#include "InstCombine.h"#include "llvm/Analysis/ConstantFolding.h"#include "llvm/Analysis/InstructionSimplify.h"#include "llvm/IR/IntrinsicInst.h"#include "llvm/IR/PatternMatch.h"
Go to the source code of this file.
Defines | |
| #define | DEBUG_TYPE "instcombine" |
Functions | |
| static bool | CanEvaluateShifted (Value *V, unsigned NumBits, bool isLeftShift, InstCombiner &IC, Instruction *CxtI) |
| static Value * | GetShiftedValue (Value *V, unsigned NumBits, bool isLeftShift, InstCombiner &IC) |
Define Documentation
| #define DEBUG_TYPE "instcombine" |
Definition at line 22 of file InstCombineShifts.cpp.
Function Documentation
| static bool CanEvaluateShifted | ( | Value * | V, |
| unsigned | NumBits, | ||
| bool | isLeftShift, | ||
| InstCombiner & | IC, | ||
| Instruction * | CxtI | ||
| ) | [static] |
CanEvaluateShifted - See if we can compute the specified value, but shifted logically to the left or right by some number of bits. This should return true if the expression can be computed for the same cost as the current expression tree. This is used to eliminate extraneous shifting from things like: C = shl i128 A, 64 D = shl i128 B, 96 E = or i128 C, D F = lshr i128 E, 64 where the client will ask if E can be computed shifted right by 64-bits. If this succeeds, the GetShiftedValue function will be called to produce the value.
Definition at line 70 of file InstCombineShifts.cpp.
References llvm::APIntOps::And(), CanEvaluateTruncated(), llvm::dyn_cast(), llvm::SelectInst::getFalseValue(), llvm::APInt::getHighBitsSet(), llvm::PHINode::getIncomingValue(), llvm::ConstantInt::getLimitedValue(), llvm::APInt::getLowBitsSet(), llvm::PHINode::getNumIncomingValues(), llvm::Instruction::getOpcode(), llvm::User::getOperand(), llvm::Type::getScalarSizeInBits(), llvm::SelectInst::getTrueValue(), llvm::Value::getType(), llvm::ConstantInt::getValue(), llvm::ConstantInt::getZExtValue(), llvm::Value::hasOneUse(), I, llvm::LShr, llvm::PatternMatch::m_ConstantInt(), llvm::PatternMatch::m_LShr(), llvm::PatternMatch::m_Shl(), llvm::PatternMatch::m_Value(), llvm::MaskedValueIsZero(), llvm::PatternMatch::match(), llvm::APIntOps::Or(), llvm::TargetOpcode::PHI, llvm::MCID::Select, llvm::APInt::ult(), and llvm::APIntOps::Xor().
Referenced by llvm::InstCombiner::FoldShiftByConstant().
| static Value* GetShiftedValue | ( | Value * | V, |
| unsigned | NumBits, | ||
| bool | isLeftShift, | ||
| InstCombiner & | IC | ||
| ) | [static] |
GetShiftedValue - When CanEvaluateShifted returned true for an expression, this value inserts the new computation that produces the shifted value.
Definition at line 189 of file InstCombineShifts.cpp.
References llvm::InstCombineWorklist::Add(), llvm::APIntOps::And(), llvm::InstCombiner::Builder, llvm::CallingConv::C, llvm::WinEH::CE, llvm::ConstantFoldConstantExpression(), llvm::IRBuilder< preserveNames, T, Inserter >::CreateAnd(), llvm::IRBuilder< preserveNames, T, Inserter >::CreateLShr(), llvm::IRBuilder< preserveNames, T, Inserter >::CreateShl(), llvm::ConstantInt::get(), llvm::Value::getContext(), llvm::InstCombiner::getDataLayout(), llvm::APInt::getHighBitsSet(), llvm::PHINode::getIncomingValue(), llvm::APInt::getLowBitsSet(), llvm::Constant::getNullValue(), llvm::PHINode::getNumIncomingValues(), llvm::Instruction::getOpcode(), llvm::User::getOperand(), llvm::Type::getScalarSizeInBits(), llvm::InstCombiner::getTargetLibraryInfo(), llvm::Value::getType(), llvm::ConstantInt::getValue(), llvm::ConstantInt::getZExtValue(), I, llvm_unreachable, llvm::LShr, llvm::APIntOps::Or(), llvm::TargetOpcode::PHI, llvm::MCID::Select, llvm::BinaryOperator::setHasNoSignedWrap(), llvm::BinaryOperator::setHasNoUnsignedWrap(), llvm::PHINode::setIncomingValue(), llvm::BinaryOperator::setIsExact(), llvm::User::setOperand(), llvm::Value::takeName(), llvm::InstCombiner::Worklist, and llvm::APIntOps::Xor().
Referenced by llvm::InstCombiner::FoldShiftByConstant().
1.7.6.1