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--Ruchira git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@505 91177308-0d34-0410-b5e6-96231b3b80d8
801 lines
24 KiB
C++
801 lines
24 KiB
C++
// $Id$ -*-c++-*-
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//***************************************************************************
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// File:
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// TargetMachine.h
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//
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// Purpose:
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//
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// History:
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// 7/12/01 - Vikram Adve - Created
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//**************************************************************************/
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#ifndef LLVM_CODEGEN_TARGETMACHINE_H
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#define LLVM_CODEGEN_TARGETMACHINE_H
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//*********************** System Include Files *****************************/
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#include <string>
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#include <vector>
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#include <hash_map>
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#include <hash_set>
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#include <algorithm>
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//************************ User Include Files *****************************/
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#include "llvm/CodeGen/TargetData.h"
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#include "llvm/Support/NonCopyable.h"
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#include "llvm/Support/DataTypes.h"
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//************************ Opaque Declarations*****************************/
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class Type;
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class StructType;
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struct MachineInstrDescriptor;
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class TargetMachine;
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//************************ Exported Data Types *****************************/
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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 int MachineOpCode;
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typedef int OpCodeMask;
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typedef int InstrSchedClass;
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static const unsigned MAX_OPCODE_SIZE = 16;
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typedef long long cycles_t;
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const cycles_t HUGE_LATENCY = ~((unsigned long long) 1 << sizeof(cycles_t)-1);
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const cycles_t INVALID_LATENCY = -HUGE_LATENCY;
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class OpCodePair {
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public:
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long val; // make long by concatenating two opcodes
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OpCodePair(MachineOpCode op1, MachineOpCode op2)
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: val((op1 < 0 || op2 < 0)?
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-1 : (long)((((unsigned) op1) << MAX_OPCODE_SIZE) | (unsigned) op2)) {}
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bool operator==(const OpCodePair& op) const {
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return val == op.val;
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}
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private:
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OpCodePair(); // disable for now
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};
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template <> struct hash<OpCodePair> {
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size_t operator()(const OpCodePair& pair) const {
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return hash<long>()(pair.val);
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}
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};
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// Global variable holding an array of descriptors for machine instructions.
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// The actual object needs to be created separately for each target machine.
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// This variable is initialized and reset by class MachineInstrInfo.
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//
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extern const MachineInstrDescriptor* TargetInstrDescriptors;
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//---------------------------------------------------------------------------
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// struct MachineInstrDescriptor:
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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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// class MachineInstructionInfo
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// Interface to description of machine instructions
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//
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//---------------------------------------------------------------------------
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const unsigned int M_NOP_FLAG = 1;
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const unsigned int M_BRANCH_FLAG = 1 << 1;
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const unsigned int M_CALL_FLAG = 1 << 2;
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const unsigned int M_RET_FLAG = 1 << 3;
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const unsigned int M_ARITH_FLAG = 1 << 4;
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const unsigned int M_CC_FLAG = 1 << 6;
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const unsigned int M_LOGICAL_FLAG = 1 << 6;
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const unsigned int M_INT_FLAG = 1 << 7;
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const unsigned int M_FLOAT_FLAG = 1 << 8;
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const unsigned int M_CONDL_FLAG = 1 << 9;
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const unsigned int M_LOAD_FLAG = 1 << 10;
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const unsigned int M_PREFETCH_FLAG = 1 << 11;
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const unsigned int M_STORE_FLAG = 1 << 12;
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const unsigned int M_DUMMY_PHI_FLAG = 1 << 13;
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struct MachineInstrDescriptor {
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string opCodeString; // 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 int maxImmedConst; // Largest +ve constant in IMMMED 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 int numDelaySlots; // Number of delay slots after instruction
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unsigned int latency; // Latency in machine cycles
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InstrSchedClass schedClass; // enum identifying instr sched class
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unsigned int iclass; // flags identifying machine instr class
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};
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class MachineInstrInfo : public NonCopyableV {
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protected:
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const MachineInstrDescriptor* desc; // raw array to allow static init'n
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unsigned int descSize; // number of entries in the desc array
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unsigned int numRealOpCodes; // number of non-dummy op codes
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public:
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/*ctor*/ MachineInstrInfo(const MachineInstrDescriptor* _desc,
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unsigned int _descSize,
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unsigned int _numRealOpCodes);
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/*dtor*/ virtual ~MachineInstrInfo();
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unsigned int getNumRealOpCodes() const {
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return numRealOpCodes;
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}
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unsigned int getNumTotalOpCodes() const {
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return descSize;
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}
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const MachineInstrDescriptor& getDescriptor(MachineOpCode opCode) const {
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assert(opCode >= 0 && opCode < (int) descSize);
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return desc[opCode];
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}
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int getNumOperands (MachineOpCode opCode) const {
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return getDescriptor(opCode).numOperands;
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}
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int getResultPos (MachineOpCode opCode) const {
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return getDescriptor(opCode).resultPos;
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}
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unsigned int getNumDelaySlots(MachineOpCode opCode) const {
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return getDescriptor(opCode).numDelaySlots;
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}
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InstrSchedClass getSchedClass (MachineOpCode opCode) const {
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return getDescriptor(opCode).schedClass;
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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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unsigned int getIClass (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass;
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}
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bool isNop (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_NOP_FLAG;
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}
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bool isBranch (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_BRANCH_FLAG;
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}
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bool isCall (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_CALL_FLAG;
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}
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bool isReturn (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_RET_FLAG;
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}
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bool isControlFlow (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_BRANCH_FLAG
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|| getDescriptor(opCode).iclass & M_CALL_FLAG
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|| getDescriptor(opCode).iclass & M_RET_FLAG;
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}
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bool isArith (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_RET_FLAG;
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}
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bool isCCInstr (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_CC_FLAG;
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}
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bool isLogical (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_LOGICAL_FLAG;
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}
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bool isIntInstr (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_INT_FLAG;
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}
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bool isFloatInstr (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_FLOAT_FLAG;
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}
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bool isConditional (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_CONDL_FLAG;
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}
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bool isLoad (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_LOAD_FLAG;
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}
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bool isPrefetch (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_PREFETCH_FLAG;
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}
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bool isLoadOrPrefetch (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_LOAD_FLAG
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|| getDescriptor(opCode).iclass & M_PREFETCH_FLAG;
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}
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bool isStore (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_STORE_FLAG;
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}
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bool isMemoryAccess (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_LOAD_FLAG
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|| getDescriptor(opCode).iclass & M_PREFETCH_FLAG
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|| getDescriptor(opCode).iclass & M_STORE_FLAG;
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}
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bool isDummyPhiInstr (MachineOpCode opCode) const {
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return getDescriptor(opCode).iclass & M_DUMMY_PHI_FLAG;
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}
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// delete this later *******
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bool isPhi(MachineOpCode opCode) { return isDummyPhiInstr(opCode); }
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// Check if an instruction can be issued before its operands are ready,
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// or if a subsequent instruction that uses its result can be issued
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// before the results are ready.
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// Default to true since most instructions on many architectures allow this.
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//
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virtual bool hasOperandInterlock(MachineOpCode opCode) const {
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return true;
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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 getDescriptor(opCode).latency;
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}
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virtual int maxLatency (MachineOpCode opCode) const {
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return getDescriptor(opCode).latency;
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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 +ve constant that can be held in the IMMMED 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 = getDescriptor(opCode).immedIsSignExtended;
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return getDescriptor(opCode).maxImmedConst;
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}
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};
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//---------------------------------------------------------------------------
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// class MachineResource
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// class CPUResource
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//
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// Purpose:
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// Representation of a single machine resource used in specifying
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// resource usages of machine instructions for scheduling.
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//---------------------------------------------------------------------------
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typedef unsigned int resourceId_t;
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class MachineResource {
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public:
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const string rname;
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resourceId_t rid;
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/*ctor*/ MachineResource(const string& resourceName)
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: rname(resourceName), rid(nextId++) {}
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private:
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static resourceId_t nextId;
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MachineResource(); // disable
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};
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class CPUResource : public MachineResource {
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public:
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int maxNumUsers; // MAXINT if no restriction
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/*ctor*/ CPUResource(const string& rname, int maxUsers)
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: MachineResource(rname), maxNumUsers(maxUsers) {}
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};
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//---------------------------------------------------------------------------
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// struct InstrClassRUsage
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// struct InstrRUsageDelta
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// struct InstrIssueDelta
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// struct InstrRUsage
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//
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// Purpose:
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// The first three are structures used to specify machine resource
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// usages for each instruction in a machine description file:
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// InstrClassRUsage : resource usages common to all instrs. in a class
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// InstrRUsageDelta : add/delete resource usage for individual instrs.
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// InstrIssueDelta : add/delete instr. issue info for individual instrs
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//
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// The last one (InstrRUsage) is the internal representation of
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// instruction resource usage constructed from the above three.
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//---------------------------------------------------------------------------
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const int MAX_NUM_SLOTS = 32;
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const int MAX_NUM_CYCLES = 32;
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struct InstrClassRUsage {
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InstrSchedClass schedClass;
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int totCycles;
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// Issue restrictions common to instructions in this class
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unsigned int maxNumIssue;
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bool isSingleIssue;
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bool breaksGroup;
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cycles_t numBubbles;
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// Feasible slots to use for instructions in this class.
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// The size of vector S[] is `numSlots'.
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unsigned int numSlots;
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unsigned int feasibleSlots[MAX_NUM_SLOTS];
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// Resource usages common to instructions in this class.
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// The size of vector V[] is `numRUEntries'.
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unsigned int numRUEntries;
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struct {
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resourceId_t resourceId;
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unsigned int startCycle;
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int numCycles;
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} V[MAX_NUM_CYCLES];
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};
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struct InstrRUsageDelta {
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MachineOpCode opCode;
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resourceId_t resourceId;
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unsigned int startCycle;
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int numCycles;
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};
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// Specify instruction issue restrictions for individual instructions
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// that differ from the common rules for the class.
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//
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struct InstrIssueDelta {
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MachineOpCode opCode;
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bool isSingleIssue;
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bool breaksGroup;
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cycles_t numBubbles;
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};
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struct InstrRUsage {
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/*ctor*/ InstrRUsage () {}
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/*ctor*/ InstrRUsage (const InstrRUsage& instrRU);
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InstrRUsage& operator= (const InstrRUsage& instrRU);
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bool sameAsClass;
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// Issue restrictions for this instruction
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bool isSingleIssue;
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bool breaksGroup;
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cycles_t numBubbles;
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// Feasible slots to use for this instruction.
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vector<bool> feasibleSlots;
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// Resource usages for this instruction, with one resource vector per cycle.
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cycles_t numCycles;
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vector<vector<resourceId_t> > resourcesByCycle;
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private:
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// Conveniences for initializing this structure
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InstrRUsage& operator= (const InstrClassRUsage& classRU);
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void addIssueDelta (const InstrIssueDelta& delta);
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void addUsageDelta (const InstrRUsageDelta& delta);
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void setMaxSlots (int maxNumSlots);
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friend class MachineSchedInfo; // give access to these functions
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};
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inline void
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InstrRUsage::setMaxSlots(int maxNumSlots)
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{
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feasibleSlots.resize(maxNumSlots);
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}
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inline InstrRUsage&
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InstrRUsage::operator=(const InstrRUsage& instrRU)
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{
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sameAsClass = instrRU.sameAsClass;
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isSingleIssue = instrRU.isSingleIssue;
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breaksGroup = instrRU.breaksGroup;
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numBubbles = instrRU.numBubbles;
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feasibleSlots = instrRU.feasibleSlots;
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numCycles = instrRU.numCycles;
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resourcesByCycle = instrRU.resourcesByCycle;
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return *this;
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}
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inline /*ctor*/
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InstrRUsage::InstrRUsage(const InstrRUsage& instrRU)
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{
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*this = instrRU;
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}
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inline InstrRUsage&
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InstrRUsage::operator=(const InstrClassRUsage& classRU)
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{
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sameAsClass = true;
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isSingleIssue = classRU.isSingleIssue;
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breaksGroup = classRU.breaksGroup;
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numBubbles = classRU.numBubbles;
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for (unsigned i=0; i < classRU.numSlots; i++)
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{
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unsigned slot = classRU.feasibleSlots[i];
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assert(slot < feasibleSlots.size() && "Invalid slot specified!");
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this->feasibleSlots[slot] = true;
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}
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this->numCycles = classRU.totCycles;
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this->resourcesByCycle.resize(this->numCycles);
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for (unsigned i=0; i < classRU.numRUEntries; i++)
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for (unsigned c=classRU.V[i].startCycle, NC = c + classRU.V[i].numCycles;
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c < NC; c++)
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this->resourcesByCycle[c].push_back(classRU.V[i].resourceId);
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// Sort each resource usage vector by resourceId_t to speed up conflict checking
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for (unsigned i=0; i < this->resourcesByCycle.size(); i++)
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sort(resourcesByCycle[i].begin(), resourcesByCycle[i].end());
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return *this;
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}
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inline void
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InstrRUsage::addIssueDelta(const InstrIssueDelta& delta)
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{
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sameAsClass = false;
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isSingleIssue = delta.isSingleIssue;
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breaksGroup = delta.breaksGroup;
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numBubbles = delta.numBubbles;
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}
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// Add the extra resource usage requirements specified in the delta.
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// Note that a negative value of `numCycles' means one entry for that
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// resource should be deleted for each cycle.
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//
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inline void
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InstrRUsage::addUsageDelta(const InstrRUsageDelta& delta)
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{
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int NC = delta.numCycles;
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this->sameAsClass = false;
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// resize the resources vector if more cycles are specified
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unsigned maxCycles = this->numCycles;
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maxCycles = max(maxCycles, delta.startCycle + abs(NC) - 1);
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if (maxCycles > this->numCycles)
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{
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this->resourcesByCycle.resize(maxCycles);
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this->numCycles = maxCycles;
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}
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if (NC >= 0)
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for (unsigned c=delta.startCycle, last=c+NC-1; c <= last; c++)
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this->resourcesByCycle[c].push_back(delta.resourceId);
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else
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// Remove the resource from all NC cycles.
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for (unsigned c=delta.startCycle, last=(c-NC)-1; c <= last; c++)
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{
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// Look for the resource backwards so we remove the last entry
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// for that resource in each cycle.
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vector<resourceId_t>& rvec = this->resourcesByCycle[c];
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int r;
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for (r = (int) rvec.size(); r >= 0; r--)
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if (rvec[r] == delta.resourceId)
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{// found last entry for the resource
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rvec.erase(rvec.begin() + r);
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break;
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}
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assert(r >= 0 && "Resource to remove was unused in cycle c!");
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}
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}
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//---------------------------------------------------------------------------
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// class MachineSchedInfo
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//
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// Purpose:
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// Common interface to machine information for instruction scheduling
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//---------------------------------------------------------------------------
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class MachineSchedInfo : public NonCopyableV {
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public:
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unsigned int maxNumIssueTotal;
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int longestIssueConflict;
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int branchMispredictPenalty; // 4 for SPARC IIi
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int branchTargetUnknownPenalty; // 2 for SPARC IIi
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int l1DCacheMissPenalty; // 7 or 9 for SPARC IIi
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int l1ICacheMissPenalty; // ? for SPARC IIi
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bool inOrderLoads ; // true for SPARC IIi
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bool inOrderIssue; // true for SPARC IIi
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bool inOrderExec; // false for most architectures
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bool inOrderRetire; // true for most architectures
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protected:
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inline const InstrRUsage& getInstrRUsage(MachineOpCode opCode) const {
|
|
assert(opCode >= 0 && opCode < (int) instrRUsages.size());
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|
return instrRUsages[opCode];
|
|
}
|
|
inline const InstrClassRUsage&
|
|
getClassRUsage(const InstrSchedClass& sc) const {
|
|
assert(sc >= 0 && sc < numSchedClasses);
|
|
return classRUsages[sc];
|
|
}
|
|
|
|
public:
|
|
/*ctor*/ MachineSchedInfo (int _numSchedClasses,
|
|
const MachineInstrInfo* _mii,
|
|
const InstrClassRUsage* _classRUsages,
|
|
const InstrRUsageDelta* _usageDeltas,
|
|
const InstrIssueDelta* _issueDeltas,
|
|
unsigned int _numUsageDeltas,
|
|
unsigned int _numIssueDeltas);
|
|
/*dtor*/ virtual ~MachineSchedInfo () {}
|
|
|
|
inline const MachineInstrInfo& getInstrInfo() const {
|
|
return *mii;
|
|
}
|
|
|
|
inline int getNumSchedClasses() const {
|
|
return numSchedClasses;
|
|
}
|
|
|
|
inline unsigned int getMaxNumIssueTotal() const {
|
|
return maxNumIssueTotal;
|
|
}
|
|
|
|
inline unsigned int getMaxIssueForClass(const InstrSchedClass& sc) const {
|
|
assert(sc >= 0 && sc < numSchedClasses);
|
|
return classRUsages[sc].maxNumIssue;
|
|
}
|
|
|
|
inline InstrSchedClass getSchedClass (MachineOpCode opCode) const {
|
|
return getInstrInfo().getSchedClass(opCode);
|
|
}
|
|
|
|
inline bool instrCanUseSlot (MachineOpCode opCode,
|
|
unsigned s) const {
|
|
assert(s < getInstrRUsage(opCode).feasibleSlots.size() && "Invalid slot!");
|
|
return getInstrRUsage(opCode).feasibleSlots[s];
|
|
}
|
|
|
|
inline int getLongestIssueConflict () const {
|
|
return longestIssueConflict;
|
|
}
|
|
|
|
inline int getMinIssueGap (MachineOpCode fromOp,
|
|
MachineOpCode toOp) const {
|
|
hash_map<OpCodePair,int>::const_iterator
|
|
I = issueGaps.find(OpCodePair(fromOp, toOp));
|
|
return (I == issueGaps.end())? 0 : (*I).second;
|
|
}
|
|
|
|
inline const vector<MachineOpCode>*
|
|
getConflictList(MachineOpCode opCode) const {
|
|
hash_map<MachineOpCode,vector<MachineOpCode> >::const_iterator
|
|
I = conflictLists.find(opCode);
|
|
return (I == conflictLists.end())? NULL : & (*I).second;
|
|
}
|
|
|
|
inline bool isSingleIssue (MachineOpCode opCode) const {
|
|
return getInstrRUsage(opCode).isSingleIssue;
|
|
}
|
|
|
|
inline bool breaksIssueGroup (MachineOpCode opCode) const {
|
|
return getInstrRUsage(opCode).breaksGroup;
|
|
}
|
|
|
|
inline unsigned int numBubblesAfter (MachineOpCode opCode) const {
|
|
return getInstrRUsage(opCode).numBubbles;
|
|
}
|
|
|
|
protected:
|
|
virtual void initializeResources ();
|
|
|
|
private:
|
|
void computeInstrResources(const vector<InstrRUsage>& instrRUForClasses);
|
|
void computeIssueGaps(const vector<InstrRUsage>& instrRUForClasses);
|
|
|
|
protected:
|
|
int numSchedClasses;
|
|
const MachineInstrInfo* mii;
|
|
const InstrClassRUsage* classRUsages; // raw array by sclass
|
|
const InstrRUsageDelta* usageDeltas; // raw array [1:numUsageDeltas]
|
|
const InstrIssueDelta* issueDeltas; // raw array [1:numIssueDeltas]
|
|
unsigned int numUsageDeltas;
|
|
unsigned int numIssueDeltas;
|
|
|
|
vector<InstrRUsage> instrRUsages; // indexed by opcode
|
|
hash_map<OpCodePair,int> issueGaps; // indexed by opcode pair
|
|
hash_map<MachineOpCode,vector<MachineOpCode> >
|
|
conflictLists; // indexed by opcode
|
|
};
|
|
|
|
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// class MachineRegClassInfo
|
|
//
|
|
// Purpose:
|
|
// Interface to description of machine register class (e.g., int reg class
|
|
// float reg class etc)
|
|
//
|
|
//--------------------------------------------------------------------------
|
|
|
|
class IGNode;
|
|
|
|
|
|
class MachineRegClassInfo {
|
|
|
|
protected:
|
|
|
|
const unsigned RegClassID; // integer ID of a reg class
|
|
const unsigned NumOfAvailRegs; // # of avail for coloring -without SP etc.
|
|
const unsigned NumOfAllRegs; // # of all registers -including SP,g0 etc.
|
|
|
|
public:
|
|
|
|
inline unsigned getRegClassID() const { return RegClassID; }
|
|
inline unsigned getNumOfAvailRegs() const { return NumOfAvailRegs; }
|
|
inline unsigned getNumOfAllRegs() const { return NumOfAllRegs; }
|
|
|
|
|
|
|
|
// This method should find a color which is not used by neighbors
|
|
// (i.e., a false position in IsColorUsedArr) and
|
|
virtual void colorIGNode(IGNode * Node, bool IsColorUsedArr[] ) const = 0;
|
|
|
|
|
|
MachineRegClassInfo(const unsigned ID, const unsigned NVR,
|
|
const unsigned NAR): RegClassID(ID), NumOfAvailRegs(NVR),
|
|
NumOfAllRegs(NAR)
|
|
{ } // empty constructor
|
|
|
|
};
|
|
|
|
|
|
|
|
|
|
//---------------------------------------------------------------------------
|
|
// class MachineRegInfo
|
|
//
|
|
// Purpose:
|
|
// Interface to register info of target machine
|
|
//
|
|
//--------------------------------------------------------------------------
|
|
|
|
class Value;
|
|
class LiveRangeInfo;
|
|
class Method;
|
|
class Instruction;
|
|
class LiveRange;
|
|
class AddedInstrns;
|
|
class MachineInstr;
|
|
typedef hash_map<const MachineInstr *, AddedInstrns *> AddedInstrMapType;
|
|
|
|
// A vector of all machine register classes
|
|
typedef vector<const MachineRegClassInfo *> MachineRegClassArrayType;
|
|
|
|
|
|
class MachineRegInfo : public NonCopyableV {
|
|
|
|
protected:
|
|
|
|
MachineRegClassArrayType MachineRegClassArr;
|
|
|
|
|
|
public:
|
|
|
|
|
|
inline unsigned int getNumOfRegClasses() const {
|
|
return MachineRegClassArr.size();
|
|
}
|
|
|
|
const MachineRegClassInfo *const getMachineRegClass(unsigned i) const {
|
|
return MachineRegClassArr[i];
|
|
}
|
|
|
|
|
|
virtual unsigned getRegClassIDOfValue (const Value *const Val) const = 0;
|
|
|
|
virtual void colorArgs(const Method *const Meth,
|
|
LiveRangeInfo & LRI) const = 0;
|
|
|
|
virtual void colorCallArgs(vector<const Instruction *> & CallInstrList,
|
|
LiveRangeInfo& LRI,
|
|
AddedInstrMapType& AddedInstrMap ) const = 0 ;
|
|
|
|
virtual int getUnifiedRegNum(int RegClassID, int reg) const = 0;
|
|
|
|
virtual const string getUnifiedRegName(int reg) const = 0;
|
|
|
|
//virtual void printReg(const LiveRange *const LR) const =0;
|
|
|
|
MachineRegInfo() { }
|
|
|
|
};
|
|
|
|
|
|
|
|
|
|
|
|
//---------------------------------------------------------------------------
|
|
// class TargetMachine
|
|
//
|
|
// Purpose:
|
|
// Primary interface to machine description for the target machine.
|
|
//
|
|
//---------------------------------------------------------------------------
|
|
|
|
class TargetMachine : public NonCopyableV {
|
|
public:
|
|
const string TargetName;
|
|
const TargetData DataLayout; // Calculates type size & alignment
|
|
int optSizeForSubWordData;
|
|
int minMemOpWordSize;
|
|
int maxAtomicMemOpWordSize;
|
|
|
|
// Register information. This needs to be reorganized into a single class.
|
|
int zeroRegNum; // register that gives 0 if any (-1 if none)
|
|
|
|
public:
|
|
/*ctor*/ TargetMachine(const string &targetname,
|
|
unsigned char PtrSize = 8, unsigned char PtrAl = 8,
|
|
unsigned char DoubleAl = 8, unsigned char FloatAl = 4,
|
|
unsigned char LongAl = 8, unsigned char IntAl = 4,
|
|
unsigned char ShortAl = 2, unsigned char ByteAl = 1)
|
|
: TargetName(targetname),
|
|
DataLayout(targetname, PtrSize, PtrAl,
|
|
DoubleAl, FloatAl, LongAl, IntAl,
|
|
ShortAl, ByteAl) { }
|
|
|
|
/*dtor*/ virtual ~TargetMachine() {}
|
|
|
|
const MachineInstrInfo& getInstrInfo () const { return *machineInstrInfo; }
|
|
|
|
const MachineSchedInfo& getSchedInfo() const { return *machineSchedInfo; }
|
|
|
|
virtual unsigned int findOptimalStorageSize (const Type* ty) const;
|
|
|
|
// This really should be in the register info class
|
|
virtual bool regsMayBeAliased (unsigned int regNum1,
|
|
unsigned int regNum2) const {
|
|
return (regNum1 == regNum2);
|
|
}
|
|
|
|
const MachineRegInfo& getRegInfo() const { return *machineRegInfo; }
|
|
|
|
protected:
|
|
// Description of machine instructions
|
|
// Protect so that subclass can control alloc/dealloc
|
|
MachineInstrInfo* machineInstrInfo;
|
|
MachineSchedInfo* machineSchedInfo;
|
|
const MachineRegInfo* machineRegInfo;
|
|
|
|
};
|
|
|
|
//**************************************************************************/
|
|
|
|
#endif
|