//===-- SimpleRegisterCoalescing.h - Register Coalescing --------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file implements a simple register copy coalescing phase. // //===----------------------------------------------------------------------===// #ifndef LLVM_CODEGEN_SIMPLE_REGISTER_COALESCING_H #define LLVM_CODEGEN_SIMPLE_REGISTER_COALESCING_H #include "llvm/CodeGen/MachineFunctionPass.h" #include "llvm/CodeGen/LiveIntervalAnalysis.h" #include "llvm/CodeGen/RegisterCoalescer.h" #include "llvm/ADT/BitVector.h" namespace llvm { class SimpleRegisterCoalescing; class LiveVariables; class TargetRegisterInfo; class TargetInstrInfo; class VirtRegMap; class MachineLoopInfo; /// CopyRec - Representation for copy instructions in coalescer queue. /// struct CopyRec { MachineInstr *MI; unsigned LoopDepth; CopyRec(MachineInstr *mi, unsigned depth) : MI(mi), LoopDepth(depth) {} }; class SimpleRegisterCoalescing : public MachineFunctionPass, public RegisterCoalescer { MachineFunction* mf_; MachineRegisterInfo* mri_; const TargetMachine* tm_; const TargetRegisterInfo* tri_; const TargetInstrInfo* tii_; LiveIntervals *li_; const MachineLoopInfo* loopInfo; AliasAnalysis *AA; BitVector allocatableRegs_; DenseMap<const TargetRegisterClass*, BitVector> allocatableRCRegs_; /// JoinedCopies - Keep track of copies eliminated due to coalescing. /// SmallPtrSet<MachineInstr*, 32> JoinedCopies; /// ReMatCopies - Keep track of copies eliminated due to remat. /// SmallPtrSet<MachineInstr*, 32> ReMatCopies; /// ReMatDefs - Keep track of definition instructions which have /// been remat'ed. SmallPtrSet<MachineInstr*, 8> ReMatDefs; public: static char ID; // Pass identifcation, replacement for typeid SimpleRegisterCoalescing() : MachineFunctionPass(&ID) {} struct InstrSlots { enum { LOAD = 0, USE = 1, DEF = 2, STORE = 3, NUM = 4 }; }; virtual void getAnalysisUsage(AnalysisUsage &AU) const; virtual void releaseMemory(); /// runOnMachineFunction - pass entry point virtual bool runOnMachineFunction(MachineFunction&); bool coalesceFunction(MachineFunction &mf, RegallocQuery &) { // This runs as an independent pass, so don't do anything. return false; } /// print - Implement the dump method. virtual void print(raw_ostream &O, const Module* = 0) const; private: /// joinIntervals - join compatible live intervals void joinIntervals(); /// CopyCoalesceInMBB - Coalesce copies in the specified MBB, putting /// copies that cannot yet be coalesced into the "TryAgain" list. void CopyCoalesceInMBB(MachineBasicBlock *MBB, std::vector<CopyRec> &TryAgain); /// JoinCopy - Attempt to join intervals corresponding to SrcReg/DstReg, /// which are the src/dst of the copy instruction CopyMI. This returns true /// if the copy was successfully coalesced away. If it is not currently /// possible to coalesce this interval, but it may be possible if other /// things get coalesced, then it returns true by reference in 'Again'. bool JoinCopy(CopyRec &TheCopy, bool &Again); /// JoinIntervals - Attempt to join these two intervals. On failure, this /// returns false. Otherwise, if one of the intervals being joined is a /// physreg, this method always canonicalizes DestInt to be it. The output /// "SrcInt" will not have been modified, so we can use this information /// below to update aliases. bool JoinIntervals(LiveInterval &LHS, LiveInterval &RHS, bool &Swapped); /// SimpleJoin - Attempt to join the specified interval into this one. The /// caller of this method must guarantee that the RHS only contains a single /// value number and that the RHS is not defined by a copy from this /// interval. This returns false if the intervals are not joinable, or it /// joins them and returns true. bool SimpleJoin(LiveInterval &LHS, LiveInterval &RHS); /// Return true if the two specified registers belong to different register /// classes. The registers may be either phys or virt regs. bool differingRegisterClasses(unsigned RegA, unsigned RegB) const; /// AdjustCopiesBackFrom - We found a non-trivially-coalescable copy. If /// the source value number is defined by a copy from the destination reg /// see if we can merge these two destination reg valno# into a single /// value number, eliminating a copy. bool AdjustCopiesBackFrom(LiveInterval &IntA, LiveInterval &IntB, MachineInstr *CopyMI); /// HasOtherReachingDefs - Return true if there are definitions of IntB /// other than BValNo val# that can reach uses of AValno val# of IntA. bool HasOtherReachingDefs(LiveInterval &IntA, LiveInterval &IntB, VNInfo *AValNo, VNInfo *BValNo); /// RemoveCopyByCommutingDef - We found a non-trivially-coalescable copy. /// If the source value number is defined by a commutable instruction and /// its other operand is coalesced to the copy dest register, see if we /// can transform the copy into a noop by commuting the definition. bool RemoveCopyByCommutingDef(LiveInterval &IntA, LiveInterval &IntB, MachineInstr *CopyMI); /// TrimLiveIntervalToLastUse - If there is a last use in the same basic /// block as the copy instruction, trim the ive interval to the last use /// and return true. bool TrimLiveIntervalToLastUse(SlotIndex CopyIdx, MachineBasicBlock *CopyMBB, LiveInterval &li, const LiveRange *LR); /// ReMaterializeTrivialDef - If the source of a copy is defined by a trivial /// computation, replace the copy by rematerialize the definition. bool ReMaterializeTrivialDef(LiveInterval &SrcInt, unsigned DstReg, unsigned DstSubIdx, MachineInstr *CopyMI); /// CanCoalesceWithImpDef - Returns true if the specified copy instruction /// from an implicit def to another register can be coalesced away. bool CanCoalesceWithImpDef(MachineInstr *CopyMI, LiveInterval &li, LiveInterval &ImpLi) const; /// TurnCopiesFromValNoToImpDefs - The specified value# is defined by an /// implicit_def and it is being removed. Turn all copies from this value# /// into implicit_defs. void TurnCopiesFromValNoToImpDefs(LiveInterval &li, VNInfo *VNI); /// isWinToJoinVRWithSrcPhysReg - Return true if it's worth while to join a /// a virtual destination register with physical source register. bool isWinToJoinVRWithSrcPhysReg(MachineInstr *CopyMI, MachineBasicBlock *CopyMBB, LiveInterval &DstInt, LiveInterval &SrcInt); /// isWinToJoinVRWithDstPhysReg - Return true if it's worth while to join a /// copy from a virtual source register to a physical destination register. bool isWinToJoinVRWithDstPhysReg(MachineInstr *CopyMI, MachineBasicBlock *CopyMBB, LiveInterval &DstInt, LiveInterval &SrcInt); /// isWinToJoinCrossClass - Return true if it's profitable to coalesce /// two virtual registers from different register classes. bool isWinToJoinCrossClass(unsigned SrcReg, unsigned DstReg, const TargetRegisterClass *SrcRC, const TargetRegisterClass *DstRC, const TargetRegisterClass *NewRC); /// HasIncompatibleSubRegDefUse - If we are trying to coalesce a virtual /// register with a physical register, check if any of the virtual register /// operand is a sub-register use or def. If so, make sure it won't result /// in an illegal extract_subreg or insert_subreg instruction. bool HasIncompatibleSubRegDefUse(MachineInstr *CopyMI, unsigned VirtReg, unsigned PhysReg); /// CanJoinExtractSubRegToPhysReg - Return true if it's possible to coalesce /// an extract_subreg where dst is a physical register, e.g. /// cl = EXTRACT_SUBREG reg1024, 1 bool CanJoinExtractSubRegToPhysReg(unsigned DstReg, unsigned SrcReg, unsigned SubIdx, unsigned &RealDstReg); /// CanJoinInsertSubRegToPhysReg - Return true if it's possible to coalesce /// an insert_subreg where src is a physical register, e.g. /// reg1024 = INSERT_SUBREG reg1024, c1, 0 bool CanJoinInsertSubRegToPhysReg(unsigned DstReg, unsigned SrcReg, unsigned SubIdx, unsigned &RealDstReg); /// ValueLiveAt - Return true if the LiveRange pointed to by the given /// iterator, or any subsequent range with the same value number, /// is live at the given point. bool ValueLiveAt(LiveInterval::iterator LRItr, LiveInterval::iterator LREnd, SlotIndex defPoint) const; /// RangeIsDefinedByCopyFromReg - Return true if the specified live range of /// the specified live interval is defined by a copy from the specified /// register. bool RangeIsDefinedByCopyFromReg(LiveInterval &li, LiveRange *LR, unsigned Reg); /// UpdateRegDefsUses - Replace all defs and uses of SrcReg to DstReg and /// update the subregister number if it is not zero. If DstReg is a /// physical register and the existing subregister number of the def / use /// being updated is not zero, make sure to set it to the correct physical /// subregister. void UpdateRegDefsUses(unsigned SrcReg, unsigned DstReg, unsigned SubIdx); /// ShortenDeadCopyLiveRange - Shorten a live range defined by a dead copy. /// Return true if live interval is removed. bool ShortenDeadCopyLiveRange(LiveInterval &li, MachineInstr *CopyMI); /// ShortenDeadCopyLiveRange - Shorten a live range as it's artificially /// extended by a dead copy. Mark the last use (if any) of the val# as kill /// as ends the live range there. If there isn't another use, then this /// live range is dead. Return true if live interval is removed. bool ShortenDeadCopySrcLiveRange(LiveInterval &li, MachineInstr *CopyMI); /// RemoveDeadDef - If a def of a live interval is now determined dead, /// remove the val# it defines. If the live interval becomes empty, remove /// it as well. bool RemoveDeadDef(LiveInterval &li, MachineInstr *DefMI); /// lastRegisterUse - Returns the last use of the specific register between /// cycles Start and End or NULL if there are no uses. MachineOperand *lastRegisterUse(SlotIndex Start, SlotIndex End, unsigned Reg, SlotIndex &LastUseIdx) const; void printRegName(unsigned reg) const; }; } // End llvm namespace #endif