegMem,
  /* Memory.  */
  Mem,
  /* BYTE memory. */
  Byte,
  /* WORD memory. 2 byte */
  Word,
  /* DWORD memory. 4 byte */
  Dword,
  /* FWORD memory. 6 byte */
  Fword,
  /* QWORD memory. 8 byte */
  Qword,
  /* TBYTE memory. 10 byte */
  Tbyte,
  /* XMMWORD memory. */
  Xmmword,
  /* YMMWORD memory. */
  Ymmword,
  /* Unspecified memory size.  */
  Unspecified,
  /* Any memory size.  */
  Anysize,

  /* The last bitfield in i386_operand_type.  */
  OTMax
};

#define OTNumOfUints \
  (OTMax / sizeof (unsigned int) / CHAR_BIT + 1)
#define OTNumOfBits \
  (OTNumOfUints * sizeof (unsigned int) * CHAR_BIT)

/* If you get a compiler error for zero width of the unused field,
   comment it out.  */
#define OTUnused		(OTMax + 1)

typedef union i386_operand_type
{
  struct
    {
      unsigned int reg8:1;
      unsigned int reg16:1;
      unsigned int reg32:1;
      unsigned int reg64:1;
      unsigned int floatreg:1;
      unsigned int regmmx:1;
      unsigned int regxmm:1;
      unsigned int regymm:1;
      unsigned int control:1;
      unsigned int debug:1;
      unsigned int test:1;
      unsigned int sreg2:1;
      unsigned int sreg3:1;
      unsigned int imm1:1;
      unsigned int imm8:1;
      unsigned int imm8s:1;
      unsigned int imm16:1;
      unsigned int imm32:1;
      unsigned int imm32s:1;
      unsigned int imm64:1;
      unsigned int disp8:1;
      unsigned int disp16:1;
      unsigned int disp32:1;
      unsigned int disp32s:1;
      unsigned int disp64:1;
      unsigned int acc:1;
      unsigned int floatacc:1;
      unsigned int baseindex:1;
      unsigned int inoutportreg:1;
      unsigned int shiftcount:1;
      unsigned int jumpabsolute:1;
      unsigned int esseg:1;
      unsigned int regmem:1;
      unsigned int mem:1;
      unsigned int byte:1;
      unsigned int word:1;
      unsigned int dword:1;
      unsigned int fword:1;
      unsigned int qword:1;
      unsigned int tbyte:1;
      unsigned int xmmword:1;
      unsigned int ymmword:1;
      unsigned int unspecified:1;
      unsigned int anysize:1;
#ifdef OTUnused
      unsigned int unused:(OTNumOfBits - OTUnused);
#endif
    } bitfield;
  unsigned int array[OTNumOfUints];
} i386_operand_type;

typedef struct insn_template
{
  /* instruction name sans width suffix ("mov" for movl insns) */
  char *name;

  /* how many operands */
  unsigned int operands;

  /* base_opcode is the fundamental opcode byte without optional
     prefix(es).  */
  unsigned int base_opcode;
#define Opcode_D	0x2 /* Direction bit:
			       set if Reg --> Regmem;
			       unset if Regmem --> Reg. */
#define Opcode_FloatR	0x8 /* Bit to swap src/dest for float insns. */
#define Opcode_FloatD 0x400 /* Direction bit for float insns. */

  /* extension_opcode is the 3 bit extension for group <n> insns.
     This field is also used to store the 8-bit opcode suffix for the
     AMD 3DNow! instructions.
     If this template has no extension opcode (the usual case) use None 
     Instructions */
  unsigned int extension_opcode;
#define None 0xffff		/* If no extension_opcode is possible.  */

  /* Opcode length.  */
  unsigned char opcode_length;

  /* cpu feature flags */
  i386_cpu_flags cpu_flags;

  /* the bits in opcode_modifier are used to generate the final opcode from
     the base_opcode.  These bits also are used to detect alternate forms of
     the same instruction */
  i386_opcode_modifier opcode_modifier;

  /* operand_types[i] describes the type of operand i.  This is made
     by OR'ing together all of the possible type masks.  (e.g.
     'operand_types[i] = Reg|Imm' specifies that operand i can be
     either a register or an immediate operand.  */
  i386_operand_type operand_types[MAX_OPERANDS];
}
insn_template;

extern const insn_template i386_optab[];

/* these are for register name --> number & type hash lookup */
typedef struct
{
  char *reg_name;
  i386_operand_type reg_type;
  unsigned char reg_flags;
#define RegRex	    0x1  /* Extended register.  */
#define RegRex64    0x2  /* Extended 8 bit register.  */
  unsigned char reg_num;
#define RegRip	((unsigned char ) ~0)
#define RegEip	(RegRip - 1)
/* EIZ and RIZ are fake index registers.  */
#define RegEiz	(RegEip - 1)
#define RegRiz	(RegEiz - 1)
/* FLAT is a fake segment register (Intel mode).  */
#define RegFlat     ((unsigned char) ~0)
  signed char dw2_regnum[2];
#define Dw2Inval (-1)
}
reg_entry;

/* Entries in i386_regtab.  */
#define REGNAM_AL 1
#define REGNAM_AX 25
#define REGNAM_EAX 41

extern const reg_entry i386_regtab[];
extern const unsigned int i386_regtab_size;

typedef struct
{
  char *seg_name;
  unsigned int seg_prefix;
}
seg_entry;

extern const seg_entry cs;
extern const seg_entry ds;
extern const seg_entry ss;
extern const seg_entry es;
extern const seg_entry fs;
extern const seg_entry gs;
Commit	Line	Data
0b1cf022	1	/* Declarations for Intel 80386 opcode table
0bfee649	2	Copyright 2007, 2008, 2009
0b1cf022 L	3	Free Software Foundation, Inc.
0b1cf022 L	4
9b201bb5	5	This file is part of the GNU opcodes library.
0b1cf022	6
9b201bb5	7	This library is free software; you can redistribute it and/or modify
0b1cf022	8	it under the terms of the GNU General Public License as published by
9b201bb5	9	the Free Software Foundation; either version 3, or (at your option)
0b1cf022 L	10	any later version.
0b1cf022 L	11
9b201bb5 NC	12	It is distributed in the hope that it will be useful, but WITHOUT
	13	ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
	14	or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
	15	License for more details.
0b1cf022 L	16
	17	You should have received a copy of the GNU General Public License
	18	along with GAS; see the file COPYING. If not, write to the Free
	19	Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA
	20	02110-1301, USA. */
	21
	22	#include "opcode/i386.h"
40fb9820 L	23	#ifdef HAVE_LIMITS_H
	24	#include <limits.h>
	25	#endif
	26
	27	#ifndef CHAR_BIT
	28	#define CHAR_BIT 8
	29	#endif
	30
	31	/* Position of cpu flags bitfiled. */
	32
52a6c1fe L	33	enum
	34	{
	35	/* i186 or better required */
	36	Cpu186 = 0,
	37	/* i286 or better required */
	38	Cpu286,
	39	/* i386 or better required */
	40	Cpu386,
	41	/* i486 or better required */
	42	Cpu486,
	43	/* i585 or better required */
	44	Cpu586,
	45	/* i686 or better required */
	46	Cpu686,
	47	/* CLFLUSH Instuction support required */
	48	CpuClflush,
	49	/* SYSCALL Instuctions support required */
	50	CpuSYSCALL,
	51	/* Floating point support required */
	52	Cpu8087,
	53	/* i287 support required */
	54	Cpu287,
	55	/* i387 support required */
	56	Cpu387,
	57	/* i686 and floating point support required */
	58	Cpu687,
	59	/* SSE3 and floating point support required */
	60	CpuFISTTP,
	61	/* MMX support required */
	62	CpuMMX,
	63	/* SSE support required */
	64	CpuSSE,
	65	/* SSE2 support required */
	66	CpuSSE2,
	67	/* 3dnow! support required */
	68	Cpu3dnow,
	69	/* 3dnow! Extensions support required */
	70	Cpu3dnowA,
	71	/* SSE3 support required */
	72	CpuSSE3,
	73	/* VIA PadLock required */
	74	CpuPadLock,
	75	/* AMD Secure Virtual Machine Ext-s required */
	76	CpuSVME,
	77	/* VMX Instructions required */
	78	CpuVMX,
	79	/* SMX Instructions required */
	80	CpuSMX,
	81	/* SSSE3 support required */
	82	CpuSSSE3,
	83	/* SSE4a support required */
	84	CpuSSE4a,
	85	/* ABM New Instructions required */
	86	CpuABM,
	87	/* SSE4.1 support required */
	88	CpuSSE4_1,
	89	/* SSE4.2 support required */
	90	CpuSSE4_2,
	91	/* AVX support required */
	92	CpuAVX,
	93	/* Intel L1OM support required */
	94	CpuL1OM,
	95	/* Xsave/xrstor New Instuctions support required */
	96	CpuXsave,
97	/* AES support required */
98	CpuAES,
99	/* PCLMUL support required */
100	CpuPCLMUL,
101	/* FMA support required */
102	CpuFMA,
103	/* FMA4 support required */
104	CpuFMA4,
5dd85c99 SP	105	/* XOP support required */
5dd85c99 SP	106	CpuXOP,
f88c9eb0 SP	107	/* LWP support required */
f88c9eb0 SP	108	CpuLWP,
52a6c1fe L	109	/* MOVBE Instuction support required */
	110	CpuMovbe,
	111	/* EPT Instructions required */
	112	CpuEPT,
	113	/* RDTSCP Instuction support required */
	114	CpuRdtscp,
	115	/* 64bit support available, used by -march= in assembler. */
	116	CpuLM,
	117	/* 64bit support required */
	118	Cpu64,
	119	/* Not supported in the 64bit mode */
	120	CpuNo64,
	121	/* The last bitfield in i386_cpu_flags. */
	122	CpuMax = CpuNo64
	123	};
40fb9820 L	124
	125	#define CpuNumOfUints \
	126	(CpuMax / sizeof (unsigned int) / CHAR_BIT + 1)
	127	#define CpuNumOfBits \
	128	(CpuNumOfUints * sizeof (unsigned int) * CHAR_BIT)
	129
	130	/* If you get a compiler error for zero width of the unused field,
	131	comment it out. */
8c6c9809	132	#define CpuUnused (CpuMax + 1)
40fb9820 L	133
	134	/* We can check if an instruction is available with array instead
	135	of bitfield. */
	136	typedef union i386_cpu_flags
	137	{
	138	struct
	139	{
	140	unsigned int cpui186:1;
	141	unsigned int cpui286:1;
	142	unsigned int cpui386:1;
	143	unsigned int cpui486:1;
	144	unsigned int cpui586:1;
	145	unsigned int cpui686:1;
bd5295b2 L	146	unsigned int cpuclflush:1;
bd5295b2 L	147	unsigned int cpusyscall:1;
309d3373 JB	148	unsigned int cpu8087:1;
	149	unsigned int cpu287:1;
	150	unsigned int cpu387:1;
	151	unsigned int cpu687:1;
	152	unsigned int cpufisttp:1;
40fb9820	153	unsigned int cpummx:1;
40fb9820 L	154	unsigned int cpusse:1;
	155	unsigned int cpusse2:1;
	156	unsigned int cpua3dnow:1;
	157	unsigned int cpua3dnowa:1;
	158	unsigned int cpusse3:1;
	159	unsigned int cpupadlock:1;
	160	unsigned int cpusvme:1;
	161	unsigned int cpuvmx:1;
47dd174c	162	unsigned int cpusmx:1;
40fb9820 L	163	unsigned int cpussse3:1;
	164	unsigned int cpusse4a:1;
	165	unsigned int cpuabm:1;
	166	unsigned int cpusse4_1:1;
	167	unsigned int cpusse4_2:1;
c0f3af97	168	unsigned int cpuavx:1;
8a9036a4	169	unsigned int cpul1om:1;
475a2301	170	unsigned int cpuxsave:1;
c0f3af97	171	unsigned int cpuaes:1;
594ab6a3	172	unsigned int cpupclmul:1;
c0f3af97	173	unsigned int cpufma:1;
922d8de8	174	unsigned int cpufma4:1;
5dd85c99	175	unsigned int cpuxop:1;
f88c9eb0	176	unsigned int cpulwp:1;
f1f8f695 L	177	unsigned int cpumovbe:1;
f1f8f695 L	178	unsigned int cpuept:1;
1b7f3fb0	179	unsigned int cpurdtscp:1;
40fb9820 L	180	unsigned int cpulm:1;
	181	unsigned int cpu64:1;
	182	unsigned int cpuno64:1;
	183	#ifdef CpuUnused
	184	unsigned int unused:(CpuNumOfBits - CpuUnused);
	185	#endif
	186	} bitfield;
	187	unsigned int array[CpuNumOfUints];
	188	} i386_cpu_flags;
	189
	190	/* Position of opcode_modifier bits. */
	191
52a6c1fe L	192	enum
	193	{
	194	/* has direction bit. */
	195	D = 0,
	196	/* set if operands can be words or dwords encoded the canonical way */
	197	W,
	198	/* Skip the current insn and use the next insn in i386-opc.tbl to swap
	199	operand in encoding. */
	200	S,
	201	/* insn has a modrm byte. */
	202	Modrm,
	203	/* register is in low 3 bits of opcode */
	204	ShortForm,
	205	/* special case for jump insns. */
	206	Jump,
	207	/* call and jump */
	208	JumpDword,
	209	/* loop and jecxz */
	210	JumpByte,
	211	/* special case for intersegment leaps/calls */
	212	JumpInterSegment,
	213	/* FP insn memory format bit, sized by 0x4 */
	214	FloatMF,
	215	/* src/dest swap for floats. */
	216	FloatR,
	217	/* has float insn direction bit. */
	218	FloatD,
	219	/* needs size prefix if in 32-bit mode */
	220	Size16,
	221	/* needs size prefix if in 16-bit mode */
	222	Size32,
	223	/* needs size prefix if in 64-bit mode */
	224	Size64,
	225	/* instruction ignores operand size prefix and in Intel mode ignores
	226	mnemonic size suffix check. */
	227	IgnoreSize,
	228	/* default insn size depends on mode */
	229	DefaultSize,
	230	/* b suffix on instruction illegal */
	231	No_bSuf,
	232	/* w suffix on instruction illegal */
	233	No_wSuf,
	234	/* l suffix on instruction illegal */
	235	No_lSuf,
	236	/* s suffix on instruction illegal */
	237	No_sSuf,
	238	/* q suffix on instruction illegal */
	239	No_qSuf,
	240	/* long double suffix on instruction illegal */
	241	No_ldSuf,
	242	/* instruction needs FWAIT */
	243	FWait,
	244	/* quick test for string instructions */
	245	IsString,
c32fa91d L	246	/* quick test for lockable instructions */
c32fa91d L	247	IsLockable,
52a6c1fe L	248	/* fake an extra reg operand for clr, imul and special register
	249	processing for some instructions. */
	250	RegKludge,
	251	/* The first operand must be xmm0 */
	252	FirstXmm0,
	253	/* An implicit xmm0 as the first operand */
	254	Implicit1stXmm0,
	255	/* BYTE is OK in Intel syntax. */
	256	ByteOkIntel,
	257	/* Convert to DWORD */
	258	ToDword,
	259	/* Convert to QWORD */
	260	ToQword,
	261	/* Address prefix changes operand 0 */
	262	AddrPrefixOp0,
	263	/* opcode is a prefix */
	264	IsPrefix,
	265	/* instruction has extension in 8 bit imm */
	266	ImmExt,
	267	/* instruction don't need Rex64 prefix. */
	268	NoRex64,
	269	/* instruction require Rex64 prefix. */
	270	Rex64,
	271	/* deprecated fp insn, gets a warning */
	272	Ugh,
	273	/* insn has VEX prefix:
2bf05e57 L	274	1: 128bit VEX prefix.
2bf05e57 L	275	2: 256bit VEX prefix.
52a6c1fe L	276	*/
	277	Vex,
	278	/* insn has VEX NDS. Register-only source is encoded in Vex prefix.
	279	We use VexNDS on insns with VEX DDS since the register-only source
	280	is the second source register. */
	281	VexNDS,
	282	/* insn has VEX NDD. Register destination is encoded in Vex prefix. */
	283	VexNDD,
f88c9eb0 SP	284	/* insn has VEX NDD. Register destination is encoded in Vex prefix
	285	and one of the operands can access a memory location. */
	286	VexLWP,
52a6c1fe L	287	/* insn has VEX W0. */
	288	VexW0,
	289	/* insn has VEX W1. */
	290	VexW1,
	291	/* insn has VEX 0x0F opcode prefix. */
	292	Vex0F,
	293	/* insn has VEX 0x0F38 opcode prefix. */
	294	Vex0F38,
	295	/* insn has VEX 0x0F3A opcode prefix. */
	296	Vex0F3A,
5dd85c99 SP	297	/* insn has XOP 0x08 opcode prefix. */
5dd85c99 SP	298	XOP08,
f88c9eb0 SP	299	/* insn has XOP 0x09 opcode prefix. */
	300	XOP09,
	301	/* insn has XOP 0x0A opcode prefix. */
	302	XOP0A,
5dd85c99 SP	303	/* insn has VEX prefix with 2 sources. */
	304	Vex2Sources,
	305	/* insn has VEX prefix with 3 sources. */
52a6c1fe L	306	Vex3Sources,
	307	/* instruction has VEX 8 bit imm */
	308	VexImmExt,
	309	/* SSE to AVX support required */
	310	SSE2AVX,
	311	/* No AVX equivalent */
	312	NoAVX,
	313	/* Compatible with old (<= 2.8.1) versions of gcc */
	314	OldGcc,
	315	/* AT&T mnemonic. */
	316	ATTMnemonic,
	317	/* AT&T syntax. */
	318	ATTSyntax,
	319	/* Intel syntax. */
	320	IntelSyntax,
	321	/* The last bitfield in i386_opcode_modifier. */
	322	Opcode_Modifier_Max
	323	};
40fb9820 L	324
	325	typedef struct i386_opcode_modifier
	326	{
	327	unsigned int d:1;
	328	unsigned int w:1;
b6169b20	329	unsigned int s:1;
40fb9820 L	330	unsigned int modrm:1;
	331	unsigned int shortform:1;
	332	unsigned int jump:1;
	333	unsigned int jumpdword:1;
	334	unsigned int jumpbyte:1;
	335	unsigned int jumpintersegment:1;
	336	unsigned int floatmf:1;
	337	unsigned int floatr:1;
	338	unsigned int floatd:1;
	339	unsigned int size16:1;
	340	unsigned int size32:1;
	341	unsigned int size64:1;
	342	unsigned int ignoresize:1;
	343	unsigned int defaultsize:1;
	344	unsigned int no_bsuf:1;
	345	unsigned int no_wsuf:1;
	346	unsigned int no_lsuf:1;
	347	unsigned int no_ssuf:1;
	348	unsigned int no_qsuf:1;
7ce189b3	349	unsigned int no_ldsuf:1;
40fb9820 L	350	unsigned int fwait:1;
40fb9820 L	351	unsigned int isstring:1;
c32fa91d	352	unsigned int islockable:1;
40fb9820	353	unsigned int regkludge:1;
e2ec9d29	354	unsigned int firstxmm0:1;
c0f3af97	355	unsigned int implicit1stxmm0:1;
ca61edf2 L	356	unsigned int byteokintel:1;
	357	unsigned int todword:1;
	358	unsigned int toqword:1;
	359	unsigned int addrprefixop0:1;
40fb9820 L	360	unsigned int isprefix:1;
	361	unsigned int immext:1;
	362	unsigned int norex64:1;
	363	unsigned int rex64:1;
	364	unsigned int ugh:1;
2bf05e57	365	unsigned int vex:2;
c0f3af97 L	366	unsigned int vexnds:1;
c0f3af97 L	367	unsigned int vexndd:1;
f88c9eb0	368	unsigned int vexlwp:1;
c0f3af97 L	369	unsigned int vexw0:1;
	370	unsigned int vexw1:1;
	371	unsigned int vex0f:1;
	372	unsigned int vex0f38:1;
	373	unsigned int vex0f3a:1;
5dd85c99	374	unsigned int xop08:1;
f88c9eb0 SP	375	unsigned int xop09:1;
f88c9eb0 SP	376	unsigned int xop0a:1;
5dd85c99	377	unsigned int vex2sources:1;
c0f3af97 L	378	unsigned int vex3sources:1;
	379	unsigned int veximmext:1;
	380	unsigned int sse2avx:1;
81f8a913	381	unsigned int noavx:1;
1efbbeb4 L	382	unsigned int oldgcc:1;
1efbbeb4 L	383	unsigned int attmnemonic:1;
e1d4d893	384	unsigned int attsyntax:1;
5c07affc	385	unsigned int intelsyntax:1;
40fb9820 L	386	} i386_opcode_modifier;
	387
	388	/* Position of operand_type bits. */
	389
52a6c1fe L	390	enum
	391	{
	392	/* 8bit register */
	393	Reg8 = 0,
	394	/* 16bit register */
	395	Reg16,
	396	/* 32bit register */
	397	Reg32,
	398	/* 64bit register */
	399	Reg64,
	400	/* Floating pointer stack register */
	401	FloatReg,
	402	/* MMX register */
	403	RegMMX,
	404	/* SSE register */
	405	RegXMM,
	406	/* AVX registers */
	407	RegYMM,
	408	/* Control register */
	409	Control,
	410	/* Debug register */
	411	Debug,
	412	/* Test register */
	413	Test,
	414	/* 2 bit segment register */
	415	SReg2,
	416	/* 3 bit segment register */
	417	SReg3,
	418	/* 1 bit immediate */
	419	Imm1,
	420	/* 8 bit immediate */
	421	Imm8,
	422	/* 8 bit immediate sign extended */
	423	Imm8S,
	424	/* 16 bit immediate */
	425	Imm16,
	426	/* 32 bit immediate */
	427	Imm32,
	428	/* 32 bit immediate sign extended */
	429	Imm32S,
	430	/* 64 bit immediate */
	431	Imm64,
	432	/* 8bit/16bit/32bit displacements are used in different ways,
	433	depending on the instruction. For jumps, they specify the
	434	size of the PC relative displacement, for instructions with
	435	memory operand, they specify the size of the offset relative
	436	to the base register, and for instructions with memory offset
	437	such as `mov 1234,%al' they specify the size of the offset
	438	relative to the segment base. */
	439	/* 8 bit displacement */
	440	Disp8,
	441	/* 16 bit displacement */
	442	Disp16,
	443	/* 32 bit displacement */
	444	Disp32,
	445	/* 32 bit signed displacement */
	446	Disp32S,
	447	/* 64 bit displacement */
	448	Disp64,
	449	/* Accumulator %al/%ax/%eax/%rax */
	450	Acc,
	451	/* Floating pointer top stack register %st(0) */
	452	FloatAcc,
	453	/* Register which can be used for base or index in memory operand. */
454	BaseIndex,
455	/* Register to hold in/out port addr = dx */
456	InOutPortReg,
457	/* Register to hold shift count = cl */
458	ShiftCount,
459	/* Absolute address for jump. */
460	JumpAbsolute,
461	/* String insn operand with fixed es segment */
462	EsSeg,
463	/* RegMem is for instructions with a modrm byte where the register
464	destination operand should be encoded in the mod and regmem fields.
465	Normally, it will be encoded in the reg field. We add a RegMem
466	flag to the destination register operand to indicate that it should
467	be encoded in the regmem field. */
468	RegMem,
469	/* Memory. */
470	Mem,
471	/* BYTE memory. */
472	Byte,
473	/* WORD memory. 2 byte */
474	Word,
475	/* DWORD memory. 4 byte */
476	Dword,
477	/* FWORD memory. 6 byte */
478	Fword,
479	/* QWORD memory. 8 byte */
480	Qword,
481	/* TBYTE memory. 10 byte */
482	Tbyte,
483	/* XMMWORD memory. */
484	Xmmword,
485	/* YMMWORD memory. */
486	Ymmword,
487	/* Unspecified memory size. */
488	Unspecified,
489	/* Any memory size. */
490	Anysize,
40fb9820	491
52a6c1fe L	492	/* The last bitfield in i386_operand_type. */
	493	OTMax
	494	};
40fb9820 L	495
	496	#define OTNumOfUints \
	497	(OTMax / sizeof (unsigned int) / CHAR_BIT + 1)
	498	#define OTNumOfBits \
	499	(OTNumOfUints * sizeof (unsigned int) * CHAR_BIT)
	500
	501	/* If you get a compiler error for zero width of the unused field,
	502	comment it out. */
8c6c9809	503	#define OTUnused (OTMax + 1)
40fb9820 L	504
	505	typedef union i386_operand_type
	506	{
	507	struct
	508	{
	509	unsigned int reg8:1;
	510	unsigned int reg16:1;
	511	unsigned int reg32:1;
	512	unsigned int reg64:1;
7d5e4556 L	513	unsigned int floatreg:1;
	514	unsigned int regmmx:1;
	515	unsigned int regxmm:1;
c0f3af97	516	unsigned int regymm:1;
7d5e4556 L	517	unsigned int control:1;
	518	unsigned int debug:1;
	519	unsigned int test:1;
	520	unsigned int sreg2:1;
	521	unsigned int sreg3:1;
	522	unsigned int imm1:1;
40fb9820 L	523	unsigned int imm8:1;
	524	unsigned int imm8s:1;
	525	unsigned int imm16:1;
	526	unsigned int imm32:1;
	527	unsigned int imm32s:1;
	528	unsigned int imm64:1;
40fb9820 L	529	unsigned int disp8:1;
	530	unsigned int disp16:1;
	531	unsigned int disp32:1;
	532	unsigned int disp32s:1;
	533	unsigned int disp64:1;
7d5e4556 L	534	unsigned int acc:1;
	535	unsigned int floatacc:1;
	536	unsigned int baseindex:1;
40fb9820 L	537	unsigned int inoutportreg:1;
40fb9820 L	538	unsigned int shiftcount:1;
40fb9820	539	unsigned int jumpabsolute:1;
40fb9820 L	540	unsigned int esseg:1;
40fb9820 L	541	unsigned int regmem:1;
5c07affc	542	unsigned int mem:1;
7d5e4556 L	543	unsigned int byte:1;
	544	unsigned int word:1;
	545	unsigned int dword:1;
	546	unsigned int fword:1;
	547	unsigned int qword:1;
	548	unsigned int tbyte:1;
	549	unsigned int xmmword:1;
c0f3af97	550	unsigned int ymmword:1;
7d5e4556 L	551	unsigned int unspecified:1;
7d5e4556 L	552	unsigned int anysize:1;
40fb9820 L	553	#ifdef OTUnused
	554	unsigned int unused:(OTNumOfBits - OTUnused);
	555	#endif
	556	} bitfield;
	557	unsigned int array[OTNumOfUints];
	558	} i386_operand_type;
0b1cf022	559
d3ce72d0	560	typedef struct insn_template
0b1cf022 L	561	{
	562	/* instruction name sans width suffix ("mov" for movl insns) */
	563	char *name;
	564
	565	/* how many operands */
	566	unsigned int operands;
	567
	568	/* base_opcode is the fundamental opcode byte without optional
	569	prefix(es). */
	570	unsigned int base_opcode;
	571	#define Opcode_D 0x2 /* Direction bit:
	572	set if Reg --> Regmem;
	573	unset if Regmem --> Reg. */
	574	#define Opcode_FloatR 0x8 /* Bit to swap src/dest for float insns. */
	575	#define Opcode_FloatD 0x400 /* Direction bit for float insns. */
	576
	577	/* extension_opcode is the 3 bit extension for group <n> insns.
	578	This field is also used to store the 8-bit opcode suffix for the
	579	AMD 3DNow! instructions.
85f10a01	580	If this template has no extension opcode (the usual case) use None
c1e679ec	581	Instructions */
0b1cf022 L	582	unsigned int extension_opcode;
	583	#define None 0xffff /* If no extension_opcode is possible. */
	584
4dffcebc L	585	/* Opcode length. */
	586	unsigned char opcode_length;
	587
0b1cf022	588	/* cpu feature flags */
40fb9820	589	i386_cpu_flags cpu_flags;
0b1cf022 L	590
	591	/* the bits in opcode_modifier are used to generate the final opcode from
	592	the base_opcode. These bits also are used to detect alternate forms of
	593	the same instruction */
40fb9820	594	i386_opcode_modifier opcode_modifier;
0b1cf022 L	595
	596	/* operand_types[i] describes the type of operand i. This is made
	597	by OR'ing together all of the possible type masks. (e.g.
	598	'operand_types[i] = Reg\|Imm' specifies that operand i can be
	599	either a register or an immediate operand. */
40fb9820	600	i386_operand_type operand_types[MAX_OPERANDS];
0b1cf022	601	}
d3ce72d0	602	insn_template;
0b1cf022	603
d3ce72d0	604	extern const insn_template i386_optab[];
0b1cf022 L	605
	606	/* these are for register name --> number & type hash lookup */
	607	typedef struct
	608	{
	609	char *reg_name;
40fb9820	610	i386_operand_type reg_type;
a60de03c	611	unsigned char reg_flags;
0b1cf022 L	612	#define RegRex 0x1 /* Extended register. */
0b1cf022 L	613	#define RegRex64 0x2 /* Extended 8 bit register. */
a60de03c JB	614	unsigned char reg_num;
a60de03c JB	615	#define RegRip ((unsigned char ) ~0)
9a04903e	616	#define RegEip (RegRip - 1)
db51cc60	617	/* EIZ and RIZ are fake index registers. */
9a04903e	618	#define RegEiz (RegEip - 1)
db51cc60	619	#define RegRiz (RegEiz - 1)
b7240065 JB	620	/* FLAT is a fake segment register (Intel mode). */
b7240065 JB	621	#define RegFlat ((unsigned char) ~0)
a60de03c JB	622	signed char dw2_regnum[2];
a60de03c JB	623	#define Dw2Inval (-1)
0b1cf022 L	624	}
	625	reg_entry;
	626
	627	/* Entries in i386_regtab. */
	628	#define REGNAM_AL 1
	629	#define REGNAM_AX 25
	630	#define REGNAM_EAX 41
	631
	632	extern const reg_entry i386_regtab[];
c3fe08fa	633	extern const unsigned int i386_regtab_size;
0b1cf022 L	634
	635	typedef struct
	636	{
	637	char *seg_name;
	638	unsigned int seg_prefix;
	639	}
	640	seg_entry;
	641
	642	extern const seg_entry cs;
	643	extern const seg_entry ds;
	644	extern const seg_entry ss;
	645	extern const seg_entry es;
	646	extern const seg_entry fs;
	647	extern const seg_entry gs;