0834f5184d
Added INSN_COND_BRANCH_LIKELY, INSN_ISA2 and INSN_ISA3. Split INSN_LOAD_DELAY into INSN_LOAD_MEMORY_DELAY and INSN_LOAD_COPROC_DELAY. Split INSN_COPROC_DELAY into INSN_COPROC_MOVE_DELAY and INSN_COPROC_MEMORY_DELAY. (M_*): Added new values for r6000 and r4000 macros. (ANY_DELAY): Removed.
444 lines
12 KiB
C
444 lines
12 KiB
C
/* mips.h. Mips opcode list for GDB, the GNU debugger.
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Copyright 1993 Free Software Foundation, Inc.
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Contributed by Ralph Campbell and OSF
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Commented and modified by Ian Lance Taylor, Cygnus Support
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This file is part of GDB, GAS, and the GNU binutils.
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GDB, GAS, and the GNU binutils are free software; you can redistribute
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them and/or modify them under the terms of the GNU General Public
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License as published by the Free Software Foundation; either version
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1, or (at your option) any later version.
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GDB, GAS, and the GNU binutils are distributed in the hope that they
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will be useful, but WITHOUT ANY WARRANTY; without even the implied
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warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See
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the 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 file; see the file COPYING. If not, write to the Free
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Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
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/* These are bit masks and shift counts to use to access the various
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fields of an instruction. To retrieve the X field of an
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instruction, use the expression
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(i >> OP_SH_X) & OP_MASK_X
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To set the same field (to j), use
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i = (i &~ (OP_MASK_X << OP_SH_X)) | (j << OP_SH_X)
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Make sure you use fields that are appropriate for the instruction,
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of course.
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The 'i' format uses OP, RS, RT and IMMEDIATE.
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The 'j' format uses OP and TARGET.
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The 'r' format uses OP, RS, RT, RD, SHAMT and FUNCT.
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The 'b' format uses OP, RS, RT and DELTA.
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The floating point 'i' format uses OP, RS, RT and IMMEDIATE.
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The floating point 'r' format uses OP, FMT, FT, FS, FD and FUNCT.
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A breakpoint instruction uses OP, CODE and SPEC (10 bits of the
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breakpoint instruction are not defined; Kane says the breakpoint
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code field in BREAK is 20 bits; yet MIPS assemblers and debuggers
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only use ten bits).
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The syscall instruction uses SYSCALL.
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The general coprocessor instructions use COPZ. */
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#define OP_MASK_OP 0x3f
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#define OP_SH_OP 26
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#define OP_MASK_RS 0x1f
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#define OP_SH_RS 21
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#define OP_MASK_FMT 0x1f
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#define OP_SH_FMT 21
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#define OP_MASK_CODE 0x3ff
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#define OP_SH_CODE 16
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#define OP_MASK_RT 0x1f
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#define OP_SH_RT 16
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#define OP_MASK_FT 0x1f
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#define OP_SH_FT 16
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#define OP_MASK_RD 0x1f
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#define OP_SH_RD 11
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#define OP_MASK_FS 0x1f
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#define OP_SH_FS 11
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#define OP_MASK_SYSCALL 0xfffff
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#define OP_SH_SYSCALL 6
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#define OP_MASK_SHAMT 0x1f
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#define OP_SH_SHAMT 6
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#define OP_MASK_FD 0x1f
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#define OP_SH_FD 6
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#define OP_MASK_TARGET 0x3ffffff
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#define OP_SH_TARGET 0
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#define OP_MASK_COPZ 0x1ffffff
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#define OP_SH_COPZ 0
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#define OP_MASK_IMMEDIATE 0xffff
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#define OP_SH_IMMEDIATE 0
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#define OP_MASK_DELTA 0xffff
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#define OP_SH_DELTA 0
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#define OP_MASK_FUNCT 0x3f
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#define OP_SH_FUNCT 0
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#define OP_MASK_SPEC 0x3f
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#define OP_SH_SPEC 0
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/* This structure holds information for a particular instruction. */
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struct mips_opcode
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{
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/* The name of the instruction. */
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const char *name;
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/* A string describing the arguments for this instruction. */
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const char *args;
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/* The basic opcode for the instruction. When assembling, this
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opcode is modified by the arguments to produce the actual opcode
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that is used. If pinfo is INSN_MACRO, then this is instead the
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ISA level of the macro (0 or 1 is always supported, 2 is ISA 2,
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etc.). */
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unsigned long match;
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/* If pinfo is not INSN_MACRO, then this is a bit mask for the
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relevant portions of the opcode when disassembling. If the
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actual opcode anded with the match field equals the opcode field,
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then we have found the correct instruction. If pinfo is
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INSN_MACRO, then this field is the macro identifier. */
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unsigned long mask;
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/* For a macro, this is INSN_MACRO. Otherwise, it is a collection
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of bits describing the instruction, notably any relevant hazard
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information. */
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unsigned long pinfo;
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};
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/* These are the characters which may appears in the args field of an
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instruction. They appear in the order in which the fields appear
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when the instruction is used. Commas and parentheses in the args
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string are ignored when assembling, and written into the output
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when disassembling.
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Each of these characters corresponds to a mask field defined above.
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"<" 5 bit shift amount (OP_*_SHAMT)
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"a" 26 bit target address (OP_*_TARGET)
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"b" 5 bit base register (OP_*_RS)
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"c" 10 bit breakpoint code (OP_*_CODE)
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"d" 5 bit destination register specifier (OP_*_RD)
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"i" 16 bit unsigned immediate (OP_*_IMMEDIATE)
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"j" 16 bit signed immediate (OP_*_DELTA)
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"o" 16 bit signed offset (OP_*_DELTA)
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"p" 16 bit PC relative branch target address (OP_*_DELTA)
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"r" 5 bit same register used as both source and target (OP_*_RS)
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"s" 5 bit source register specifier (OP_*_RS)
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"t" 5 bit target register (OP_*_RT)
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"u" 16 bit upper 16 bits of address (OP_*_IMMEDIATE)
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"v" 5 bit same register used as both source and destination (OP_*_RS)
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"w" 5 bit same register used as both target and destination (OP_*_RT)
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"C" 25 bit coprocessor function code (OP_*_COPZ)
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"B" 20 bit syscall function code (OP_*_SYSCALL)
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"x" accept and ignore register name
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Floating point instructions:
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"D" 5 bit destination register (OP_*_FD)
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"S" 5 bit fs source 1 register (OP_*_FS)
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"T" 5 bit ft source 2 register (OP_*_FT)
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"V" 5 bit same register used as floating source and destination (OP_*_FS)
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"W" 5 bit same register used as floating target and destination (OP_*_FT)
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Coprocessor instructions:
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"E" 5 bit target register (OP_*_RT)
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"G" 5 bit destination register (OP_*_RD)
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Macro instructions:
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"A" General 32 bit expression
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"I" 32 bit immediate
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"F" 64 bit floating point constant in .rdata
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"L" 64 bit floating point constant in .lit8
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"f" 32 bit floating point constant
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"l" 32 bit floating point constant in .lit4
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*/
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/* These are the bits which may be set in the pinfo field of an
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instructions, if it is not equal to INSN_MACRO. */
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/* Modifies the general purpose register in OP_*_RD. */
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#define INSN_WRITE_GPR_D 0x00000001
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/* Modifies the general purpose register in OP_*_RT. */
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#define INSN_WRITE_GPR_T 0x00000002
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/* Modifies general purpose register 31. */
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#define INSN_WRITE_GPR_31 0x00000004
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/* Modifies the floating point register in OP_*_FD. */
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#define INSN_WRITE_FPR_D 0x00000008
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/* Modifies the floating point register in OP_*_FS. */
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#define INSN_WRITE_FPR_S 0x00000010
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/* Modifies the floating point register in OP_*_FT. */
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#define INSN_WRITE_FPR_T 0x00000020
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/* Reads the general purpose register in OP_*_RS. */
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#define INSN_READ_GPR_S 0x00000040
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/* Reads the general purpose register in OP_*_RT. */
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#define INSN_READ_GPR_T 0x00000080
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/* Reads the floating point register in OP_*_FS. */
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#define INSN_READ_FPR_S 0x00000100
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/* Reads the floating point register in OP_*_FT. */
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#define INSN_READ_FPR_T 0x00000200
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/* Modifies coprocessor condition code. */
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#define INSN_WRITE_COND_CODE 0x00000400
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/* Reads coprocessor condition code. */
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#define INSN_READ_COND_CODE 0x00000800
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/* TLB operation. */
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#define INSN_TLB 0x00001000
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/* RFE (return from exception) instruction. */
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#define INSN_RFE 0x00002000
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/* Reads coprocessor register other than floating point register. */
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#define INSN_COP 0x00004000
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/* Instruction loads value from memory, requiring delay. */
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#define INSN_LOAD_MEMORY_DELAY 0x00008000
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/* Instruction loads value from coprocessor, requiring delay. */
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#define INSN_LOAD_COPROC_DELAY 0x00010000
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/* Instruction has unconditional branch delay slot. */
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#define INSN_UNCOND_BRANCH_DELAY 0x00020000
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/* Instruction has conditional branch delay slot. */
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#define INSN_COND_BRANCH_DELAY 0x00040000
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/* Conditional branch likely: if branch not taken, insn nullified. */
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#define INSN_COND_BRANCH_LIKELY 0x00080000
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/* Moves to coprocessor register, requiring delay. */
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#define INSN_COPROC_MOVE_DELAY 0x00100000
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/* Loads coprocessor register from memory, requiring delay. */
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#define INSN_COPROC_MEMORY_DELAY 0x00200000
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/* Reads the HI register. */
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#define INSN_READ_HI 0x00400000
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/* Reads the LO register. */
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#define INSN_READ_LO 0x00800000
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/* Modifies the HI register. */
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#define INSN_WRITE_HI 0x01000000
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/* Modifies the LO register. */
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#define INSN_WRITE_LO 0x02000000
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/* Takes a trap (FIXME: why is this interesting?). */
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#define INSN_TRAP 0x04000000
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/* MIPS ISA 2 instruction (R6000 or R4000). */
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#define INSN_ISA2 0x10000000
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/* MIPS ISA 3 instruction (R4000). */
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#define INSN_ISA3 0x20000000
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/* Instruction is actually a macro. It should be ignored by the
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disassembler, and requires special treatment by the assembler. */
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#define INSN_MACRO 0xffffffff
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/* This is a list of macro expanded instructions.
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*
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* _I appended means immediate
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* _A appended means address
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* _AB appended means address with base register
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* _D appended means 64 bit floating point constant
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* _S appended means 32 bit floating point constant
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*/
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enum {
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M_ABS,
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M_ABSU,
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M_ADD_I,
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M_ADDU_I,
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M_AND_I,
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M_BEQ_I,
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M_BEQL_I,
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M_BGE,
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M_BGEL,
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M_BGE_I,
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M_BGEL_I,
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M_BGEU,
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M_BGEUL,
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M_BGEU_I,
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M_BGEUL_I,
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M_BGT,
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M_BGTL,
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M_BGT_I,
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M_BGTL_I,
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M_BGTU,
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M_BGTUL,
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M_BGTU_I,
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M_BGTUL_I,
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M_BLE,
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M_BLEL,
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M_BLE_I,
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M_BLEL_I,
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M_BLEU,
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M_BLEUL,
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M_BLEU_I,
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M_BLEUL_I,
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M_BLT,
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M_BLTL,
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M_BLT_I,
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M_BLTL_I,
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M_BLTU,
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M_BLTUL,
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M_BLTU_I,
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M_BLTUL_I,
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M_BNE_I,
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M_BNEL_I,
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M_DADD_I,
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M_DADDU_I,
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M_DDIV_3,
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M_DDIV_3I,
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M_DDIVU_3,
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M_DDIVU_3I,
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M_DIV_3,
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M_DIV_3I,
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M_DIVU_3,
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M_DIVU_3I,
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M_DMUL,
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M_DMUL_I,
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M_DMULO,
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M_DMULO_I,
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M_DMULOU,
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M_DMULOU_I,
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M_DREM_3,
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M_DREM_3I,
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M_DREMU_3,
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M_DREMU_3I,
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M_DSUB_I,
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M_DSUBU_I,
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M_L_DOB,
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M_L_DAB,
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M_LA,
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M_LA_AB,
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M_LB_A,
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M_LB_AB,
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M_LBU_A,
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M_LBU_AB,
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M_LD_A,
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M_LD_OB,
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M_LD_AB,
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M_LDC1_AB,
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M_LDC2_AB,
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M_LDC3_AB,
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M_LDL_AB,
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M_LDR_AB,
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M_LH_A,
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M_LH_AB,
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M_LHU_A,
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M_LHU_AB,
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M_LI,
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M_LI_D,
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M_LI_DD,
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M_LI_S,
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M_LI_SS,
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M_LL_AB,
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M_LLD_AB,
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M_LS_A,
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M_LW_A,
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M_LW_AB,
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M_LWC0_A,
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M_LWC0_AB,
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M_LWC1_A,
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M_LWC1_AB,
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M_LWC2_A,
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M_LWC2_AB,
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M_LWC3_A,
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M_LWC3_AB,
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M_LWL_A,
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M_LWL_AB,
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M_LWR_A,
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M_LWR_AB,
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M_LWU_AB,
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M_MUL,
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M_MUL_I,
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M_MULO,
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M_MULO_I,
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M_MULOU,
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M_MULOU_I,
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M_NOR_I,
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M_OR_I,
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M_REM_3,
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M_REM_3I,
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M_REMU_3,
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M_REMU_3I,
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M_ROL,
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M_ROL_I,
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M_ROR,
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M_ROR_I,
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M_S_DA,
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M_S_DOB,
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M_S_DAB,
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M_S_S,
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M_SC_AB,
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M_SCD_AB,
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M_SD_A,
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M_SD_OB,
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M_SD_AB,
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M_SDC1_AB,
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M_SDC2_AB,
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M_SDC3_AB,
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M_SDL_AB,
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M_SDR_AB,
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M_SEQ,
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M_SEQ_I,
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M_SGE,
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M_SGE_I,
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M_SGEU,
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M_SGEU_I,
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M_SGT,
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M_SGT_I,
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M_SGTU,
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M_SGTU_I,
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M_SLE,
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M_SLE_I,
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M_SLEU,
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M_SLEU_I,
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M_SLT_I,
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M_SLTU_I,
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M_SNE,
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M_SNE_I,
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M_SB_A,
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M_SB_AB,
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M_SH_A,
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M_SH_AB,
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M_SW_A,
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M_SW_AB,
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M_SWC0_A,
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M_SWC0_AB,
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M_SWC1_A,
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M_SWC1_AB,
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M_SWC2_A,
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M_SWC2_AB,
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M_SWC3_A,
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M_SWC3_AB,
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M_SWL_A,
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M_SWL_AB,
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M_SWR_A,
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M_SWR_AB,
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M_SUB_I,
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M_SUBU_I,
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M_TEQ_I,
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M_TGE_I,
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M_TGEU_I,
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M_TLT_I,
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M_TLTU_I,
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M_TNE_I,
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M_TRUNCWD,
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M_TRUNCWS,
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M_ULH,
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M_ULH_A,
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M_ULHU,
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M_ULHU_A,
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M_ULW,
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M_ULW_A,
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M_USH,
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M_USH_A,
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M_USW,
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M_USW_A,
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M_XOR_I
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};
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/* The order of overloaded instructions matters. Label arguments and
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register arguments look the same. Instructions that can have either
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for arguments must apear in the correct order in this table for the
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assembler to pick the right one. In other words, entries with
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immediate operands must apear after the same instruction with
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registers.
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Many instructions are short hand for other instructions (i.e., The
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jal <register> instruction is short for jalr <register>). */
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extern const struct mips_opcode mips_opcodes[];
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extern const int bfd_mips_num_opcodes;
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#define NUMOPCODES bfd_mips_num_opcodes
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