2003-12-20 01:22:19 +00:00
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//===- X86InstrInfo.h - X86 Instruction Information ------------*- C++ -*- ===//
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2003-10-21 15:17:13 +00:00
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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2002-10-25 22:55:53 +00:00
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//
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2003-01-14 22:00:31 +00:00
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// This file contains the X86 implementation of the TargetInstrInfo class.
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2002-10-25 22:55:53 +00:00
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//
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//===----------------------------------------------------------------------===//
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#ifndef X86INSTRUCTIONINFO_H
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#define X86INSTRUCTIONINFO_H
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2003-01-14 22:00:31 +00:00
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#include "llvm/Target/TargetInstrInfo.h"
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2002-10-25 22:55:53 +00:00
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#include "X86RegisterInfo.h"
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2003-11-11 22:41:34 +00:00
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namespace llvm {
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2002-10-30 01:09:34 +00:00
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/// X86II - This namespace holds all of the target specific flags that
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/// instruction info tracks.
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///
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namespace X86II {
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enum {
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2002-11-18 05:37:11 +00:00
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//===------------------------------------------------------------------===//
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// Instruction types. These are the standard/most common forms for X86
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// instructions.
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//
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2002-12-25 05:09:59 +00:00
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// PseudoFrm - This represents an instruction that is a pseudo instruction
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// or one that has not been implemented yet. It is illegal to code generate
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// it, but tolerated for intermediate implementation stages.
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Pseudo = 0,
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/// Raw - This form is for instructions that don't have any operands, so
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/// they are just a fixed opcode value, like 'leave'.
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RawFrm = 1,
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/// AddRegFrm - This form is used for instructions like 'push r32' that have
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/// their one register operand added to their opcode.
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AddRegFrm = 2,
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/// MRMDestReg - This form is used for instructions that use the Mod/RM byte
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/// to specify a destination, which in this case is a register.
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///
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MRMDestReg = 3,
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/// MRMDestMem - This form is used for instructions that use the Mod/RM byte
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/// to specify a destination, which in this case is memory.
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///
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MRMDestMem = 4,
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/// MRMSrcReg - This form is used for instructions that use the Mod/RM byte
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/// to specify a source, which in this case is a register.
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///
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MRMSrcReg = 5,
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/// MRMSrcMem - This form is used for instructions that use the Mod/RM byte
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/// to specify a source, which in this case is memory.
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///
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MRMSrcMem = 6,
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2002-11-21 17:08:49 +00:00
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/// MRMS[0-7][rm] - These forms are used to represent instructions that use
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/// a Mod/RM byte, and use the middle field to hold extended opcode
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/// information. In the intel manual these are represented as /0, /1, ...
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///
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// First, instructions that operate on a register r/m operand...
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MRMS0r = 16, MRMS1r = 17, MRMS2r = 18, MRMS3r = 19, // Format /0 /1 /2 /3
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MRMS4r = 20, MRMS5r = 21, MRMS6r = 22, MRMS7r = 23, // Format /4 /5 /6 /7
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// Next, instructions that operate on a memory r/m operand...
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MRMS0m = 24, MRMS1m = 25, MRMS2m = 26, MRMS3m = 27, // Format /0 /1 /2 /3
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MRMS4m = 28, MRMS5m = 29, MRMS6m = 30, MRMS7m = 31, // Format /4 /5 /6 /7
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2002-11-21 17:08:49 +00:00
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FormMask = 31,
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//===------------------------------------------------------------------===//
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// Actual flags...
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2002-11-21 01:32:55 +00:00
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// OpSize - Set if this instruction requires an operand size prefix (0x66),
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// which most often indicates that the instruction operates on 16 bit data
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// instead of 32 bit data.
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OpSize = 1 << 5,
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// Op0Mask - There are several prefix bytes that are used to form two byte
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// opcodes. These are currently 0x0F, and 0xD8-0xDF. This mask is used to
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// obtain the setting of this field. If no bits in this field is set, there
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// is no prefix byte for obtaining a multibyte opcode.
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//
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Op0Shift = 6,
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Op0Mask = 0xF << Op0Shift,
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// TB - TwoByte - Set if this instruction has a two byte opcode, which
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// starts with a 0x0F byte before the real opcode.
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TB = 1 << Op0Shift,
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// D8-DF - These escape opcodes are used by the floating point unit. These
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// values must remain sequential.
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D8 = 2 << Op0Shift, D9 = 3 << Op0Shift,
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DA = 4 << Op0Shift, DB = 5 << Op0Shift,
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DC = 6 << Op0Shift, DD = 7 << Op0Shift,
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DE = 8 << Op0Shift, DF = 9 << Op0Shift,
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2003-01-13 00:49:24 +00:00
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//===------------------------------------------------------------------===//
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// This three-bit field describes the size of a memory operand. Zero is
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// unused so that we can tell if we forgot to set a value.
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ArgShift = 10,
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ArgMask = 7 << ArgShift,
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Arg8 = 1 << ArgShift,
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Arg16 = 2 << ArgShift,
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Arg32 = 3 << ArgShift,
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Arg64 = 4 << ArgShift, // 64 bit int argument for FILD64
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ArgF32 = 5 << ArgShift,
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ArgF64 = 6 << ArgShift,
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ArgF80 = 7 << ArgShift,
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2003-01-13 00:49:24 +00:00
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//===------------------------------------------------------------------===//
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// FP Instruction Classification... Zero is non-fp instruction.
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// FPTypeMask - Mask for all of the FP types...
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FPTypeShift = 13,
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FPTypeMask = 7 << FPTypeShift,
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2004-01-30 22:24:18 +00:00
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// NotFP - The default, set for instructions that do not use FP registers.
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NotFP = 0 << FPTypeShift,
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// ZeroArgFP - 0 arg FP instruction which implicitly pushes ST(0), f.e. fld0
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ZeroArgFP = 1 << FPTypeShift,
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// OneArgFP - 1 arg FP instructions which implicitly read ST(0), such as fst
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OneArgFP = 2 << FPTypeShift,
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// OneArgFPRW - 1 arg FP instruction which implicitly read ST(0) and write a
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// result back to ST(0). For example, fcos, fsqrt, etc.
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//
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OneArgFPRW = 3 << FPTypeShift,
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// TwoArgFP - 2 arg FP instructions which implicitly read ST(0), and an
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// explicit argument, storing the result to either ST(0) or the implicit
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// argument. For example: fadd, fsub, fmul, etc...
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TwoArgFP = 4 << FPTypeShift,
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// SpecialFP - Special instruction forms. Dispatch by opcode explicitly.
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SpecialFP = 5 << FPTypeShift,
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2003-06-27 00:00:48 +00:00
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// PrintImplUses - Print out implicit uses in the assembly output.
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PrintImplUses = 1 << 16,
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OpcodeShift = 17,
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OpcodeMask = 0xFF << OpcodeShift,
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// Bits 25 -> 31 are unused
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};
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}
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class X86InstrInfo : public TargetInstrInfo {
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const X86RegisterInfo RI;
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public:
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X86InstrInfo();
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/// getRegisterInfo - TargetInstrInfo is a superset of MRegister info. As
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/// such, whenever a client has an instance of instruction info, it should
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/// always be able to get register info as well (through this method).
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///
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virtual const MRegisterInfo &getRegisterInfo() const { return RI; }
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2003-05-24 00:09:50 +00:00
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/// createNOPinstr - returns the target's implementation of NOP, which is
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/// usually a pseudo-instruction, implemented by a degenerate version of
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/// another instruction, e.g. X86: `xchg ax, ax'; SparcV9: `sethi r0, r0, r0'
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///
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MachineInstr* createNOPinstr() const;
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2003-12-28 17:35:08 +00:00
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//
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// Return true if the instruction is a register to register move and
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// leave the source and dest operands in the passed parameters.
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//
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virtual bool isMoveInstr(const MachineInstr& MI,
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unsigned& sourceReg,
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unsigned& destReg) const;
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2003-05-24 01:08:43 +00:00
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/// isNOPinstr - not having a special NOP opcode, we need to know if a given
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/// instruction is interpreted as an `official' NOP instr, i.e., there may be
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/// more than one way to `do nothing' but only one canonical way to slack off.
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///
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bool isNOPinstr(const MachineInstr &MI) const;
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2002-11-18 06:56:24 +00:00
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// getBaseOpcodeFor - This function returns the "base" X86 opcode for the
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// specified opcode number.
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//
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2003-08-03 21:56:22 +00:00
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unsigned char getBaseOpcodeFor(unsigned Opcode) const {
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return get(Opcode).TSFlags >> X86II::OpcodeShift;
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}
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};
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2003-11-11 22:41:34 +00:00
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} // End llvm namespace
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2002-10-25 22:55:53 +00:00
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#endif
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