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[/] [open8_urisc/] [trunk/] [gnu/] [binutils/] [include/] [opcode/] [i386.h] - Blame information for rev 259

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1 17 khays
/* opcode/i386.h -- Intel 80386 opcode macros
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   Copyright 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
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   2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
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   Free Software Foundation, Inc.
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   This file is part of GAS, the GNU Assembler, and GDB, the GNU Debugger.
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   This program is free software; you can redistribute it and/or modify
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   it under the terms of the GNU General Public License as published by
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   the Free Software Foundation; either version 3 of the License, or
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   (at your option) any later version.
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   This program is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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   GNU General Public License for more details.
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   You should have received a copy of the GNU General Public License
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   along with this program; if not, write to the Free Software
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   Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
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   MA 02110-1301, USA.  */
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/* The SystemV/386 SVR3.2 assembler, and probably all AT&T derived
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   ix86 Unix assemblers, generate floating point instructions with
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   reversed source and destination registers in certain cases.
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   Unfortunately, gcc and possibly many other programs use this
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   reversed syntax, so we're stuck with it.
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   eg. `fsub %st(3),%st' results in st = st - st(3) as expected, but
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   `fsub %st,%st(3)' results in st(3) = st - st(3), rather than
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   the expected st(3) = st(3) - st
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   This happens with all the non-commutative arithmetic floating point
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   operations with two register operands, where the source register is
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   %st, and destination register is %st(i).
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   The affected opcode map is dceX, dcfX, deeX, defX.  */
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#ifndef OPCODE_I386_H
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#define OPCODE_I386_H
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#ifndef SYSV386_COMPAT
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/* Set non-zero for broken, compatible instructions.  Set to zero for
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   non-broken opcodes at your peril.  gcc generates SystemV/386
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   compatible instructions.  */
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#define SYSV386_COMPAT 1
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#endif
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#ifndef OLDGCC_COMPAT
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/* Set non-zero to cater for old (<= 2.8.1) versions of gcc that could
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   generate nonsense fsubp, fsubrp, fdivp and fdivrp with operands
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   reversed.  */
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#define OLDGCC_COMPAT SYSV386_COMPAT
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#endif
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#define MOV_AX_DISP32 0xa0
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#define POP_SEG_SHORT 0x07
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#define JUMP_PC_RELATIVE 0xeb
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#define INT_OPCODE  0xcd
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#define INT3_OPCODE 0xcc
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/* The opcode for the fwait instruction, which disassembler treats as a
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   prefix when it can.  */
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#define FWAIT_OPCODE 0x9b
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/* Instruction prefixes.
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   NOTE: For certain SSE* instructions, 0x66,0xf2,0xf3 are treated as
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   part of the opcode.  Other prefixes may still appear between them
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   and the 0x0f part of the opcode.  */
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#define ADDR_PREFIX_OPCODE 0x67
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#define DATA_PREFIX_OPCODE 0x66
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#define LOCK_PREFIX_OPCODE 0xf0
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#define CS_PREFIX_OPCODE 0x2e
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#define DS_PREFIX_OPCODE 0x3e
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#define ES_PREFIX_OPCODE 0x26
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#define FS_PREFIX_OPCODE 0x64
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#define GS_PREFIX_OPCODE 0x65
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#define SS_PREFIX_OPCODE 0x36
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#define REPNE_PREFIX_OPCODE 0xf2
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#define REPE_PREFIX_OPCODE  0xf3
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#define XACQUIRE_PREFIX_OPCODE 0xf2
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#define XRELEASE_PREFIX_OPCODE 0xf3
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#define TWO_BYTE_OPCODE_ESCAPE 0x0f
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#define NOP_OPCODE (char) 0x90
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/* register numbers */
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#define EAX_REG_NUM 0
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#define ECX_REG_NUM 1
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#define EDX_REG_NUM 2
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#define EBX_REG_NUM 3
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#define ESP_REG_NUM 4
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#define EBP_REG_NUM 5
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#define ESI_REG_NUM 6
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#define EDI_REG_NUM 7
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/* modrm_byte.regmem for twobyte escape */
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#define ESCAPE_TO_TWO_BYTE_ADDRESSING ESP_REG_NUM
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/* index_base_byte.index for no index register addressing */
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#define NO_INDEX_REGISTER ESP_REG_NUM
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/* index_base_byte.base for no base register addressing */
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#define NO_BASE_REGISTER EBP_REG_NUM
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#define NO_BASE_REGISTER_16 6
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/* modrm.mode = REGMEM_FIELD_HAS_REG when a register is in there */
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#define REGMEM_FIELD_HAS_REG 0x3/* always = 0x3 */
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#define REGMEM_FIELD_HAS_MEM (~REGMEM_FIELD_HAS_REG)
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/* Extract fields from the mod/rm byte.  */
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#define MODRM_MOD_FIELD(modrm) (((modrm) >> 6) & 3)
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#define MODRM_REG_FIELD(modrm) (((modrm) >> 3) & 7)
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#define MODRM_RM_FIELD(modrm)  (((modrm) >> 0) & 7)
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/* Extract fields from the sib byte.  */
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#define SIB_SCALE_FIELD(sib) (((sib) >> 6) & 3)
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#define SIB_INDEX_FIELD(sib) (((sib) >> 3) & 7)
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#define SIB_BASE_FIELD(sib)  (((sib) >> 0) & 7)
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/* x86-64 extension prefix.  */
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#define REX_OPCODE      0x40
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/* Non-zero if OPCODE is the rex prefix.  */
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#define REX_PREFIX_P(opcode) (((opcode) & 0xf0) == REX_OPCODE)
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/* Indicates 64 bit operand size.  */
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#define REX_W   8
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/* High extension to reg field of modrm byte.  */
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#define REX_R   4
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/* High extension to SIB index field.  */
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#define REX_X   2
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/* High extension to base field of modrm or SIB, or reg field of opcode.  */
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#define REX_B   1
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/* max operands per insn */
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#define MAX_OPERANDS 5
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/* max immediates per insn (lcall, ljmp, insertq, extrq) */
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#define MAX_IMMEDIATE_OPERANDS 2
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/* max memory refs per insn (string ops) */
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#define MAX_MEMORY_OPERANDS 2
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/* max size of insn mnemonics.  */
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#define MAX_MNEM_SIZE 20
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/* max size of register name in insn mnemonics.  */
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#define MAX_REG_NAME_SIZE 8
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#endif /* OPCODE_I386_H */

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