LLVM  4.0.0
Public Types | Public Member Functions | Public Attributes | List of all members
llvm::InstCombiner Class Reference

The core instruction combiner logic. More...

#include <InstCombineInternal.h>

Inheritance diagram for llvm::InstCombiner:
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Collaboration diagram for llvm::InstCombiner:
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Public Types

typedef IRBuilder
< TargetFolder,
IRBuilderCallbackInserter
BuilderTy
 An IRBuilder that automatically inserts new instructions into the worklist. More...
 

Public Member Functions

 InstCombiner (InstCombineWorklist &Worklist, BuilderTy *Builder, bool MinimizeSize, bool ExpensiveCombines, AliasAnalysis *AA, AssumptionCache &AC, TargetLibraryInfo &TLI, DominatorTree &DT, const DataLayout &DL, LoopInfo *LI)
 
bool run ()
 Run the combiner over the entire worklist until it is empty. More...
 
AssumptionCachegetAssumptionCache () const
 
const DataLayoutgetDataLayout () const
 
DominatorTreegetDominatorTree () const
 
LoopInfogetLoopInfo () const
 
TargetLibraryInfogetTargetLibraryInfo () const
 
InstructionvisitAdd (BinaryOperator &I)
 
InstructionvisitFAdd (BinaryOperator &I)
 
ValueOptimizePointerDifference (Value *LHS, Value *RHS, Type *Ty)
 Optimize pointer differences into the same array into a size. More...
 
InstructionvisitSub (BinaryOperator &I)
 
InstructionvisitFSub (BinaryOperator &I)
 
InstructionvisitMul (BinaryOperator &I)
 
ValuefoldFMulConst (Instruction *FMulOrDiv, Constant *C, Instruction *InsertBefore)
 foldFMulConst() is a helper routine of InstCombiner::visitFMul(). More...
 
InstructionvisitFMul (BinaryOperator &I)
 
InstructionvisitURem (BinaryOperator &I)
 
InstructionvisitSRem (BinaryOperator &I)
 
InstructionvisitFRem (BinaryOperator &I)
 
bool SimplifyDivRemOfSelect (BinaryOperator &I)
 Try to fold a divide or remainder of a select instruction. More...
 
InstructioncommonRemTransforms (BinaryOperator &I)
 
InstructioncommonIRemTransforms (BinaryOperator &I)
 This function implements the transforms common to both integer remainder instructions (urem and srem). More...
 
InstructioncommonDivTransforms (BinaryOperator &I)
 
InstructioncommonIDivTransforms (BinaryOperator &I)
 This function implements the transforms common to both integer division instructions (udiv and sdiv). More...
 
InstructionvisitUDiv (BinaryOperator &I)
 
InstructionvisitSDiv (BinaryOperator &I)
 
InstructionvisitFDiv (BinaryOperator &I)
 
ValuesimplifyRangeCheck (ICmpInst *Cmp0, ICmpInst *Cmp1, bool Inverted)
 Try to fold a signed range checked with lower bound 0 to an unsigned icmp. More...
 
ValueFoldAndOfICmps (ICmpInst *LHS, ICmpInst *RHS)
 Fold (icmp)&(icmp) if possible. More...
 
ValueFoldAndOfFCmps (FCmpInst *LHS, FCmpInst *RHS)
 Optimize (fcmp)&(fcmp). More...
 
InstructionvisitAnd (BinaryOperator &I)
 
ValueFoldOrOfICmps (ICmpInst *LHS, ICmpInst *RHS, Instruction *CxtI)
 Fold (icmp)|(icmp) if possible. More...
 
ValueFoldOrOfFCmps (FCmpInst *LHS, FCmpInst *RHS)
 Optimize (fcmp)|(fcmp). More...
 
InstructionFoldOrWithConstants (BinaryOperator &I, Value *Op, Value *A, Value *B, Value *C)
 This helper function folds: More...
 
InstructionFoldXorWithConstants (BinaryOperator &I, Value *Op, Value *A, Value *B, Value *C)
 This helper function folds: More...
 
InstructionvisitOr (BinaryOperator &I)
 
InstructionvisitXor (BinaryOperator &I)
 
InstructionvisitShl (BinaryOperator &I)
 
InstructionvisitAShr (BinaryOperator &I)
 
InstructionvisitLShr (BinaryOperator &I)
 
InstructioncommonShiftTransforms (BinaryOperator &I)
 
InstructionvisitFCmpInst (FCmpInst &I)
 
InstructionvisitICmpInst (ICmpInst &I)
 
InstructionFoldShiftByConstant (Value *Op0, Constant *Op1, BinaryOperator &I)
 
InstructioncommonCastTransforms (CastInst &CI)
 Implement the transforms common to all CastInst visitors. More...
 
InstructioncommonPointerCastTransforms (CastInst &CI)
 Implement the transforms for cast of pointer (bitcast/ptrtoint) More...
 
InstructionvisitTrunc (TruncInst &CI)
 
InstructionvisitZExt (ZExtInst &CI)
 
InstructionvisitSExt (SExtInst &CI)
 
InstructionvisitFPTrunc (FPTruncInst &CI)
 
InstructionvisitFPExt (CastInst &CI)
 
InstructionvisitFPToUI (FPToUIInst &FI)
 
InstructionvisitFPToSI (FPToSIInst &FI)
 
InstructionvisitUIToFP (CastInst &CI)
 
InstructionvisitSIToFP (CastInst &CI)
 
InstructionvisitPtrToInt (PtrToIntInst &CI)
 
InstructionvisitIntToPtr (IntToPtrInst &CI)
 
InstructionvisitBitCast (BitCastInst &CI)
 
InstructionvisitAddrSpaceCast (AddrSpaceCastInst &CI)
 
InstructionFoldItoFPtoI (Instruction &FI)
 
InstructionvisitSelectInst (SelectInst &SI)
 
InstructionvisitCallInst (CallInst &CI)
 CallInst simplification. More...
 
InstructionvisitInvokeInst (InvokeInst &II)
 
InstructionSliceUpIllegalIntegerPHI (PHINode &PN)
 This is an integer PHI and we know that it has an illegal type: see if it is only used by trunc or trunc(lshr) operations. More...
 
InstructionvisitPHINode (PHINode &PN)
 
InstructionvisitGetElementPtrInst (GetElementPtrInst &GEP)
 
InstructionvisitAllocaInst (AllocaInst &AI)
 
InstructionvisitAllocSite (Instruction &FI)
 
InstructionvisitFree (CallInst &FI)
 
InstructionvisitLoadInst (LoadInst &LI)
 
InstructionvisitStoreInst (StoreInst &SI)
 
InstructionvisitBranchInst (BranchInst &BI)
 
InstructionvisitSwitchInst (SwitchInst &SI)
 
InstructionvisitReturnInst (ReturnInst &RI)
 
InstructionvisitInsertValueInst (InsertValueInst &IV)
 Try to find redundant insertvalue instructions, like the following ones: %0 = insertvalue { i8, i32 } undef, i8 x, 0 %1 = insertvalue { i8, i32 } %0, i8 y, 0 Here the second instruction inserts values at the same indices, as the first one, making the first one redundant. More...
 
InstructionvisitInsertElementInst (InsertElementInst &IE)
 
InstructionvisitExtractElementInst (ExtractElementInst &EI)
 
InstructionvisitShuffleVectorInst (ShuffleVectorInst &SVI)
 
InstructionvisitExtractValueInst (ExtractValueInst &EV)
 
InstructionvisitLandingPadInst (LandingPadInst &LI)
 
InstructionvisitVAStartInst (VAStartInst &I)
 
InstructionvisitVACopyInst (VACopyInst &I)
 
InstructionvisitInstruction (Instruction &I)
 Specify what to return for unhandled instructions. More...
 
bool dominatesAllUses (const Instruction *DI, const Instruction *UI, const BasicBlock *DB) const
 True when DB dominates all uses of DI except UI. More...
 
bool replacedSelectWithOperand (SelectInst *SI, const ICmpInst *Icmp, const unsigned SIOpd)
 Try to replace select with select operand SIOpd in SI-ICmp sequence. More...
 
InstructionInsertNewInstBefore (Instruction *New, Instruction &Old)
 Inserts an instruction New before instruction Old. More...
 
InstructionInsertNewInstWith (Instruction *New, Instruction &Old)
 Same as InsertNewInstBefore, but also sets the debug loc. More...
 
InstructionreplaceInstUsesWith (Instruction &I, Value *V)
 A combiner-aware RAUW-like routine. More...
 
InstructionCreateOverflowTuple (IntrinsicInst *II, Value *Result, Constant *Overflow)
 Creates a result tuple for an overflow intrinsic II with a given Result and a constant Overflow value. More...
 
InstructioneraseInstFromFunction (Instruction &I)
 Combiner aware instruction erasure. More...
 
void computeKnownBits (Value *V, APInt &KnownZero, APInt &KnownOne, unsigned Depth, Instruction *CxtI) const
 
bool MaskedValueIsZero (Value *V, const APInt &Mask, unsigned Depth=0, Instruction *CxtI=nullptr) const
 
unsigned ComputeNumSignBits (Value *Op, unsigned Depth=0, Instruction *CxtI=nullptr) const
 
void ComputeSignBit (Value *V, bool &KnownZero, bool &KnownOne, unsigned Depth=0, Instruction *CxtI=nullptr) const
 
OverflowResult computeOverflowForUnsignedMul (Value *LHS, Value *RHS, const Instruction *CxtI)
 
OverflowResult computeOverflowForUnsignedAdd (Value *LHS, Value *RHS, const Instruction *CxtI)
 
- Public Member Functions inherited from llvm::InstVisitor< InstCombiner, Instruction * >
void visit (Iterator Start, Iterator End)
 
void visit (Module &M)
 
void visit (Function &F)
 
void visit (BasicBlock &BB)
 
void visit (Module *M)
 
void visit (Function *F)
 
void visit (BasicBlock *BB)
 
Instructionvisit (Instruction *I)
 
Instructionvisit (Instruction &I)
 
void visitModule (Module &M)
 
void visitFunction (Function &F)
 
void visitBasicBlock (BasicBlock &BB)
 
InstructionvisitReturnInst (ReturnInst &I)
 
InstructionvisitBranchInst (BranchInst &I)
 
InstructionvisitSwitchInst (SwitchInst &I)
 
InstructionvisitIndirectBrInst (IndirectBrInst &I)
 
InstructionvisitResumeInst (ResumeInst &I)
 
InstructionvisitUnreachableInst (UnreachableInst &I)
 
InstructionvisitCleanupReturnInst (CleanupReturnInst &I)
 
InstructionvisitCatchReturnInst (CatchReturnInst &I)
 
InstructionvisitCatchSwitchInst (CatchSwitchInst &I)
 
InstructionvisitICmpInst (ICmpInst &I)
 
InstructionvisitFCmpInst (FCmpInst &I)
 
InstructionvisitAllocaInst (AllocaInst &I)
 
InstructionvisitLoadInst (LoadInst &I)
 
InstructionvisitStoreInst (StoreInst &I)
 
InstructionvisitAtomicCmpXchgInst (AtomicCmpXchgInst &I)
 
InstructionvisitAtomicRMWInst (AtomicRMWInst &I)
 
InstructionvisitFenceInst (FenceInst &I)
 
InstructionvisitGetElementPtrInst (GetElementPtrInst &I)
 
InstructionvisitPHINode (PHINode &I)
 
InstructionvisitTruncInst (TruncInst &I)
 
InstructionvisitZExtInst (ZExtInst &I)
 
InstructionvisitSExtInst (SExtInst &I)
 
InstructionvisitFPTruncInst (FPTruncInst &I)
 
InstructionvisitFPExtInst (FPExtInst &I)
 
InstructionvisitFPToUIInst (FPToUIInst &I)
 
InstructionvisitFPToSIInst (FPToSIInst &I)
 
InstructionvisitUIToFPInst (UIToFPInst &I)
 
InstructionvisitSIToFPInst (SIToFPInst &I)
 
InstructionvisitPtrToIntInst (PtrToIntInst &I)
 
InstructionvisitIntToPtrInst (IntToPtrInst &I)
 
InstructionvisitBitCastInst (BitCastInst &I)
 
InstructionvisitAddrSpaceCastInst (AddrSpaceCastInst &I)
 
InstructionvisitSelectInst (SelectInst &I)
 
InstructionvisitVAArgInst (VAArgInst &I)
 
InstructionvisitExtractElementInst (ExtractElementInst &I)
 
InstructionvisitInsertElementInst (InsertElementInst &I)
 
InstructionvisitShuffleVectorInst (ShuffleVectorInst &I)
 
InstructionvisitExtractValueInst (ExtractValueInst &I)
 
InstructionvisitInsertValueInst (InsertValueInst &I)
 
InstructionvisitLandingPadInst (LandingPadInst &I)
 
InstructionvisitFuncletPadInst (FuncletPadInst &I)
 
InstructionvisitCleanupPadInst (CleanupPadInst &I)
 
InstructionvisitCatchPadInst (CatchPadInst &I)
 
InstructionvisitDbgDeclareInst (DbgDeclareInst &I)
 
InstructionvisitDbgValueInst (DbgValueInst &I)
 
InstructionvisitDbgInfoIntrinsic (DbgInfoIntrinsic &I)
 
InstructionvisitMemSetInst (MemSetInst &I)
 
InstructionvisitMemCpyInst (MemCpyInst &I)
 
InstructionvisitMemMoveInst (MemMoveInst &I)
 
InstructionvisitMemTransferInst (MemTransferInst &I)
 
InstructionvisitMemIntrinsic (MemIntrinsic &I)
 
InstructionvisitVAStartInst (VAStartInst &I)
 
InstructionvisitVAEndInst (VAEndInst &I)
 
InstructionvisitVACopyInst (VACopyInst &I)
 
InstructionvisitIntrinsicInst (IntrinsicInst &I)
 
InstructionvisitCallInst (CallInst &I)
 
InstructionvisitInvokeInst (InvokeInst &I)
 
InstructionvisitCastInst (CastInst &I)
 
InstructionvisitBinaryOperator (BinaryOperator &I)
 
InstructionvisitCmpInst (CmpInst &I)
 
InstructionvisitTerminatorInst (TerminatorInst &I)
 
InstructionvisitUnaryInstruction (UnaryInstruction &I)
 
InstructionvisitCallSite (CallSite CS)
 
void visitInstruction (Instruction &I)
 

Public Attributes

InstCombineWorklistWorklist
 A worklist of the instructions that need to be simplified. More...
 
BuilderTyBuilder
 

Detailed Description

The core instruction combiner logic.

This class provides both the logic to recursively visit instructions and combine them.

Definition at line 160 of file InstCombineInternal.h.

Member Typedef Documentation

An IRBuilder that automatically inserts new instructions into the worklist.

Definition at line 169 of file InstCombineInternal.h.

Constructor & Destructor Documentation

llvm::InstCombiner::InstCombiner ( InstCombineWorklist Worklist,
BuilderTy Builder,
bool  MinimizeSize,
bool  ExpensiveCombines,
AliasAnalysis AA,
AssumptionCache AC,
TargetLibraryInfo TLI,
DominatorTree DT,
const DataLayout DL,
LoopInfo LI 
)
inline

Definition at line 193 of file InstCombineInternal.h.

Member Function Documentation

Instruction * InstCombiner::commonCastTransforms ( CastInst CI)

Implement the transforms common to all CastInst visitors.

Definition at line 259 of file InstCombineCasts.cpp.

References llvm::CastInst::Create(), llvm::User::getOperand(), llvm::Value::getType(), llvm::Type::isIntegerTy(), and SI.

Instruction* llvm::InstCombiner::commonDivTransforms ( BinaryOperator I)
Instruction * InstCombiner::commonIDivTransforms ( BinaryOperator I)
Instruction * InstCombiner::commonIRemTransforms ( BinaryOperator I)

This function implements the transforms common to both integer remainder instructions (urem and srem).

It is called by the visitors to those integer remainder instructions. Common integer remainder transforms

Definition at line 1446 of file InstCombineMulDivRem.cpp.

References llvm::BinaryOperator::getOpcode(), llvm::User::getOperand(), I, llvm::PatternMatch::m_APInt(), llvm::PatternMatch::match(), llvm::User::setOperand(), SI, and simplifyValueKnownNonZero().

Instruction * InstCombiner::commonPointerCastTransforms ( CastInst CI)

Implement the transforms for cast of pointer (bitcast/ptrtoint)

Definition at line 1516 of file InstCombineCasts.cpp.

References GEP, llvm::User::getOperand(), and llvm::User::setOperand().

Instruction* llvm::InstCombiner::commonRemTransforms ( BinaryOperator I)
Instruction * InstCombiner::commonShiftTransforms ( BinaryOperator I)
void llvm::InstCombiner::computeKnownBits ( Value V,
APInt KnownZero,
APInt KnownOne,
unsigned  Depth,
Instruction CxtI 
) const
inline

Definition at line 474 of file InstCombineInternal.h.

References llvm::computeKnownBits().

Referenced by foldCttzCtlz().

unsigned llvm::InstCombiner::ComputeNumSignBits ( Value Op,
unsigned  Depth = 0,
Instruction CxtI = nullptr 
) const
inline

Definition at line 484 of file InstCombineInternal.h.

References llvm::ComputeNumSignBits(), and llvm::Depth.

Referenced by processUGT_ADDCST_ADD().

OverflowResult llvm::InstCombiner::computeOverflowForUnsignedAdd ( Value LHS,
Value RHS,
const Instruction CxtI 
)
inline

Definition at line 497 of file InstCombineInternal.h.

References llvm::computeOverflowForUnsignedAdd().

OverflowResult llvm::InstCombiner::computeOverflowForUnsignedMul ( Value LHS,
Value RHS,
const Instruction CxtI 
)
inline

Definition at line 493 of file InstCombineInternal.h.

References llvm::computeOverflowForUnsignedMul().

void llvm::InstCombiner::ComputeSignBit ( Value V,
bool KnownZero,
bool KnownOne,
unsigned  Depth = 0,
Instruction CxtI = nullptr 
) const
inline

Definition at line 488 of file InstCombineInternal.h.

References llvm::ComputeSignBit(), and llvm::Depth.

Referenced by canReplaceGEPIdxWithZero().

Instruction* llvm::InstCombiner::CreateOverflowTuple ( IntrinsicInst II,
Value Result,
Constant Overflow 
)
inline

Creates a result tuple for an overflow intrinsic II with a given Result and a constant Overflow value.

Definition at line 444 of file InstCombineInternal.h.

References llvm::InsertValueInst::Create(), llvm::ConstantStruct::get(), llvm::UndefValue::get(), llvm::Value::getType(), and llvm::ARM_MB::ST.

bool InstCombiner::dominatesAllUses ( const Instruction DI,
const Instruction UI,
const BasicBlock DB 
) const

True when DB dominates all uses of DI except UI.

Check that one use is in the same block as the definition and all other uses are in blocks dominated by a given block.

UI must be in the same block as DI. The routine checks that the DI parent and DB are different.

Parameters
DIDefinition
UIUse
DBBlock that must dominate all uses of DI outside the parent block
Returns
true when UI is the only use of DI in the parent block and all other uses of DI are in blocks dominated by DB.

Definition at line 3809 of file InstCombineCompares.cpp.

References assert(), llvm::Instruction::getParent(), llvm::BasicBlock::getParent(), and llvm::Value::users().

Instruction* llvm::InstCombiner::eraseInstFromFunction ( Instruction I)
inline

Combiner aware instruction erasure.

When dealing with an instruction that has side effects or produces a void value, we can't rely on DCE to delete the instruction. Instead, visit methods should return the value returned by this function.

Definition at line 457 of file InstCombineInternal.h.

References assert(), llvm::dbgs(), DEBUG, llvm::Instruction::eraseFromParent(), llvm::User::getNumOperands(), llvm::User::operands(), and llvm::Value::use_empty().

Referenced by combineLoadToOperationType(), removeTriviallyEmptyRange(), simplifyMaskedScatter(), simplifyMaskedStore(), simplifyX86MaskedStore(), visitAllocaInst(), and visitStoreInst().

Value * InstCombiner::FoldAndOfFCmps ( FCmpInst LHS,
FCmpInst RHS 
)

Optimize (fcmp)&(fcmp).

NOTE: Unlike the rest of instcombine, this returns a Value which should already be inserted into the function.

Definition at line 1026 of file InstCombineAndOrXor.cpp.

References llvm::CmpInst::FCMP_ORD, getFCmpCode(), getFCmpValue(), llvm::User::getOperand(), llvm::CmpInst::getPredicate(), llvm::CmpInst::getSwappedPredicate(), llvm::Value::getType(), and std::swap().

Value * InstCombiner::FoldAndOfICmps ( ICmpInst LHS,
ICmpInst RHS 
)
Value * InstCombiner::foldFMulConst ( Instruction FMulOrDiv,
Constant C,
Instruction InsertBefore 
)

foldFMulConst() is a helper routine of InstCombiner::visitFMul().

The input FMulOrDiv is a FMul/FDiv with one and only one operand being a constant (i.e. isFMulOrFDivWithConstant(FMulOrDiv) == true). This function is to simplify "FMulOrDiv * C" and returns the resulting expression. Note that this function could return NULL in case the constants cannot be folded into a normal floating-point.

Definition at line 557 of file InstCombineMulDivRem.cpp.

References assert(), llvm::dyn_cast(), F, llvm::ConstantExpr::getFDiv(), llvm::ConstantExpr::getFMul(), llvm::Instruction::getOpcode(), llvm::User::getOperand(), llvm::Value::hasOneUse(), isFMulOrFDivWithConstant(), and isNormalFp().

Instruction * InstCombiner::FoldItoFPtoI ( Instruction FI)
Value * InstCombiner::FoldOrOfFCmps ( FCmpInst LHS,
FCmpInst RHS 
)

Optimize (fcmp)|(fcmp).

NOTE: Unlike the rest of instcombine, this returns a Value which should already be inserted into the function.

Definition at line 1966 of file InstCombineAndOrXor.cpp.

References llvm::CmpInst::FCMP_UNO, getFCmpCode(), getFCmpValue(), llvm::User::getOperand(), llvm::CmpInst::getPredicate(), llvm::CmpInst::getSwappedPredicate(), llvm::Value::getType(), and std::swap().

Value * InstCombiner::FoldOrOfICmps ( ICmpInst LHS,
ICmpInst RHS,
Instruction CxtI 
)
Instruction * InstCombiner::FoldOrWithConstants ( BinaryOperator I,
Value Op,
Value A,
Value B,
Value C 
)

This helper function folds:

((A | B) & C1) | (B & C2)

into:

(A & C1) | B

when the XOR of the two constants is "all ones" (-1).

Definition at line 2024 of file InstCombineAndOrXor.cpp.

References C, llvm::dyn_cast(), llvm::ConstantInt::getValue(), llvm::APInt::isAllOnesValue(), llvm::PatternMatch::m_And(), llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::match(), and llvm::APIntOps::Xor().

Instruction * InstCombiner::FoldShiftByConstant ( Value Op0,
Constant Op1,
BinaryOperator I 
)
Instruction * InstCombiner::FoldXorWithConstants ( BinaryOperator I,
Value Op,
Value A,
Value B,
Value C 
)

This helper function folds:

((A | B) & C1) ^ (B & C2)

into:

(A & C1) ^ B

when the XOR of the two constants is "all ones" (-1).

Definition at line 2053 of file InstCombineAndOrXor.cpp.

References C, llvm::dyn_cast(), llvm::ConstantInt::getValue(), llvm::APInt::isAllOnesValue(), llvm::PatternMatch::m_And(), llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::match(), and llvm::APIntOps::Xor().

AssumptionCache& llvm::InstCombiner::getAssumptionCache ( ) const
inline

Definition at line 206 of file InstCombineInternal.h.

Referenced by simplifyValueKnownNonZero().

const DataLayout& llvm::InstCombiner::getDataLayout ( ) const
inline
DominatorTree& llvm::InstCombiner::getDominatorTree ( ) const
inline

Definition at line 210 of file InstCombineInternal.h.

Referenced by simplifyValueKnownNonZero().

LoopInfo* llvm::InstCombiner::getLoopInfo ( ) const
inline

Definition at line 212 of file InstCombineInternal.h.

TargetLibraryInfo& llvm::InstCombiner::getTargetLibraryInfo ( ) const
inline

Definition at line 214 of file InstCombineInternal.h.

Referenced by GetShiftedValue().

Instruction* llvm::InstCombiner::InsertNewInstBefore ( Instruction New,
Instruction Old 
)
inline

Inserts an instruction New before instruction Old.

Also adds the new instruction to the worklist and returns New so that it is suitable for use as the return from the visitation patterns.

Definition at line 402 of file InstCombineInternal.h.

References assert(), llvm::BasicBlock::getInstList(), llvm::ilist_node_impl< OptionsT >::getIterator(), llvm::Instruction::getParent(), and llvm::iplist_impl< IntrusiveListT, TraitsT >::insert().

Referenced by simplifyAllocaArraySize().

Instruction* llvm::InstCombiner::InsertNewInstWith ( Instruction New,
Instruction Old 
)
inline

Same as InsertNewInstBefore, but also sets the debug loc.

Definition at line 412 of file InstCombineInternal.h.

References llvm::Instruction::getDebugLoc(), and llvm::Instruction::setDebugLoc().

Referenced by replaceExtractElements().

bool llvm::InstCombiner::MaskedValueIsZero ( Value V,
const APInt Mask,
unsigned  Depth = 0,
Instruction CxtI = nullptr 
) const
inline

Definition at line 480 of file InstCombineInternal.h.

References llvm::Depth, and llvm::MaskedValueIsZero().

Referenced by canEvaluateShiftedShift().

Value * InstCombiner::OptimizePointerDifference ( Value LHS,
Value RHS,
Type Ty 
)

Optimize pointer differences into the same array into a size.

Consider: &A[10] - &A[0]: we should compile this to "10". LHS/RHS are the pointer operands to the ptrtoint instructions for the LHS/RHS of the subtract.

Definition at line 1470 of file InstCombineAddSub.cpp.

References llvm::EmitGEPOffset(), and Offset.

bool InstCombiner::replacedSelectWithOperand ( SelectInst SI,
const ICmpInst Icmp,
const unsigned  SIOpd 
)

Try to replace select with select operand SIOpd in SI-ICmp sequence.

True when a select result is replaced by one of its operands in select-icmp sequence.

This will eventually result in the elimination of the select.

Parameters
SISelect instruction
IcmpCompare instruction
SIOpdOperand that replaces the select

Notes:

  • The replacement is global and requires dominator information
  • The caller is responsible for the actual replacement

Example:

entry: %4 = select i1 %3, C* %0, C* null %5 = icmp eq C* %4, null br i1 %5, label %9, label %7 ... ; <label>:7 ; preds = entry %8 = getelementptr inbounds C* %4, i64 0, i32 0 ...

can be transformed to

%5 = icmp eq C* %0, null %6 = select i1 %3, i1 %5, i1 true br i1 %6, label %9, label %7 ... ; <label>:7 ; preds = entry %8 = getelementptr inbounds C* %0, i64 0, i32 0 // replace by %0!

Similar when the first operand of the select is a constant or/and the compare is for not equal rather than equal.

NOTE: The function is only called when the select and compare constants are equal, the optimization can work only for EQ predicates. This is not a major restriction since a NE compare should be 'normalized' to an equal compare, which usually happens in the combiner and test case select-cmp-br.ll checks for it.

Definition at line 3884 of file InstCombineCompares.cpp.

References assert(), llvm::User::getOperand(), llvm::Instruction::getParent(), llvm::CmpInst::getPredicate(), llvm::TerminatorInst::getSuccessor(), llvm::BasicBlock::getTerminator(), llvm::BasicBlock::getUniquePredecessor(), llvm::CmpInst::ICMP_EQ, isChainSelectCmpBranch(), and llvm::Value::replaceUsesOutsideBlock().

Instruction* llvm::InstCombiner::replaceInstUsesWith ( Instruction I,
Value V 
)
inline

A combiner-aware RAUW-like routine.

This method is to be used when an instruction is found to be dead, replaceable with another preexisting expression. Here we add all uses of I to the worklist, replace all uses of I with the new value, then return I, so that the inst combiner will know that I was modified.

Definition at line 423 of file InstCombineInternal.h.

References llvm::dbgs(), DEBUG, llvm::UndefValue::get(), llvm::Value::getType(), I, llvm::Value::replaceAllUsesWith(), and llvm::Value::use_empty().

Referenced by foldCttzCtlz(), processUGT_ADDCST_ADD(), processUMulZExtIdiom(), replaceExtractElements(), simplifyAllocaArraySize(), simplifyMaskedGather(), simplifyX86MaskedLoad(), unpackLoadToAggregate(), visitAllocaInst(), and visitLoadInst().

bool InstCombiner::run ( )
bool InstCombiner::SimplifyDivRemOfSelect ( BinaryOperator I)
Value * InstCombiner::simplifyRangeCheck ( ICmpInst Cmp0,
ICmpInst Cmp1,
bool  Inverted 
)

Try to fold a signed range checked with lower bound 0 to an unsigned icmp.

Example: (icmp sge x, 0) & (icmp slt x, n) –> icmp ult x, n If Inverted is true then the check is for the inverted range, e.g. (icmp slt x, 0) | (icmp sgt x, n) –> icmp ugt x, n

Definition at line 740 of file InstCombineAndOrXor.cpp.

References llvm::ComputeSignBit(), llvm::dyn_cast(), llvm::CmpInst::getInversePredicate(), llvm::User::getOperand(), llvm::CmpInst::getPredicate(), llvm::CmpInst::getSwappedPredicate(), llvm::CmpInst::ICMP_SGE, llvm::CmpInst::ICMP_SGT, llvm::CmpInst::ICMP_SLE, llvm::CmpInst::ICMP_SLT, llvm::CmpInst::ICMP_ULE, llvm::CmpInst::ICMP_ULT, llvm::ConstantInt::isMinusOne(), and llvm::ConstantInt::isZero().

Instruction * InstCombiner::SliceUpIllegalIntegerPHI ( PHINode FirstPhi)
Instruction * InstCombiner::visitAdd ( BinaryOperator I)

Definition at line 1030 of file InstCombineAddSub.cpp.

References A, llvm::AddOne(), B, C, checkForNegativeOperand(), llvm::computeKnownBits(), llvm::computeOverflowForUnsignedAdd(), llvm::CastInst::Create(), llvm::SelectInst::Create(), CreateAdd(), llvm::BinaryOperator::CreateNeg(), llvm::dyn_cast(), llvm::ConstantInt::get(), llvm::ConstantExpr::getAdd(), llvm::IntegerType::getBitWidth(), llvm::APInt::getBitWidth(), llvm::SelectInst::getCondition(), llvm::SelectInst::getFalseValue(), llvm::APInt::getHighBitsSet(), llvm::Constant::getIntegerValue(), llvm::Value::getName(), llvm::User::getOperand(), llvm::Type::getScalarSizeInBits(), llvm::Type::getScalarType(), llvm::ConstantExpr::getSExt(), llvm::SelectInst::getTrueValue(), llvm::ConstantExpr::getTrunc(), llvm::Value::getType(), llvm::ConstantInt::getValue(), llvm::ConstantExpr::getXor(), llvm::ConstantExpr::getZExt(), llvm::Instruction::hasNoSignedWrap(), llvm::Instruction::hasNoUnsignedWrap(), llvm::Value::hasOneUse(), llvm::haveNoCommonBitsSet(), I, llvm::Type::isIntegerTy(), llvm::APInt::isMinSignedValue(), llvm::APInt::isNegative(), llvm::APInt::isPowerOf2(), llvm::APInt::isSignBit(), IT(), llvm::APInt::logBase2(), llvm::PatternMatch::m_And(), llvm::PatternMatch::m_APInt(), llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_Not(), llvm::PatternMatch::m_NUWAdd(), llvm::PatternMatch::m_Or(), llvm::PatternMatch::m_Specific(), llvm::PatternMatch::m_Sub(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::m_Xor(), llvm::PatternMatch::m_Zero(), llvm::PatternMatch::m_ZExt(), llvm::BitmaskEnumDetail::Mask(), llvm::MaskedValueIsZero(), llvm::PatternMatch::match(), N, llvm::NeverOverflows, llvm::Instruction::setHasNoSignedWrap(), llvm::Instruction::setHasNoUnsignedWrap(), llvm::APInt::sext(), llvm::APInt::sge(), SI, llvm::SimplifyAddInst(), llvm::SubOne(), llvm::APInt::trunc(), and X.

Instruction * InstCombiner::visitAddrSpaceCast ( AddrSpaceCastInst CI)
Instruction * InstCombiner::visitAllocaInst ( AllocaInst AI)
Instruction * InstCombiner::visitAllocSite ( Instruction FI)
Instruction * InstCombiner::visitAnd ( BinaryOperator I)
Instruction * InstCombiner::visitAShr ( BinaryOperator I)
Instruction * InstCombiner::visitBitCast ( BitCastInst CI)
Instruction * InstCombiner::visitBranchInst ( BranchInst BI)
Instruction * InstCombiner::visitCallInst ( CallInst CI)

CallInst simplification.

This mostly only handles folding of intrinsic instructions. For normal calls, it allows visitCallSite to do the heavy lifting.

Definition at line 1389 of file InstCombineCalls.cpp.

References A, llvm::CallInst::arg_operands(), AMDGPU::RuntimeMD::KeyName::Args, assert(), B, C, llvm::computeKnownBits(), llvm::Instruction::copyFastMathFlags(), llvm::CastInst::Create(), llvm::SelectInst::Create(), llvm::CastInst::CreateIntegerCast(), llvm::APFloat::divide(), llvm::Function::doesNotThrow(), llvm::CallInst::doesNotThrow(), llvm::dyn_cast(), emitX86MaskSelect(), foldCttzCtlz(), llvm::frexp(), llvm::ConstantInt::get(), llvm::ConstantFP::get(), llvm::ConstantAggregateZero::get(), llvm::VectorType::get(), llvm::ConstantPointerNull::get(), llvm::MDNode::get(), llvm::UndefValue::get(), llvm::APInt::getAllOnesValue(), llvm::CallInst::getArgOperand(), getBitWidth(), llvm::CallInst::getCalledFunction(), llvm::CallInst::getCalledValue(), llvm::Intrinsic::getDeclaration(), llvm::Instruction::getFunction(), llvm::Type::getHalfTy(), llvm::Type::getInt32Ty(), llvm::ConstantExpr::getIntegerCast(), llvm::IntrinsicInst::getIntrinsicID(), llvm::getKnownAlignment(), llvm::APInt::getLowBitsSet(), llvm::Instruction::getModule(), llvm::ConstantExpr::getMul(), llvm::Value::getName(), getNegativeIsTrueBoolVec(), llvm::Instruction::getOpcode(), llvm::getOrEnforceKnownAlignment(), llvm::Instruction::getParent(), llvm::Type::getPrimitiveSizeInBits(), llvm::APFloat::getSemantics(), llvm::BasicBlock::getTerminator(), llvm::Value::getType(), llvm::PointerType::getUnqual(), llvm::ConstantFP::getValueAPF(), llvm::Type::getVectorNumElements(), llvm::ConstantInt::getZExtValue(), I, i, llvm::CmpInst::ICMP_NE, llvm::APFloatBase::IEK_Inf, llvm::APFloatBase::IEK_NaN, llvm::IntrinsicIDToOverflowCheckFlavor(), llvm::APInt::isAllOnesValue(), llvm::APFloat::isDenormal(), llvm::isFreeCall(), llvm::APFloat::isInfinity(), llvm::isKnownNonNullAt(), llvm::APFloat::isNaN(), llvm::APFloat::isNegative(), llvm::APFloat::isNormal(), llvm::Type::isPointerTy(), llvm::APFloat::isSignaling(), llvm::isValidAssumeForContext(), llvm::APFloat::isZero(), LLVM_FALLTHROUGH, llvm_unreachable, llvm::SPII::Load, llvm::lowerObjectSizeCall(), llvm::APInt::lshr(), llvm::PatternMatch::m_And(), llvm::PatternMatch::m_BSwap(), llvm::PatternMatch::m_Constant(), llvm::PatternMatch::m_FNeg(), llvm::PatternMatch::m_FPOne(), llvm::PatternMatch::m_ICmp(), llvm::PatternMatch::m_Instruction(), llvm::PatternMatch::m_Not(), llvm::PatternMatch::m_Or(), llvm::PatternMatch::m_Select(), llvm::PatternMatch::m_Specific(), llvm::PatternMatch::m_Trunc(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::m_Zero(), llvm::BitmaskEnumDetail::Mask(), llvm::PatternMatch::match(), llvm::maxnum(), llvm::LLVMContext::MD_nonnull, llvm::minnum(), N, llvm::SIInstrFlags::N_INFINITY, llvm::SIInstrFlags::N_NORMAL, llvm::SIInstrFlags::N_SUBNORMAL, llvm::SIInstrFlags::N_ZERO, llvm::None, llvm::OCF_INVALID, llvm::APFloatBase::opOK, llvm::SIInstrFlags::P_INFINITY, llvm::SIInstrFlags::P_NORMAL, llvm::SIInstrFlags::P_SUBNORMAL, llvm::SIInstrFlags::P_ZERO, Ptr, llvm::SmallVectorTemplateBase< T, isPodLike< T >::value >::push_back(), llvm::SIInstrFlags::Q_NAN, removeTriviallyEmptyRange(), llvm::AttributeSet::ReturnIndex, llvm::APFloatBase::rmNearestTiesToEven, llvm::SIInstrFlags::S_NAN, llvm::CallInst::setArgOperand(), llvm::CallInst::setCalledFunction(), llvm::CallInst::setDoesNotThrow(), llvm::Instruction::setMetadata(), llvm::SimplifyCall(), simplifyMaskedGather(), simplifyMaskedLoad(), simplifyMaskedScatter(), simplifyMaskedStore(), simplifyMinnumMaxnum(), simplifyX86extrq(), simplifyX86immShift(), simplifyX86insertps(), simplifyX86insertq(), simplifyX86MaskedLoad(), simplifyX86MaskedStore(), simplifyX86movmsk(), simplifyX86pshufb(), simplifyX86varShift(), simplifyX86vpcom(), simplifyX86vperm2(), simplifyX86vpermilvar(), simplifyX86vpermv(), std::swap(), llvm::Value::takeName(), X, and llvm::APInt::zextOrTrunc().

Instruction * InstCombiner::visitExtractElementInst ( ExtractElementInst EI)
Instruction * InstCombiner::visitExtractValueInst ( ExtractValueInst EV)
Instruction * InstCombiner::visitFAdd ( BinaryOperator I)
Instruction * InstCombiner::visitFCmpInst ( FCmpInst I)

Orders the operands of the compare so that they are listed from most complex to least complex. This puts constants before unary operators, before binary operators.

Definition at line 4701 of file InstCombineCompares.cpp.

References llvm::Call, llvm::APFloat::clearSign(), llvm::APFloatBase::cmpLessThan, llvm::APFloat::compare(), llvm::APFloat::convert(), llvm::dyn_cast(), F, llvm::CmpInst::FCMP_OEQ, llvm::CmpInst::FCMP_OGE, llvm::CmpInst::FCMP_OGT, llvm::CmpInst::FCMP_OLE, llvm::CmpInst::FCMP_OLT, llvm::CmpInst::FCMP_ONE, llvm::CmpInst::FCMP_ORD, llvm::CmpInst::FCMP_UEQ, llvm::CmpInst::FCMP_UGT, llvm::CmpInst::FCMP_ULT, llvm::CmpInst::FCMP_UNE, llvm::CmpInst::FCMP_UNO, llvm::ConstantFP::get(), llvm::CallInst::getArgOperand(), llvm::getComplexity(), llvm::Value::getContext(), llvm::Instruction::getFastMathFlags(), llvm::ConstantExpr::getFNeg(), llvm::getIntrinsicForCallSite(), llvm::Constant::getNullValue(), llvm::Instruction::getOpcode(), llvm::User::getOperand(), llvm::Instruction::getParent(), llvm::CmpInst::getPredicate(), llvm::APFloat::getSmallestNormalized(), llvm::CastInst::getSrcTy(), llvm::CmpInst::getSwappedPredicate(), llvm::Value::getType(), llvm::GlobalVariable::hasDefinitiveInitializer(), llvm::Value::hasOneUse(), I, llvm::APFloatBase::IEEEdouble(), llvm::APFloatBase::IEEEhalf(), llvm::APFloatBase::IEEEquad(), llvm::APFloatBase::IEEEsingle(), llvm::GlobalVariable::isConstant(), llvm::Type::isDoubleTy(), llvm::Type::isFloatTy(), llvm::Type::isFP128Ty(), llvm::Type::isHalfTy(), llvm::Constant::isNullValue(), llvm::Type::isPPC_FP128Ty(), isVolatile(), llvm::Type::isX86_FP80Ty(), llvm::APFloat::isZero(), llvm_unreachable, llvm::SPII::Load, llvm::PatternMatch::m_FNeg(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::match(), llvm::APFloatBase::PPCDoubleDouble(), llvm::APFloatBase::rmNearestTiesToEven, llvm::User::setOperand(), llvm::CmpInst::setPredicate(), SI, llvm::SimplifyFCmpInst(), llvm::FCmpInst::swapOperands(), llvm::Value::user_begin(), X, llvm::APFloatBase::x87DoubleExtended(), and Y.

Instruction * InstCombiner::visitFDiv ( BinaryOperator I)
Instruction * InstCombiner::visitFMul ( BinaryOperator I)
Instruction * InstCombiner::visitFPExt ( CastInst CI)

Definition at line 1416 of file InstCombineCasts.cpp.

Instruction * InstCombiner::visitFPToSI ( FPToSIInst FI)

Definition at line 1475 of file InstCombineCasts.cpp.

References llvm::dyn_cast(), llvm::User::getOperand(), and I.

Instruction * InstCombiner::visitFPToUI ( FPToUIInst FI)

Definition at line 1464 of file InstCombineCasts.cpp.

References llvm::dyn_cast(), llvm::User::getOperand(), and I.

Instruction * InstCombiner::visitFPTrunc ( FPTruncInst CI)
Instruction * InstCombiner::visitFree ( CallInst FI)
Instruction * InstCombiner::visitFRem ( BinaryOperator I)
Instruction * InstCombiner::visitFSub ( BinaryOperator I)
Instruction * InstCombiner::visitGetElementPtrInst ( GetElementPtrInst GEP)

See if we can simplify: X = bitcast A* to B* Y = gep X, <...constant indices...> into a gep of the original struct. This is important for SROA and alias analysis of unions. If "A" is also a bitcast, wait for A/X to be merged.

Definition at line 1379 of file InstructionCombining.cpp.

References llvm::GetElementPtrInst::accumulateConstantOffset(), llvm::PHINode::addIncoming(), llvm::SmallVectorImpl< T >::append(), assert(), C, llvm::Instruction::clone(), llvm::CastInst::Create(), llvm::GetElementPtrInst::Create(), llvm::GetElementPtrInst::CreateInBounds(), llvm::CastInst::CreatePointerBitCastOrAddrSpaceCast(), llvm::dyn_cast(), E, llvm::SmallVectorBase::empty(), F, GEP, llvm::gep_type_begin(), llvm::gep_type_end(), llvm::VectorType::get(), llvm::PointerType::getAddressSpace(), llvm::GetElementPtrInst::getAddressSpace(), llvm::Type::getArrayElementType(), llvm::PointerType::getElementType(), llvm::BasicBlock::getFirstInsertionPt(), llvm::PHINode::getIncomingBlock(), llvm::generic_gep_type_iterator< ItTy >::getIndexedType(), llvm::BasicBlock::getInstList(), llvm::Value::getName(), llvm::Constant::getNullValue(), llvm::GetElementPtrInst::getNumIndices(), llvm::User::getNumOperands(), llvm::User::getOperand(), llvm::Instruction::getParent(), llvm::Type::getPointerAddressSpace(), llvm::GetElementPtrInst::getPointerAddressSpace(), llvm::GetElementPtrInst::getPointerOperandType(), llvm::Type::getPrimitiveSizeInBits(), llvm::Type::getScalarSizeInBits(), llvm::Type::getScalarType(), llvm::APInt::getSExtValue(), llvm::GetElementPtrInst::getSourceElementType(), llvm::Value::getType(), llvm::Type::getVectorNumElements(), llvm::Value::hasOneUse(), I, llvm::GetElementPtrInst::idx_begin(), llvm::GetElementPtrInst::idx_end(), llvm::iplist_impl< IntrusiveListT, TraitsT >::insert(), llvm::isAllocationFn(), llvm::Type::isArrayTy(), llvm::GetElementPtrInst::isInBounds(), llvm::APInt::isNonNegative(), llvm::Type::isSized(), llvm::generic_gep_type_iterator< ItTy >::isStruct(), llvm::Type::isStructTy(), llvm::Type::isVectorTy(), llvm::PatternMatch::m_AShr(), llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_Neg(), llvm::PatternMatch::m_PtrToInt(), llvm::PatternMatch::m_SDiv(), llvm::PatternMatch::m_Specific(), llvm::PatternMatch::m_Sub(), llvm::PatternMatch::m_Value(), llvm::makeArrayRef(), llvm::PatternMatch::match(), Offset, llvm::User::op_begin(), llvm::User::op_end(), llvm::User::operands(), llvm::SmallVectorTemplateBase< T, isPodLike >::push_back(), llvm::User::setOperand(), llvm::GetElementPtrInst::setSourceElementType(), shouldMergeGEPs(), llvm::SimplifyGEPInst(), llvm::Value::stripAndAccumulateInBoundsConstantOffsets(), llvm::Value::stripPointerCasts(), llvm::Value::takeName(), llvm::APInt::ule(), and Y.

Instruction * InstCombiner::visitICmpInst ( ICmpInst I)

Orders the operands of the compare so that they are listed from most complex to least complex. This puts constants before unary operators, before binary operators.

Definition at line 4189 of file InstCombineCompares.cpp.

References A, assert(), B, C, canonicalizeCmpWithConstant(), llvm::CmpInst::Create(), llvm::ExtractValueInst::Create(), llvm::BinaryOperator::CreateNot(), foldICmpWithMinMax(), llvm::Constant::getAllOnesValue(), llvm::ConstantExpr::getBitCast(), llvm::getComplexity(), llvm::CmpInst::getInversePredicate(), llvm::Value::getName(), llvm::ConstantExpr::getNot(), llvm::Constant::getNullValue(), llvm::User::getOperand(), llvm::CmpInst::getPredicate(), llvm::Type::getScalarType(), llvm::CmpInst::getSwappedPredicate(), llvm::Value::getType(), llvm::GetUnderlyingObject(), llvm::Value::hasOneUse(), I, llvm::CmpInst::ICMP_EQ, llvm::CmpInst::ICMP_SGE, llvm::CmpInst::ICMP_SGT, llvm::CmpInst::ICMP_SLE, llvm::CmpInst::ICMP_SLT, llvm::CmpInst::ICMP_UGE, llvm::CmpInst::ICMP_UGT, llvm::CmpInst::ICMP_ULE, llvm::CmpInst::ICMP_ULT, llvm::ICmpInst::isEquality(), llvm::Type::isIntegerTy(), llvm::isKnownToBeAPowerOfTwo(), llvm::APInt::isMaxSignedValue(), llvm::APInt::isMinSignedValue(), llvm::Type::isPointerTy(), LLVM_FALLTHROUGH, llvm_unreachable, llvm::PatternMatch::m_Add(), llvm::PatternMatch::m_And(), llvm::PatternMatch::m_APInt(), llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_Instruction(), llvm::PatternMatch::m_Mul(), llvm::PatternMatch::m_Not(), llvm::PatternMatch::m_Select(), llvm::PatternMatch::m_UAddWithOverflow(), llvm::PatternMatch::m_Value(), llvm::PatternMatch::m_Zero(), llvm::PatternMatch::m_ZExt(), llvm::PatternMatch::match(), llvm::APIntOps::Not(), llvm::OCF_UNSIGNED_ADD, processUMulZExtIdiom(), SI, llvm::SimplifyICmpInst(), std::swap(), swapMayExposeCSEOpportunities(), llvm::ICmpInst::swapOperands(), llvm::Value::user_begin(), and X.

Instruction * InstCombiner::visitInsertElementInst ( InsertElementInst IE)
Instruction * InstCombiner::visitInsertValueInst ( InsertValueInst I)

Try to find redundant insertvalue instructions, like the following ones: %0 = insertvalue { i8, i32 } undef, i8 x, 0 %1 = insertvalue { i8, i32 } %0, i8 y, 0 Here the second instruction inserts values at the same indices, as the first one, making the first one redundant.

It should be transformed to: %0 = insertvalue { i8, i32 } undef, i8 y, 0

Definition at line 549 of file InstCombineVectorOps.cpp.

References llvm::Depth, llvm::dyn_cast(), llvm::InsertValueInst::getIndices(), llvm::User::getOperand(), llvm::Value::hasOneUse(), I, and llvm::Value::user_back().

Instruction* llvm::InstCombiner::visitInstruction ( Instruction I)
inline

Specify what to return for unhandled instructions.

Definition at line 304 of file InstCombineInternal.h.

Instruction * InstCombiner::visitIntToPtr ( IntToPtrInst CI)
Instruction * InstCombiner::visitInvokeInst ( InvokeInst II)

Definition at line 2809 of file InstCombineCalls.cpp.

Instruction * InstCombiner::visitLandingPadInst ( LandingPadInst LI)
Instruction * InstCombiner::visitLoadInst ( LoadInst LI)
Instruction * InstCombiner::visitLShr ( BinaryOperator I)
Instruction * InstCombiner::visitMul ( BinaryOperator I)
Instruction * InstCombiner::visitOr ( BinaryOperator I)
Instruction * InstCombiner::visitPHINode ( PHINode PN)
Instruction * InstCombiner::visitPtrToInt ( PtrToIntInst CI)
Instruction * InstCombiner::visitReturnInst ( ReturnInst RI)
Instruction * InstCombiner::visitSDiv ( BinaryOperator I)
Instruction* llvm::InstCombiner::visitSelectInst ( SelectInst SI)
Instruction * InstCombiner::visitSExt ( SExtInst CI)
Instruction * InstCombiner::visitShl ( BinaryOperator I)
Instruction * InstCombiner::visitShuffleVectorInst ( ShuffleVectorInst SVI)
Instruction * InstCombiner::visitSIToFP ( CastInst CI)

Definition at line 1490 of file InstCombineCasts.cpp.

Instruction * InstCombiner::visitSRem ( BinaryOperator I)
Instruction * InstCombiner::visitStoreInst ( StoreInst SI)
Instruction * InstCombiner::visitSub ( BinaryOperator I)
Instruction * InstCombiner::visitSwitchInst ( SwitchInst SI)
Instruction * InstCombiner::visitTrunc ( TruncInst CI)
Instruction * InstCombiner::visitUDiv ( BinaryOperator I)
Instruction * InstCombiner::visitUIToFP ( CastInst CI)

Definition at line 1486 of file InstCombineCasts.cpp.

Instruction * InstCombiner::visitURem ( BinaryOperator I)
Instruction * InstCombiner::visitVACopyInst ( VACopyInst I)

Definition at line 1381 of file InstCombineCalls.cpp.

References removeTriviallyEmptyRange().

Instruction * InstCombiner::visitVAStartInst ( VAStartInst I)

Definition at line 1376 of file InstCombineCalls.cpp.

References removeTriviallyEmptyRange().

Instruction * InstCombiner::visitXor ( BinaryOperator I)
Instruction * InstCombiner::visitZExt ( ZExtInst CI)

Member Data Documentation

BuilderTy* llvm::InstCombiner::Builder
InstCombineWorklist& llvm::InstCombiner::Worklist

A worklist of the instructions that need to be simplified.

Definition at line 165 of file InstCombineInternal.h.

Referenced by GetShiftedValue(), processUMulZExtIdiom(), visitLoadInst(), and visitStoreInst().


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