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0ecf67f2fe
Update some comments to be more explicit. Change bypassSlowDivision and the functions it calls so that they take BasicBlock*s and Instruction*s, rather than Function::iterator&s and BasicBlock::iterator&s. Change the APIs so that the caller is responsible for updating the iterator, rather than the callee. This makes control flow much easier to follow. Patch by Justin Lebar! git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@256789 91177308-0d34-0410-b5e6-96231b3b80d8
252 lines
9.3 KiB
C++
252 lines
9.3 KiB
C++
//===-- BypassSlowDivision.cpp - Bypass slow division ---------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains an optimization for div and rem on architectures that
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// execute short instructions significantly faster than longer instructions.
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// For example, on Intel Atom 32-bit divides are slow enough that during
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// runtime it is profitable to check the value of the operands, and if they are
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// positive and less than 256 use an unsigned 8-bit divide.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Transforms/Utils/BypassSlowDivision.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Instructions.h"
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using namespace llvm;
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#define DEBUG_TYPE "bypass-slow-division"
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namespace {
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struct DivOpInfo {
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bool SignedOp;
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Value *Dividend;
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Value *Divisor;
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DivOpInfo(bool InSignedOp, Value *InDividend, Value *InDivisor)
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: SignedOp(InSignedOp), Dividend(InDividend), Divisor(InDivisor) {}
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};
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struct DivPhiNodes {
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PHINode *Quotient;
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PHINode *Remainder;
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DivPhiNodes(PHINode *InQuotient, PHINode *InRemainder)
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: Quotient(InQuotient), Remainder(InRemainder) {}
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};
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}
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namespace llvm {
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template<>
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struct DenseMapInfo<DivOpInfo> {
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static bool isEqual(const DivOpInfo &Val1, const DivOpInfo &Val2) {
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return Val1.SignedOp == Val2.SignedOp &&
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Val1.Dividend == Val2.Dividend &&
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Val1.Divisor == Val2.Divisor;
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}
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static DivOpInfo getEmptyKey() {
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return DivOpInfo(false, nullptr, nullptr);
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}
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static DivOpInfo getTombstoneKey() {
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return DivOpInfo(true, nullptr, nullptr);
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}
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static unsigned getHashValue(const DivOpInfo &Val) {
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return (unsigned)(reinterpret_cast<uintptr_t>(Val.Dividend) ^
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reinterpret_cast<uintptr_t>(Val.Divisor)) ^
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(unsigned)Val.SignedOp;
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}
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};
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typedef DenseMap<DivOpInfo, DivPhiNodes> DivCacheTy;
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}
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// insertFastDiv - Substitutes the div/rem instruction with code that checks the
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// value of the operands and uses a shorter-faster div/rem instruction when
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// possible and the longer-slower div/rem instruction otherwise.
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static bool insertFastDiv(Instruction *I, IntegerType *BypassType,
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bool UseDivOp, bool UseSignedOp,
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DivCacheTy &PerBBDivCache) {
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Function *F = I->getParent()->getParent();
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// Get instruction operands
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Value *Dividend = I->getOperand(0);
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Value *Divisor = I->getOperand(1);
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if (isa<ConstantInt>(Divisor) ||
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(isa<ConstantInt>(Dividend) && isa<ConstantInt>(Divisor))) {
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// Operations with immediate values should have
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// been solved and replaced during compile time.
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return false;
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}
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// Basic Block is split before divide
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BasicBlock *MainBB = &*I->getParent();
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BasicBlock *SuccessorBB = MainBB->splitBasicBlock(I);
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// Add new basic block for slow divide operation
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BasicBlock *SlowBB =
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BasicBlock::Create(F->getContext(), "", MainBB->getParent(), SuccessorBB);
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SlowBB->moveBefore(SuccessorBB);
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IRBuilder<> SlowBuilder(SlowBB, SlowBB->begin());
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Value *SlowQuotientV;
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Value *SlowRemainderV;
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if (UseSignedOp) {
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SlowQuotientV = SlowBuilder.CreateSDiv(Dividend, Divisor);
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SlowRemainderV = SlowBuilder.CreateSRem(Dividend, Divisor);
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} else {
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SlowQuotientV = SlowBuilder.CreateUDiv(Dividend, Divisor);
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SlowRemainderV = SlowBuilder.CreateURem(Dividend, Divisor);
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}
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SlowBuilder.CreateBr(SuccessorBB);
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// Add new basic block for fast divide operation
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BasicBlock *FastBB =
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BasicBlock::Create(F->getContext(), "", MainBB->getParent(), SuccessorBB);
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FastBB->moveBefore(SlowBB);
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IRBuilder<> FastBuilder(FastBB, FastBB->begin());
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Value *ShortDivisorV = FastBuilder.CreateCast(Instruction::Trunc, Divisor,
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BypassType);
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Value *ShortDividendV = FastBuilder.CreateCast(Instruction::Trunc, Dividend,
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BypassType);
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// udiv/urem because optimization only handles positive numbers
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Value *ShortQuotientV = FastBuilder.CreateExactUDiv(ShortDividendV,
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ShortDivisorV);
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Value *ShortRemainderV = FastBuilder.CreateURem(ShortDividendV,
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ShortDivisorV);
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Value *FastQuotientV = FastBuilder.CreateCast(Instruction::ZExt,
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ShortQuotientV,
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Dividend->getType());
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Value *FastRemainderV = FastBuilder.CreateCast(Instruction::ZExt,
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ShortRemainderV,
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Dividend->getType());
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FastBuilder.CreateBr(SuccessorBB);
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// Phi nodes for result of div and rem
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IRBuilder<> SuccessorBuilder(SuccessorBB, SuccessorBB->begin());
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PHINode *QuoPhi = SuccessorBuilder.CreatePHI(I->getType(), 2);
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QuoPhi->addIncoming(SlowQuotientV, SlowBB);
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QuoPhi->addIncoming(FastQuotientV, FastBB);
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PHINode *RemPhi = SuccessorBuilder.CreatePHI(I->getType(), 2);
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RemPhi->addIncoming(SlowRemainderV, SlowBB);
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RemPhi->addIncoming(FastRemainderV, FastBB);
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// Replace I with appropriate phi node
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if (UseDivOp)
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I->replaceAllUsesWith(QuoPhi);
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else
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I->replaceAllUsesWith(RemPhi);
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I->eraseFromParent();
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// Combine operands into a single value with OR for value testing below
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MainBB->getInstList().back().eraseFromParent();
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IRBuilder<> MainBuilder(MainBB, MainBB->end());
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Value *OrV = MainBuilder.CreateOr(Dividend, Divisor);
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// BitMask is inverted to check if the operands are
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// larger than the bypass type
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uint64_t BitMask = ~BypassType->getBitMask();
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Value *AndV = MainBuilder.CreateAnd(OrV, BitMask);
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// Compare operand values and branch
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Value *ZeroV = ConstantInt::getSigned(Dividend->getType(), 0);
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Value *CmpV = MainBuilder.CreateICmpEQ(AndV, ZeroV);
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MainBuilder.CreateCondBr(CmpV, FastBB, SlowBB);
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// Cache phi nodes to be used later in place of other instances
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// of div or rem with the same sign, dividend, and divisor
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DivOpInfo Key(UseSignedOp, Dividend, Divisor);
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DivPhiNodes Value(QuoPhi, RemPhi);
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PerBBDivCache.insert(std::pair<DivOpInfo, DivPhiNodes>(Key, Value));
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return true;
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}
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// reuseOrInsertFastDiv - Reuses previously computed dividend or remainder from
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// the current BB if operands and operation are identical. Otherwise calls
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// insertFastDiv to perform the optimization and caches the resulting dividend
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// and remainder.
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static bool reuseOrInsertFastDiv(Instruction *I, IntegerType *BypassType,
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bool UseDivOp, bool UseSignedOp,
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DivCacheTy &PerBBDivCache) {
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// Get instruction operands
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DivOpInfo Key(UseSignedOp, I->getOperand(0), I->getOperand(1));
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DivCacheTy::iterator CacheI = PerBBDivCache.find(Key);
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if (CacheI == PerBBDivCache.end()) {
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// If previous instance does not exist, insert fast div
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return insertFastDiv(I, BypassType, UseDivOp, UseSignedOp, PerBBDivCache);
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}
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// Replace operation value with previously generated phi node
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DivPhiNodes &Value = CacheI->second;
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if (UseDivOp) {
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// Replace all uses of div instruction with quotient phi node
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I->replaceAllUsesWith(Value.Quotient);
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} else {
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// Replace all uses of rem instruction with remainder phi node
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I->replaceAllUsesWith(Value.Remainder);
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}
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// Remove redundant operation
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I->eraseFromParent();
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return true;
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}
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// bypassSlowDivision - This optimization identifies DIV instructions in a BB
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// that can be profitably bypassed and carried out with a shorter, faster
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// divide.
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bool llvm::bypassSlowDivision(
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BasicBlock *BB, const DenseMap<unsigned int, unsigned int> &BypassWidths) {
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DivCacheTy DivCache;
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bool MadeChange = false;
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Instruction* Next = &*BB->begin();
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while (Next != nullptr) {
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// We may add instructions immediately after I, but we want to skip over
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// them.
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Instruction* I = Next;
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Next = Next->getNextNode();
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// Get instruction details
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unsigned Opcode = I->getOpcode();
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bool UseDivOp = Opcode == Instruction::SDiv || Opcode == Instruction::UDiv;
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bool UseRemOp = Opcode == Instruction::SRem || Opcode == Instruction::URem;
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bool UseSignedOp = Opcode == Instruction::SDiv ||
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Opcode == Instruction::SRem;
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// Only optimize div or rem ops
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if (!UseDivOp && !UseRemOp)
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continue;
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// Skip division on vector types, only optimize integer instructions
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if (!I->getType()->isIntegerTy())
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continue;
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// Get bitwidth of div/rem instruction
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IntegerType *T = cast<IntegerType>(I->getType());
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unsigned int bitwidth = T->getBitWidth();
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// Continue if bitwidth is not bypassed
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DenseMap<unsigned int, unsigned int>::const_iterator BI = BypassWidths.find(bitwidth);
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if (BI == BypassWidths.end())
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continue;
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// Get type for div/rem instruction with bypass bitwidth
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IntegerType *BT = IntegerType::get(I->getContext(), BI->second);
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MadeChange |= reuseOrInsertFastDiv(I, BT, UseDivOp, UseSignedOp, DivCache);
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}
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return MadeChange;
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}
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