LLVM 20.0.0git
Public Member Functions | List of all members
llvm::AMDGPUCombinerHelper Class Reference

#include "Target/AMDGPU/AMDGPUCombinerHelper.h"

Inheritance diagram for llvm::AMDGPUCombinerHelper:
Inheritance graph
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Public Member Functions

bool matchFoldableFneg (MachineInstr &MI, MachineInstr *&MatchInfo)
 
void applyFoldableFneg (MachineInstr &MI, MachineInstr *&MatchInfo)
 
bool matchExpandPromotedF16FMed3 (MachineInstr &MI, Register Src0, Register Src1, Register Src2)
 
void applyExpandPromotedF16FMed3 (MachineInstr &MI, Register Src0, Register Src1, Register Src2)
 
 CombinerHelper (GISelChangeObserver &Observer, MachineIRBuilder &B, bool IsPreLegalize, GISelKnownBits *KB=nullptr, MachineDominatorTree *MDT=nullptr, const LegalizerInfo *LI=nullptr)
 
- Public Member Functions inherited from llvm::CombinerHelper
 CombinerHelper (GISelChangeObserver &Observer, MachineIRBuilder &B, bool IsPreLegalize, GISelKnownBits *KB=nullptr, MachineDominatorTree *MDT=nullptr, const LegalizerInfo *LI=nullptr)
 
GISelKnownBitsgetKnownBits () const
 
MachineIRBuildergetBuilder () const
 
const TargetLoweringgetTargetLowering () const
 
const MachineFunctiongetMachineFunction () const
 
const DataLayoutgetDataLayout () const
 
LLVMContextgetContext () const
 
bool isPreLegalize () const
 
bool isLegal (const LegalityQuery &Query) const
 
bool isLegalOrBeforeLegalizer (const LegalityQuery &Query) const
 
bool isConstantLegalOrBeforeLegalizer (const LLT Ty) const
 
void replaceRegWith (MachineRegisterInfo &MRI, Register FromReg, Register ToReg) const
 MachineRegisterInfo::replaceRegWith() and inform the observer of the changes.
 
void replaceRegOpWith (MachineRegisterInfo &MRI, MachineOperand &FromRegOp, Register ToReg) const
 Replace a single register operand with a new register and inform the observer of the changes.
 
void replaceOpcodeWith (MachineInstr &FromMI, unsigned ToOpcode) const
 Replace the opcode in instruction with a new opcode and inform the observer of the changes.
 
const RegisterBankgetRegBank (Register Reg) const
 Get the register bank of Reg.
 
void setRegBank (Register Reg, const RegisterBank *RegBank)
 Set the register bank of Reg.
 
bool tryCombineCopy (MachineInstr &MI)
 If MI is COPY, try to combine it.
 
bool matchCombineCopy (MachineInstr &MI)
 
void applyCombineCopy (MachineInstr &MI)
 
bool isPredecessor (const MachineInstr &DefMI, const MachineInstr &UseMI)
 Returns true if DefMI precedes UseMI or they are the same instruction.
 
bool dominates (const MachineInstr &DefMI, const MachineInstr &UseMI)
 Returns true if DefMI dominates UseMI.
 
bool tryCombineExtendingLoads (MachineInstr &MI)
 If MI is extend that consumes the result of a load, try to combine it.
 
bool matchCombineExtendingLoads (MachineInstr &MI, PreferredTuple &MatchInfo)
 
void applyCombineExtendingLoads (MachineInstr &MI, PreferredTuple &MatchInfo)
 
bool matchCombineLoadWithAndMask (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match (and (load x), mask) -> zextload x.
 
bool matchCombineExtractedVectorLoad (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine a G_EXTRACT_VECTOR_ELT of a load into a narrowed load.
 
bool matchCombineIndexedLoadStore (MachineInstr &MI, IndexedLoadStoreMatchInfo &MatchInfo)
 
void applyCombineIndexedLoadStore (MachineInstr &MI, IndexedLoadStoreMatchInfo &MatchInfo)
 
bool matchSextTruncSextLoad (MachineInstr &MI)
 
void applySextTruncSextLoad (MachineInstr &MI)
 
bool matchSextInRegOfLoad (MachineInstr &MI, std::tuple< Register, unsigned > &MatchInfo)
 Match sext_inreg(load p), imm -> sextload p.
 
void applySextInRegOfLoad (MachineInstr &MI, std::tuple< Register, unsigned > &MatchInfo)
 
bool matchCombineDivRem (MachineInstr &MI, MachineInstr *&OtherMI)
 Try to combine G_[SU]DIV and G_[SU]REM into a single G_[SU]DIVREM when their source operands are identical.
 
void applyCombineDivRem (MachineInstr &MI, MachineInstr *&OtherMI)
 
bool matchOptBrCondByInvertingCond (MachineInstr &MI, MachineInstr *&BrCond)
 If a brcond's true block is not the fallthrough, make it so by inverting the condition and swapping operands.
 
void applyOptBrCondByInvertingCond (MachineInstr &MI, MachineInstr *&BrCond)
 
bool matchCombineConcatVectors (MachineInstr &MI, SmallVector< Register > &Ops)
 If MI is G_CONCAT_VECTORS, try to combine it.
 
void applyCombineConcatVectors (MachineInstr &MI, SmallVector< Register > &Ops)
 Replace MI with a flattened build_vector with Ops or an implicit_def if Ops is empty.
 
bool matchCombineShuffleConcat (MachineInstr &MI, SmallVector< Register > &Ops)
 
void applyCombineShuffleConcat (MachineInstr &MI, SmallVector< Register > &Ops)
 Replace MI with a flattened build_vector with Ops or an implicit_def if Ops is empty.
 
bool tryCombineShuffleVector (MachineInstr &MI)
 Try to combine G_SHUFFLE_VECTOR into G_CONCAT_VECTORS.
 
bool matchCombineShuffleVector (MachineInstr &MI, SmallVectorImpl< Register > &Ops)
 Check if the G_SHUFFLE_VECTOR MI can be replaced by a concat_vectors.
 
void applyCombineShuffleVector (MachineInstr &MI, const ArrayRef< Register > Ops)
 Replace MI with a concat_vectors with Ops.
 
bool matchShuffleToExtract (MachineInstr &MI)
 
void applyShuffleToExtract (MachineInstr &MI)
 
bool tryCombineMemCpyFamily (MachineInstr &MI, unsigned MaxLen=0)
 Optimize memcpy intrinsics et al, e.g.
 
bool matchPtrAddImmedChain (MachineInstr &MI, PtrAddChain &MatchInfo)
 
void applyPtrAddImmedChain (MachineInstr &MI, PtrAddChain &MatchInfo)
 
bool matchShiftImmedChain (MachineInstr &MI, RegisterImmPair &MatchInfo)
 Fold (shift (shift base, x), y) -> (shift base (x+y))
 
void applyShiftImmedChain (MachineInstr &MI, RegisterImmPair &MatchInfo)
 
bool matchShiftOfShiftedLogic (MachineInstr &MI, ShiftOfShiftedLogic &MatchInfo)
 If we have a shift-by-constant of a bitwise logic op that itself has a shift-by-constant operand with identical opcode, we may be able to convert that into 2 independent shifts followed by the logic op.
 
void applyShiftOfShiftedLogic (MachineInstr &MI, ShiftOfShiftedLogic &MatchInfo)
 
bool matchCommuteShift (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchCombineMulToShl (MachineInstr &MI, unsigned &ShiftVal)
 Transform a multiply by a power-of-2 value to a left shift.
 
void applyCombineMulToShl (MachineInstr &MI, unsigned &ShiftVal)
 
bool matchCombineShlOfExtend (MachineInstr &MI, RegisterImmPair &MatchData)
 
void applyCombineShlOfExtend (MachineInstr &MI, const RegisterImmPair &MatchData)
 
bool matchCombineMergeUnmerge (MachineInstr &MI, Register &MatchInfo)
 Fold away a merge of an unmerge of the corresponding values.
 
bool matchCombineShiftToUnmerge (MachineInstr &MI, unsigned TargetShiftSize, unsigned &ShiftVal)
 Reduce a shift by a constant to an unmerge and a shift on a half sized type.
 
void applyCombineShiftToUnmerge (MachineInstr &MI, const unsigned &ShiftVal)
 
bool tryCombineShiftToUnmerge (MachineInstr &MI, unsigned TargetShiftAmount)
 
bool matchCombineUnmergeMergeToPlainValues (MachineInstr &MI, SmallVectorImpl< Register > &Operands)
 Transform <ty,...> G_UNMERGE(G_MERGE ty X, Y, Z) -> ty X, Y, Z.
 
void applyCombineUnmergeMergeToPlainValues (MachineInstr &MI, SmallVectorImpl< Register > &Operands)
 
bool matchCombineUnmergeConstant (MachineInstr &MI, SmallVectorImpl< APInt > &Csts)
 Transform G_UNMERGE Constant -> Constant1, Constant2, ...
 
void applyCombineUnmergeConstant (MachineInstr &MI, SmallVectorImpl< APInt > &Csts)
 
bool matchCombineUnmergeUndef (MachineInstr &MI, std::function< void(MachineIRBuilder &)> &MatchInfo)
 Transform G_UNMERGE G_IMPLICIT_DEF -> G_IMPLICIT_DEF, G_IMPLICIT_DEF, ...
 
bool matchCombineUnmergeWithDeadLanesToTrunc (MachineInstr &MI)
 Transform X, Y<dead> = G_UNMERGE Z -> X = G_TRUNC Z.
 
void applyCombineUnmergeWithDeadLanesToTrunc (MachineInstr &MI)
 
bool matchCombineUnmergeZExtToZExt (MachineInstr &MI)
 Transform X, Y = G_UNMERGE(G_ZEXT(Z)) -> X = G_ZEXT(Z); Y = G_CONSTANT 0.
 
void applyCombineUnmergeZExtToZExt (MachineInstr &MI)
 
void applyCombineConstantFoldFpUnary (MachineInstr &MI, const ConstantFP *Cst)
 Transform fp_instr(cst) to constant result of the fp operation.
 
bool matchCombineI2PToP2I (MachineInstr &MI, Register &Reg)
 Transform IntToPtr(PtrToInt(x)) to x if cast is in the same address space.
 
void applyCombineI2PToP2I (MachineInstr &MI, Register &Reg)
 
void applyCombineP2IToI2P (MachineInstr &MI, Register &Reg)
 Transform PtrToInt(IntToPtr(x)) to x.
 
bool matchCombineAddP2IToPtrAdd (MachineInstr &MI, std::pair< Register, bool > &PtrRegAndCommute)
 Transform G_ADD (G_PTRTOINT x), y -> G_PTRTOINT (G_PTR_ADD x, y) Transform G_ADD y, (G_PTRTOINT x) -> G_PTRTOINT (G_PTR_ADD x, y)
 
void applyCombineAddP2IToPtrAdd (MachineInstr &MI, std::pair< Register, bool > &PtrRegAndCommute)
 
bool matchCombineConstPtrAddToI2P (MachineInstr &MI, APInt &NewCst)
 
void applyCombineConstPtrAddToI2P (MachineInstr &MI, APInt &NewCst)
 
bool matchCombineAnyExtTrunc (MachineInstr &MI, Register &Reg)
 Transform anyext(trunc(x)) to x.
 
bool matchCombineZextTrunc (MachineInstr &MI, Register &Reg)
 Transform zext(trunc(x)) to x.
 
bool matchCombineTruncOfShift (MachineInstr &MI, std::pair< MachineInstr *, LLT > &MatchInfo)
 Transform trunc (shl x, K) to shl (trunc x), K if K < VT.getScalarSizeInBits().
 
void applyCombineTruncOfShift (MachineInstr &MI, std::pair< MachineInstr *, LLT > &MatchInfo)
 
bool matchAnyExplicitUseIsUndef (MachineInstr &MI)
 Return true if any explicit use operand on MI is defined by a G_IMPLICIT_DEF.
 
bool matchAllExplicitUsesAreUndef (MachineInstr &MI)
 Return true if all register explicit use operands on MI are defined by a G_IMPLICIT_DEF.
 
bool matchUndefShuffleVectorMask (MachineInstr &MI)
 Return true if a G_SHUFFLE_VECTOR instruction MI has an undef mask.
 
bool matchUndefStore (MachineInstr &MI)
 Return true if a G_STORE instruction MI is storing an undef value.
 
bool matchUndefSelectCmp (MachineInstr &MI)
 Return true if a G_SELECT instruction MI has an undef comparison.
 
bool matchInsertExtractVecEltOutOfBounds (MachineInstr &MI)
 Return true if a G_{EXTRACT,INSERT}_VECTOR_ELT has an out of range index.
 
bool matchConstantSelectCmp (MachineInstr &MI, unsigned &OpIdx)
 Return true if a G_SELECT instruction MI has a constant comparison.
 
void replaceInstWithFConstant (MachineInstr &MI, double C)
 Replace an instruction with a G_FCONSTANT with value C.
 
void replaceInstWithFConstant (MachineInstr &MI, ConstantFP *CFP)
 Replace an instruction with an G_FCONSTANT with value CFP.
 
void replaceInstWithConstant (MachineInstr &MI, int64_t C)
 Replace an instruction with a G_CONSTANT with value C.
 
void replaceInstWithConstant (MachineInstr &MI, APInt C)
 Replace an instruction with a G_CONSTANT with value C.
 
void replaceInstWithUndef (MachineInstr &MI)
 Replace an instruction with a G_IMPLICIT_DEF.
 
void replaceSingleDefInstWithOperand (MachineInstr &MI, unsigned OpIdx)
 Delete MI and replace all of its uses with its OpIdx-th operand.
 
void replaceSingleDefInstWithReg (MachineInstr &MI, Register Replacement)
 Delete MI and replace all of its uses with Replacement.
 
void applyFunnelShiftConstantModulo (MachineInstr &MI)
 Replaces the shift amount in MI with ShiftAmt % BW.
 
bool matchEqualDefs (const MachineOperand &MOP1, const MachineOperand &MOP2)
 Return true if MOP1 and MOP2 are register operands are defined by equivalent instructions.
 
bool matchConstantOp (const MachineOperand &MOP, int64_t C)
 Return true if MOP is defined by a G_CONSTANT or splat with a value equal to C.
 
bool matchConstantFPOp (const MachineOperand &MOP, double C)
 Return true if MOP is defined by a G_FCONSTANT or splat with a value exactly equal to C.
 
bool matchConstantLargerBitWidth (MachineInstr &MI, unsigned ConstIdx)
 Checks if constant at ConstIdx is larger than MI 's bitwidth.
 
bool matchSelectSameVal (MachineInstr &MI)
 Optimize (cond ? x : x) -> x.
 
bool matchBinOpSameVal (MachineInstr &MI)
 Optimize (x op x) -> x.
 
bool matchOperandIsZero (MachineInstr &MI, unsigned OpIdx)
 Check if operand OpIdx is zero.
 
bool matchOperandIsUndef (MachineInstr &MI, unsigned OpIdx)
 Check if operand OpIdx is undef.
 
bool matchOperandIsKnownToBeAPowerOfTwo (MachineInstr &MI, unsigned OpIdx)
 Check if operand OpIdx is known to be a power of 2.
 
void eraseInst (MachineInstr &MI)
 Erase MI.
 
bool matchSimplifyAddToSub (MachineInstr &MI, std::tuple< Register, Register > &MatchInfo)
 Return true if MI is a G_ADD which can be simplified to a G_SUB.
 
void applySimplifyAddToSub (MachineInstr &MI, std::tuple< Register, Register > &MatchInfo)
 
bool matchHoistLogicOpWithSameOpcodeHands (MachineInstr &MI, InstructionStepsMatchInfo &MatchInfo)
 Match (logic_op (op x...), (op y...)) -> (op (logic_op x, y))
 
void applyBuildInstructionSteps (MachineInstr &MI, InstructionStepsMatchInfo &MatchInfo)
 Replace MI with a series of instructions described in MatchInfo.
 
bool matchAshrShlToSextInreg (MachineInstr &MI, std::tuple< Register, int64_t > &MatchInfo)
 Match ashr (shl x, C), C -> sext_inreg (C)
 
void applyAshShlToSextInreg (MachineInstr &MI, std::tuple< Register, int64_t > &MatchInfo)
 
bool matchOverlappingAnd (MachineInstr &MI, BuildFnTy &MatchInfo)
 Fold and(and(x, C1), C2) -> C1&C2 ? and(x, C1&C2) : 0.
 
bool matchRedundantAnd (MachineInstr &MI, Register &Replacement)
 
bool matchRedundantOr (MachineInstr &MI, Register &Replacement)
 
bool matchRedundantSExtInReg (MachineInstr &MI)
 
bool matchNotCmp (MachineInstr &MI, SmallVectorImpl< Register > &RegsToNegate)
 Combine inverting a result of a compare into the opposite cond code.
 
void applyNotCmp (MachineInstr &MI, SmallVectorImpl< Register > &RegsToNegate)
 
bool matchXorOfAndWithSameReg (MachineInstr &MI, std::pair< Register, Register > &MatchInfo)
 Fold (xor (and x, y), y) -> (and (not x), y) {.
 
void applyXorOfAndWithSameReg (MachineInstr &MI, std::pair< Register, Register > &MatchInfo)
 
bool matchPtrAddZero (MachineInstr &MI)
 }
 
void applyPtrAddZero (MachineInstr &MI)
 
void applySimplifyURemByPow2 (MachineInstr &MI)
 Combine G_UREM x, (known power of 2) to an add and bitmasking.
 
bool matchFoldBinOpIntoSelect (MachineInstr &MI, unsigned &SelectOpNo)
 Push a binary operator through a select on constants.
 
void applyFoldBinOpIntoSelect (MachineInstr &MI, const unsigned &SelectOpNo)
 SelectOperand is the operand in binary operator MI that is the select to fold.
 
bool matchCombineInsertVecElts (MachineInstr &MI, SmallVectorImpl< Register > &MatchInfo)
 
void applyCombineInsertVecElts (MachineInstr &MI, SmallVectorImpl< Register > &MatchInfo)
 
bool matchLoadOrCombine (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match expression trees of the form.
 
bool matchExtendThroughPhis (MachineInstr &MI, MachineInstr *&ExtMI)
 
void applyExtendThroughPhis (MachineInstr &MI, MachineInstr *&ExtMI)
 
bool matchExtractVecEltBuildVec (MachineInstr &MI, Register &Reg)
 
void applyExtractVecEltBuildVec (MachineInstr &MI, Register &Reg)
 
bool matchExtractAllEltsFromBuildVector (MachineInstr &MI, SmallVectorImpl< std::pair< Register, MachineInstr * > > &MatchInfo)
 
void applyExtractAllEltsFromBuildVector (MachineInstr &MI, SmallVectorImpl< std::pair< Register, MachineInstr * > > &MatchInfo)
 
void applyBuildFn (MachineInstr &MI, BuildFnTy &MatchInfo)
 Use a function which takes in a MachineIRBuilder to perform a combine.
 
void applyBuildFnNoErase (MachineInstr &MI, BuildFnTy &MatchInfo)
 Use a function which takes in a MachineIRBuilder to perform a combine.
 
bool matchOrShiftToFunnelShift (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchFunnelShiftToRotate (MachineInstr &MI)
 Match an FSHL or FSHR that can be combined to a ROTR or ROTL rotate.
 
void applyFunnelShiftToRotate (MachineInstr &MI)
 
bool matchRotateOutOfRange (MachineInstr &MI)
 
void applyRotateOutOfRange (MachineInstr &MI)
 
bool matchICmpToTrueFalseKnownBits (MachineInstr &MI, int64_t &MatchInfo)
 
bool matchICmpToLHSKnownBits (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchAndOrDisjointMask (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchBitfieldExtractFromSExtInReg (MachineInstr &MI, BuildFnTy &MatchInfo)
 Form a G_SBFX from a G_SEXT_INREG fed by a right shift.
 
bool matchBitfieldExtractFromAnd (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: and (lshr x, cst), mask -> ubfx x, cst, width.
 
bool matchBitfieldExtractFromShr (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: shr (shl x, n), k -> sbfx/ubfx x, pos, width.
 
bool matchBitfieldExtractFromShrAnd (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: shr (and x, n), k -> ubfx x, pos, width.
 
bool matchReassocConstantInnerRHS (GPtrAdd &MI, MachineInstr *RHS, BuildFnTy &MatchInfo)
 
bool matchReassocFoldConstantsInSubTree (GPtrAdd &MI, MachineInstr *LHS, MachineInstr *RHS, BuildFnTy &MatchInfo)
 
bool matchReassocConstantInnerLHS (GPtrAdd &MI, MachineInstr *LHS, MachineInstr *RHS, BuildFnTy &MatchInfo)
 
bool matchReassocPtrAdd (MachineInstr &MI, BuildFnTy &MatchInfo)
 Reassociate pointer calculations with G_ADD involved, to allow better addressing mode usage.
 
bool tryReassocBinOp (unsigned Opc, Register DstReg, Register Op0, Register Op1, BuildFnTy &MatchInfo)
 Try to reassociate to reassociate operands of a commutative binop.
 
bool matchReassocCommBinOp (MachineInstr &MI, BuildFnTy &MatchInfo)
 Reassociate commutative binary operations like G_ADD.
 
bool matchConstantFoldCastOp (MachineInstr &MI, APInt &MatchInfo)
 Do constant folding when opportunities are exposed after MIR building.
 
bool matchConstantFoldBinOp (MachineInstr &MI, APInt &MatchInfo)
 Do constant folding when opportunities are exposed after MIR building.
 
bool matchConstantFoldFPBinOp (MachineInstr &MI, ConstantFP *&MatchInfo)
 Do constant FP folding when opportunities are exposed after MIR building.
 
bool matchConstantFoldFMA (MachineInstr &MI, ConstantFP *&MatchInfo)
 Constant fold G_FMA/G_FMAD.
 
bool matchNarrowBinopFeedingAnd (MachineInstr &MI, BuildFnTy &MatchInfo)
 
MachineInstrbuildUDivUsingMul (MachineInstr &MI)
 Given an G_UDIV MI expressing a divide by constant, return an expression that implements it by multiplying by a magic number.
 
bool matchUDivByConst (MachineInstr &MI)
 Combine G_UDIV by constant into a multiply by magic constant.
 
void applyUDivByConst (MachineInstr &MI)
 
MachineInstrbuildSDivUsingMul (MachineInstr &MI)
 Given an G_SDIV MI expressing a signed divide by constant, return an expression that implements it by multiplying by a magic number.
 
bool matchSDivByConst (MachineInstr &MI)
 
void applySDivByConst (MachineInstr &MI)
 
bool matchDivByPow2 (MachineInstr &MI, bool IsSigned)
 Given an G_SDIV MI expressing a signed divided by a pow2 constant, return expressions that implements it by shifting.
 
void applySDivByPow2 (MachineInstr &MI)
 
void applyUDivByPow2 (MachineInstr &MI)
 Given an G_UDIV MI expressing an unsigned divided by a pow2 constant, return expressions that implements it by shifting.
 
bool matchUMulHToLShr (MachineInstr &MI)
 
void applyUMulHToLShr (MachineInstr &MI)
 
bool tryCombine (MachineInstr &MI)
 Try to transform MI by using all of the above combine functions.
 
bool tryEmitMemcpyInline (MachineInstr &MI)
 Emit loads and stores that perform the given memcpy.
 
bool matchMulOBy2 (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: (G_UMULO x, 2) -> (G_UADDO x, x) (G_SMULO x, 2) -> (G_SADDO x, x)
 
bool matchMulOBy0 (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: (G_*MULO x, 0) -> 0 + no carry out.
 
bool matchAddEToAddO (MachineInstr &MI, BuildFnTy &MatchInfo)
 Match: (G_*ADDE x, y, 0) -> (G_*ADDO x, y) (G_*SUBE x, y, 0) -> (G_*SUBO x, y)
 
bool matchRedundantNegOperands (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fadd x, fneg(y)) -> (fsub x, y) (fadd fneg(x), y) -> (fsub y, x) (fsub x, fneg(y)) -> (fadd x, y) (fmul fneg(x), fneg(y)) -> (fmul x, y) (fdiv fneg(x), fneg(y)) -> (fdiv x, y) (fmad fneg(x), fneg(y), z) -> (fmad x, y, z) (fma fneg(x), fneg(y), z) -> (fma x, y, z)
 
bool matchFsubToFneg (MachineInstr &MI, Register &MatchInfo)
 
void applyFsubToFneg (MachineInstr &MI, Register &MatchInfo)
 
bool canCombineFMadOrFMA (MachineInstr &MI, bool &AllowFusionGlobally, bool &HasFMAD, bool &Aggressive, bool CanReassociate=false)
 
bool matchCombineFAddFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fadd (fmul x, y), z) -> (fma x, y, z) (fadd (fmul x, y), z) -> (fmad x, y, z)
 
bool matchCombineFAddFpExtFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fadd (fpext (fmul x, y)), z) -> (fma (fpext x), (fpext y), z) (fadd (fpext (fmul x, y)), z) -> (fmad (fpext x), (fpext y), z)
 
bool matchCombineFAddFMAFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fadd (fma x, y, (fmul u, v)), z) -> (fma x, y, (fma u, v, z)) (fadd (fmad x, y, (fmul u, v)), z) -> (fmad x, y, (fmad u, v, z))
 
bool matchCombineFAddFpExtFMulToFMadOrFMAAggressive (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchCombineFSubFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fsub (fmul x, y), z) -> (fma x, y, -z) (fsub (fmul x, y), z) -> (fmad x, y, -z)
 
bool matchCombineFSubFNegFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fsub (fneg (fmul, x, y)), z) -> (fma (fneg x), y, (fneg z)) (fsub (fneg (fmul, x, y)), z) -> (fmad (fneg x), y, (fneg z))
 
bool matchCombineFSubFpExtFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fsub (fpext (fmul x, y)), z) -> (fma (fpext x), (fpext y), (fneg z)) (fsub (fpext (fmul x, y)), z) -> (fmad (fpext x), (fpext y), (fneg z))
 
bool matchCombineFSubFpExtFNegFMulToFMadOrFMA (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform (fsub (fpext (fneg (fmul x, y))), z) -> (fneg (fma (fpext x), (fpext y), z)) (fsub (fpext (fneg (fmul x, y))), z) -> (fneg (fmad (fpext x), (fpext y), z))
 
bool matchCombineFMinMaxNaN (MachineInstr &MI, unsigned &Info)
 
bool matchAddSubSameReg (MachineInstr &MI, Register &Src)
 Transform G_ADD(x, G_SUB(y, x)) to y.
 
bool matchBuildVectorIdentityFold (MachineInstr &MI, Register &MatchInfo)
 
bool matchTruncBuildVectorFold (MachineInstr &MI, Register &MatchInfo)
 
bool matchTruncLshrBuildVectorFold (MachineInstr &MI, Register &MatchInfo)
 
bool matchSubAddSameReg (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform: (x + y) - y -> x (x + y) - x -> y x - (y + x) -> 0 - y x - (x + z) -> 0 - z.
 
bool matchSimplifySelectToMinMax (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchRedundantBinOpInEquality (MachineInstr &MI, BuildFnTy &MatchInfo)
 Transform: (X + Y) == X -> Y == 0 (X - Y) == X -> Y == 0 (X ^ Y) == X -> Y == 0 (X + Y) != X -> Y != 0 (X - Y) != X -> Y != 0 (X ^ Y) != X -> Y != 0.
 
bool matchShiftsTooBig (MachineInstr &MI)
 Match shifts greater or equal to the bitwidth of the operation.
 
bool matchCommuteConstantToRHS (MachineInstr &MI)
 Match constant LHS ops that should be commuted.
 
bool matchSextOfTrunc (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine sext of trunc.
 
bool matchZextOfTrunc (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine zext of trunc.
 
bool matchNonNegZext (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine zext nneg to sext.
 
bool matchCommuteFPConstantToRHS (MachineInstr &MI)
 Match constant LHS FP ops that should be commuted.
 
void applyCommuteBinOpOperands (MachineInstr &MI)
 
bool matchSelectIMinMax (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine select to integer min/max.
 
bool matchSelect (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine selects.
 
bool matchAnd (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine ands.
 
bool matchOr (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine ors.
 
bool matchAddOverflow (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine addos.
 
bool matchExtractVectorElement (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine extract vector element.
 
bool matchExtractVectorElementWithBuildVector (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine extract vector element with a build vector on the vector register.
 
bool matchExtractVectorElementWithBuildVectorTrunc (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine extract vector element with a build vector trunc on the vector register.
 
bool matchExtractVectorElementWithShuffleVector (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine extract vector element with a shuffle vector on the vector register.
 
bool matchExtractVectorElementWithDifferentIndices (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Combine extract vector element with a insert vector element on the vector register and different indices.
 
void applyBuildFnMO (const MachineOperand &MO, BuildFnTy &MatchInfo)
 Use a function which takes in a MachineIRBuilder to perform a combine.
 
bool matchFPowIExpansion (MachineInstr &MI, int64_t Exponent)
 Match FPOWI if it's safe to extend it into a series of multiplications.
 
void applyExpandFPowI (MachineInstr &MI, int64_t Exponent)
 Expands FPOWI into a series of multiplications and a division if the exponent is negative.
 
bool matchInsertVectorElementOOB (MachineInstr &MI, BuildFnTy &MatchInfo)
 Combine insert vector element OOB.
 
bool matchFreezeOfSingleMaybePoisonOperand (MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchAddOfVScale (const MachineOperand &MO, BuildFnTy &MatchInfo)
 
bool matchMulOfVScale (const MachineOperand &MO, BuildFnTy &MatchInfo)
 
bool matchSubOfVScale (const MachineOperand &MO, BuildFnTy &MatchInfo)
 
bool matchShlOfVScale (const MachineOperand &MO, BuildFnTy &MatchInfo)
 
bool matchTruncateOfExt (const MachineInstr &Root, const MachineInstr &ExtMI, BuildFnTy &MatchInfo)
 Transform trunc ([asz]ext x) to x or ([asz]ext x) or (trunc x).
 
bool matchCastOfSelect (const MachineInstr &Cast, const MachineInstr &SelectMI, BuildFnTy &MatchInfo)
 
bool matchFoldAPlusC1MinusC2 (const MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchFoldC2MinusAPlusC1 (const MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchFoldAMinusC1MinusC2 (const MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchFoldC1Minus2MinusC2 (const MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchFoldAMinusC1PlusC2 (const MachineInstr &MI, BuildFnTy &MatchInfo)
 
bool matchExtOfExt (const MachineInstr &FirstMI, const MachineInstr &SecondMI, BuildFnTy &MatchInfo)
 
bool matchCastOfBuildVector (const MachineInstr &CastMI, const MachineInstr &BVMI, BuildFnTy &MatchInfo)
 

Additional Inherited Members

- Protected Attributes inherited from llvm::CombinerHelper
MachineIRBuilderBuilder
 
MachineRegisterInfoMRI
 
GISelChangeObserverObserver
 
GISelKnownBitsKB
 
MachineDominatorTreeMDT
 
bool IsPreLegalize
 
const LegalizerInfoLI
 
const RegisterBankInfoRBI
 
const TargetRegisterInfoTRI
 

Detailed Description

Definition at line 22 of file AMDGPUCombinerHelper.h.

Member Function Documentation

◆ applyExpandPromotedF16FMed3()

void AMDGPUCombinerHelper::applyExpandPromotedF16FMed3 ( MachineInstr MI,
Register  Src0,
Register  Src1,
Register  Src2 
)

◆ applyFoldableFneg()

void AMDGPUCombinerHelper::applyFoldableFneg ( MachineInstr MI,
MachineInstr *&  MatchInfo 
)

◆ CombinerHelper()

CombinerHelper::CombinerHelper ( GISelChangeObserver Observer,
MachineIRBuilder B,
bool  IsPreLegalize,
GISelKnownBits KB = nullptr,
MachineDominatorTree MDT = nullptr,
const LegalizerInfo LI = nullptr 
)

Definition at line 116 of file CombinerHelper.cpp.

◆ matchExpandPromotedF16FMed3()

bool AMDGPUCombinerHelper::matchExpandPromotedF16FMed3 ( MachineInstr MI,
Register  Src0,
Register  Src1,
Register  Src2 
)

◆ matchFoldableFneg()

bool AMDGPUCombinerHelper::matchFoldableFneg ( MachineInstr MI,
MachineInstr *&  MatchInfo 
)

The documentation for this class was generated from the following files: