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0271077eba
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@23216 91177308-0d34-0410-b5e6-96231b3b80d8
326 lines
12 KiB
C++
326 lines
12 KiB
C++
//===-- llvm/Target/TargetInstrInfo.h - Instruction Info --------*- C++ -*-===//
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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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//
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// This file describes the target machine instructions to the code generator.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_TARGET_TARGETINSTRINFO_H
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#define LLVM_TARGET_TARGETINSTRINFO_H
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#include "llvm/CodeGen/MachineBasicBlock.h"
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#include "llvm/Support/DataTypes.h"
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#include <vector>
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#include <cassert>
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namespace llvm {
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class MachineInstr;
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class TargetMachine;
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class Value;
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class Type;
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class Instruction;
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class Constant;
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class Function;
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class MachineCodeForInstruction;
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class TargetRegisterClass;
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//---------------------------------------------------------------------------
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// Data types used to define information about a single machine instruction
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//---------------------------------------------------------------------------
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typedef short MachineOpCode;
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typedef unsigned InstrSchedClass;
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//---------------------------------------------------------------------------
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// struct TargetInstrDescriptor:
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// Predefined information about each machine instruction.
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// Designed to initialized statically.
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//
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const unsigned M_NOP_FLAG = 1 << 0;
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const unsigned M_BRANCH_FLAG = 1 << 1;
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const unsigned M_CALL_FLAG = 1 << 2;
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const unsigned M_RET_FLAG = 1 << 3;
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const unsigned M_BARRIER_FLAG = 1 << 4;
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const unsigned M_DELAY_SLOT_FLAG = 1 << 5;
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const unsigned M_CC_FLAG = 1 << 6;
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const unsigned M_LOAD_FLAG = 1 << 7;
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const unsigned M_STORE_FLAG = 1 << 8;
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// M_2_ADDR_FLAG - 3-addr instructions which really work like 2-addr ones.
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const unsigned M_2_ADDR_FLAG = 1 << 9;
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// M_CONVERTIBLE_TO_3_ADDR - This is a M_2_ADDR_FLAG instruction which can be
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// changed into a 3-address instruction if the first two operands cannot be
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// assigned to the same register. The target must implement the
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// TargetInstrInfo::convertToThreeAddress method for this instruction.
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const unsigned M_CONVERTIBLE_TO_3_ADDR = 1 << 10;
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// This M_COMMUTABLE - is a 2- or 3-address instruction (of the form X = op Y,
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// Z), which produces the same result if Y and Z are exchanged.
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const unsigned M_COMMUTABLE = 1 << 11;
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// M_TERMINATOR_FLAG - Is this instruction part of the terminator for a basic
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// block? Typically this is things like return and branch instructions.
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// Various passes use this to insert code into the bottom of a basic block, but
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// before control flow occurs.
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const unsigned M_TERMINATOR_FLAG = 1 << 12;
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// M_USES_CUSTOM_DAG_SCHED_INSERTION - Set if this instruction requires custom
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// insertion support when the DAG scheduler is inserting it into a machine basic
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// block.
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const unsigned M_USES_CUSTOM_DAG_SCHED_INSERTION = 1 << 13;
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/// TargetOperandInfo - This holds information about one operand of a machine
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/// instruction, indicating the register class for register operands, etc.
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///
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class TargetOperandInfo {
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public:
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/// RegClass - This specifies the register class of the operand if the
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/// operand is a register. If not, this contains null.
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const TargetRegisterClass *RegClass;
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/// Currently no other information.
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};
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class TargetInstrDescriptor {
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public:
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const char * Name; // Assembly language mnemonic for the opcode.
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int numOperands; // Number of args; -1 if variable #args
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int resultPos; // Position of the result; -1 if no result
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unsigned maxImmedConst; // Largest +ve constant in IMMED field or 0.
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bool immedIsSignExtended; // Is IMMED field sign-extended? If so,
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// smallest -ve value is -(maxImmedConst+1).
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unsigned numDelaySlots; // Number of delay slots after instruction
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unsigned latency; // Latency in machine cycles
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InstrSchedClass schedClass; // enum identifying instr sched class
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unsigned Flags; // flags identifying machine instr class
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unsigned TSFlags; // Target Specific Flag values
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const unsigned *ImplicitUses; // Registers implicitly read by this instr
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const unsigned *ImplicitDefs; // Registers implicitly defined by this instr
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const TargetOperandInfo *OpInfo; // 'numOperands' entries about operands.
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};
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//---------------------------------------------------------------------------
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///
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/// TargetInstrInfo - Interface to description of machine instructions
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///
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class TargetInstrInfo {
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const TargetInstrDescriptor* desc; // raw array to allow static init'n
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unsigned NumOpcodes; // number of entries in the desc array
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unsigned numRealOpCodes; // number of non-dummy op codes
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TargetInstrInfo(const TargetInstrInfo &); // DO NOT IMPLEMENT
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void operator=(const TargetInstrInfo &); // DO NOT IMPLEMENT
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public:
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TargetInstrInfo(const TargetInstrDescriptor *desc, unsigned NumOpcodes);
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virtual ~TargetInstrInfo();
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// Invariant: All instruction sets use opcode #0 as the PHI instruction
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enum { PHI = 0 };
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unsigned getNumOpcodes() const { return NumOpcodes; }
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/// get - Return the machine instruction descriptor that corresponds to the
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/// specified instruction opcode.
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///
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const TargetInstrDescriptor& get(MachineOpCode Opcode) const {
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assert((unsigned)Opcode < NumOpcodes);
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return desc[Opcode];
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}
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const char *getName(MachineOpCode Opcode) const {
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return get(Opcode).Name;
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}
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int getNumOperands(MachineOpCode Opcode) const {
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return get(Opcode).numOperands;
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}
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InstrSchedClass getSchedClass(MachineOpCode Opcode) const {
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return get(Opcode).schedClass;
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}
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const unsigned *getImplicitUses(MachineOpCode Opcode) const {
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return get(Opcode).ImplicitUses;
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}
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const unsigned *getImplicitDefs(MachineOpCode Opcode) const {
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return get(Opcode).ImplicitDefs;
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}
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//
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// Query instruction class flags according to the machine-independent
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// flags listed above.
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//
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bool isReturn(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_RET_FLAG;
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}
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bool isTwoAddrInstr(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_2_ADDR_FLAG;
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}
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bool isTerminatorInstr(unsigned Opcode) const {
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return get(Opcode).Flags & M_TERMINATOR_FLAG;
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}
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bool isBranch(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_BRANCH_FLAG;
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}
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/// isBarrier - Returns true if the specified instruction stops control flow
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/// from executing the instruction immediately following it. Examples include
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/// unconditional branches and return instructions.
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bool isBarrier(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_BARRIER_FLAG;
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}
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bool isCall(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_CALL_FLAG;
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}
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bool isLoad(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_LOAD_FLAG;
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}
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bool isStore(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_STORE_FLAG;
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}
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/// usesCustomDAGSchedInsertionHook - Return true if this instruction requires
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/// custom insertion support when the DAG scheduler is inserting it into a
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/// machine basic block.
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bool usesCustomDAGSchedInsertionHook(unsigned Opcode) const {
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return get(Opcode).Flags & M_USES_CUSTOM_DAG_SCHED_INSERTION;
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}
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/// Return true if the instruction is a register to register move
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/// and leave the source and dest operands in the passed parameters.
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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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return false;
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}
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/// convertToThreeAddress - This method must be implemented by targets that
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/// set the M_CONVERTIBLE_TO_3_ADDR flag. When this flag is set, the target
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/// may be able to convert a two-address instruction into a true
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/// three-address instruction on demand. This allows the X86 target (for
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/// example) to convert ADD and SHL instructions into LEA instructions if they
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/// would require register copies due to two-addressness.
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///
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/// This method returns a null pointer if the transformation cannot be
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/// performed, otherwise it returns the new instruction.
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///
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virtual MachineInstr *convertToThreeAddress(MachineInstr *TA) const {
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return 0;
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}
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/// commuteInstruction - If a target has any instructions that are commutable,
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/// but require converting to a different instruction or making non-trivial
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/// changes to commute them, this method can overloaded to do this. The
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/// default implementation of this method simply swaps the first two operands
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/// of MI and returns it.
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///
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/// If a target wants to make more aggressive changes, they can construct and
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/// return a new machine instruction. If an instruction cannot commute, it
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/// can also return null.
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///
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virtual MachineInstr *commuteInstruction(MachineInstr *MI) const;
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/// Insert a goto (unconditional branch) sequence to TMBB, at the
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/// end of MBB
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virtual void insertGoto(MachineBasicBlock& MBB,
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MachineBasicBlock& TMBB) const {
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assert(0 && "Target didn't implement insertGoto!");
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}
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/// Reverses the branch condition of the MachineInstr pointed by
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/// MI. The instruction is replaced and the new MI is returned.
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virtual MachineBasicBlock::iterator
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reverseBranchCondition(MachineBasicBlock::iterator MI) const {
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assert(0 && "Target didn't implement reverseBranchCondition!");
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abort();
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return MI;
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}
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//-------------------------------------------------------------------------
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// Code generation support for creating individual machine instructions
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//
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// WARNING: These methods are Sparc specific
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//
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// DO NOT USE ANY OF THESE METHODS THEY ARE DEPRECATED!
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//
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//-------------------------------------------------------------------------
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unsigned getNumDelaySlots(MachineOpCode Opcode) const {
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return get(Opcode).numDelaySlots;
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}
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bool isCCInstr(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_CC_FLAG;
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}
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bool isNop(MachineOpCode Opcode) const {
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return get(Opcode).Flags & M_NOP_FLAG;
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}
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/// hasDelaySlot - Returns true if the specified instruction has a delay slot
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/// which must be filled by the code generator.
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bool hasDelaySlot(unsigned Opcode) const {
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return get(Opcode).Flags & M_DELAY_SLOT_FLAG;
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}
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virtual bool hasResultInterlock(MachineOpCode Opcode) const {
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return true;
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}
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//
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// Latencies for individual instructions and instruction pairs
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//
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virtual int minLatency(MachineOpCode Opcode) const {
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return get(Opcode).latency;
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}
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virtual int maxLatency(MachineOpCode Opcode) const {
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return get(Opcode).latency;
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}
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//
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// Which operand holds an immediate constant? Returns -1 if none
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//
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virtual int getImmedConstantPos(MachineOpCode Opcode) const {
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return -1; // immediate position is machine specific, so say -1 == "none"
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}
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// Check if the specified constant fits in the immediate field
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// of this machine instruction
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//
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virtual bool constantFitsInImmedField(MachineOpCode Opcode,
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int64_t intValue) const;
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// Return the largest positive constant that can be held in the IMMED field
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// of this machine instruction.
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// isSignExtended is set to true if the value is sign-extended before use
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// (this is true for all immediate fields in SPARC instructions).
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// Return 0 if the instruction has no IMMED field.
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//
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virtual uint64_t maxImmedConstant(MachineOpCode Opcode,
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bool &isSignExtended) const {
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isSignExtended = get(Opcode).immedIsSignExtended;
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return get(Opcode).maxImmedConst;
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}
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};
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} // End llvm namespace
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#endif
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