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faac518ce0
dead stores on 400.perlbench. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@39929 91177308-0d34-0410-b5e6-96231b3b80d8
280 lines
10 KiB
C++
280 lines
10 KiB
C++
//===- MemoryDependenceAnalysis.cpp - Mem Deps Implementation --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the Owen Anderson and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements an analysis that determines, for a given memory
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// operation, what preceding memory operations it depends on. It builds on
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// alias analysis information, and tries to provide a lazy, caching interface to
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// a common kind of alias information query.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/MemoryDependenceAnalysis.h"
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#include "llvm/Constants.h"
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#include "llvm/Instructions.h"
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#include "llvm/Function.h"
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#include "llvm/Analysis/AliasAnalysis.h"
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#include "llvm/Target/TargetData.h"
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using namespace llvm;
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char MemoryDependenceAnalysis::ID = 0;
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Instruction* MemoryDependenceAnalysis::NonLocal = (Instruction*)0;
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Instruction* MemoryDependenceAnalysis::None = (Instruction*)~0;
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// Register this pass...
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static RegisterPass<MemoryDependenceAnalysis> X("memdep",
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"Memory Dependence Analysis");
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/// getAnalysisUsage - Does not modify anything. It uses Alias Analysis.
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///
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void MemoryDependenceAnalysis::getAnalysisUsage(AnalysisUsage &AU) const {
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AU.setPreservesAll();
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AU.addRequiredTransitive<AliasAnalysis>();
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AU.addRequiredTransitive<TargetData>();
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}
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// Find the dependency of a CallSite
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Instruction* MemoryDependenceAnalysis::getCallSiteDependency(CallSite C, Instruction* start,
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bool local) {
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assert(local && "Non-local memory dependence analysis not yet implemented");
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AliasAnalysis& AA = getAnalysis<AliasAnalysis>();
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TargetData& TD = getAnalysis<TargetData>();
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BasicBlock::iterator blockBegin = C.getInstruction()->getParent()->begin();
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BasicBlock::iterator QI = C.getInstruction();
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while (QI != blockBegin) {
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--QI;
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// If this inst is a memory op, get the pointer it accessed
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Value* pointer = 0;
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uint64_t pointerSize = 0;
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if (StoreInst* S = dyn_cast<StoreInst>(QI)) {
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pointer = S->getPointerOperand();
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pointerSize = TD.getTypeSize(S->getOperand(0)->getType());
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} else if (LoadInst* L = dyn_cast<LoadInst>(QI)) {
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pointer = L->getPointerOperand();
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pointerSize = TD.getTypeSize(L->getType());
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} else if (AllocationInst* AI = dyn_cast<AllocationInst>(QI)) {
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pointer = AI;
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if (ConstantInt* C = dyn_cast<ConstantInt>(AI->getArraySize()))
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pointerSize = C->getZExtValue() * TD.getTypeSize(AI->getAllocatedType());
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else
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pointerSize = ~0UL;
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} else if (VAArgInst* V = dyn_cast<VAArgInst>(QI)) {
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pointer = V->getOperand(0);
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pointerSize = TD.getTypeSize(V->getType());
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} else if (FreeInst* F = dyn_cast<FreeInst>(QI)) {
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pointer = F->getPointerOperand();
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// FreeInsts erase the entire structure
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pointerSize = ~0UL;
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} else if (CallSite::get(QI).getInstruction() != 0) {
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if (AA.getModRefInfo(C, CallSite::get(QI)) != AliasAnalysis::NoModRef) {
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depGraphLocal.insert(std::make_pair(C.getInstruction(), std::make_pair(QI, true)));
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reverseDep.insert(std::make_pair(QI, C.getInstruction()));
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return QI;
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} else {
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continue;
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}
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} else
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continue;
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if (AA.getModRefInfo(C, pointer, pointerSize) != AliasAnalysis::NoModRef) {
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depGraphLocal.insert(std::make_pair(C.getInstruction(), std::make_pair(QI, true)));
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reverseDep.insert(std::make_pair(QI, C.getInstruction()));
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return QI;
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}
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}
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// No dependence found
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depGraphLocal.insert(std::make_pair(C.getInstruction(), std::make_pair(NonLocal, true)));
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reverseDep.insert(std::make_pair(NonLocal, C.getInstruction()));
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return NonLocal;
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}
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/// getDependency - Return the instruction on which a memory operation
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/// depends. The local paramter indicates if the query should only
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/// evaluate dependencies within the same basic block.
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Instruction* MemoryDependenceAnalysis::getDependency(Instruction* query,
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Instruction* start,
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bool local) {
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if (!local)
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assert(0 && "Non-local memory dependence is not yet supported.");
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// Start looking for dependencies with the queried inst
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BasicBlock::iterator QI = query;
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// Check for a cached result
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std::pair<Instruction*, bool> cachedResult = depGraphLocal[query];
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// If we have a _confirmed_ cached entry, return it
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if (cachedResult.second)
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return cachedResult.first;
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else if (cachedResult.first != NonLocal)
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// If we have an unconfirmed cached entry, we can start our search from there
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QI = cachedResult.first;
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if (start)
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QI = start;
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AliasAnalysis& AA = getAnalysis<AliasAnalysis>();
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TargetData& TD = getAnalysis<TargetData>();
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// Get the pointer value for which dependence will be determined
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Value* dependee = 0;
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uint64_t dependeeSize = 0;
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bool queryIsVolatile = false;
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if (StoreInst* S = dyn_cast<StoreInst>(query)) {
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dependee = S->getPointerOperand();
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dependeeSize = TD.getTypeSize(S->getOperand(0)->getType());
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queryIsVolatile = S->isVolatile();
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} else if (LoadInst* L = dyn_cast<LoadInst>(query)) {
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dependee = L->getPointerOperand();
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dependeeSize = TD.getTypeSize(L->getType());
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queryIsVolatile = L->isVolatile();
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} else if (VAArgInst* V = dyn_cast<VAArgInst>(query)) {
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dependee = V->getOperand(0);
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dependeeSize = TD.getTypeSize(V->getType());
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} else if (FreeInst* F = dyn_cast<FreeInst>(query)) {
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dependee = F->getPointerOperand();
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// FreeInsts erase the entire structure, not just a field
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dependeeSize = ~0UL;
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} else if (CallSite::get(query).getInstruction() != 0)
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return getCallSiteDependency(CallSite::get(query), start);
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else if (isa<AllocationInst>(query))
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return None;
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else
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return None;
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BasicBlock::iterator blockBegin = query->getParent()->begin();
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while (QI != blockBegin) {
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--QI;
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// If this inst is a memory op, get the pointer it accessed
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Value* pointer = 0;
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uint64_t pointerSize = 0;
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if (StoreInst* S = dyn_cast<StoreInst>(QI)) {
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// All volatile loads/stores depend on each other
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if (queryIsVolatile && S->isVolatile()) {
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if (!start) {
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depGraphLocal.insert(std::make_pair(query, std::make_pair(S, true)));
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reverseDep.insert(std::make_pair(S, query));
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}
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return S;
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}
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pointer = S->getPointerOperand();
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pointerSize = TD.getTypeSize(S->getOperand(0)->getType());
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} else if (LoadInst* L = dyn_cast<LoadInst>(QI)) {
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// All volatile loads/stores depend on each other
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if (queryIsVolatile && L->isVolatile()) {
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if (!start) {
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depGraphLocal.insert(std::make_pair(query, std::make_pair(L, true)));
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reverseDep.insert(std::make_pair(L, query));
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}
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return L;
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}
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pointer = L->getPointerOperand();
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pointerSize = TD.getTypeSize(L->getType());
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} else if (AllocationInst* AI = dyn_cast<AllocationInst>(QI)) {
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pointer = AI;
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if (ConstantInt* C = dyn_cast<ConstantInt>(AI->getArraySize()))
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pointerSize = C->getZExtValue() * TD.getTypeSize(AI->getAllocatedType());
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else
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pointerSize = ~0UL;
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} else if (VAArgInst* V = dyn_cast<VAArgInst>(QI)) {
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pointer = V->getOperand(0);
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pointerSize = TD.getTypeSize(V->getType());
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} else if (FreeInst* F = dyn_cast<FreeInst>(QI)) {
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pointer = F->getPointerOperand();
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// FreeInsts erase the entire structure
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pointerSize = ~0UL;
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} else if (CallSite::get(QI).getInstruction() != 0) {
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// Call insts need special handling. Check is they can modify our pointer
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if (AA.getModRefInfo(CallSite::get(QI), dependee, dependeeSize) !=
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AliasAnalysis::NoModRef) {
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if (!start) {
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depGraphLocal.insert(std::make_pair(query, std::make_pair(QI, true)));
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reverseDep.insert(std::make_pair(QI, query));
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}
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return QI;
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} else {
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continue;
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}
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}
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// If we found a pointer, check if it could be the same as our pointer
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if (pointer) {
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AliasAnalysis::AliasResult R = AA.alias(pointer, pointerSize,
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dependee, dependeeSize);
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if (R != AliasAnalysis::NoAlias) {
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if (!start) {
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depGraphLocal.insert(std::make_pair(query, std::make_pair(QI, true)));
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reverseDep.insert(std::make_pair(QI, query));
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}
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return QI;
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}
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}
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}
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// If we found nothing, return the non-local flag
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if (!start) {
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depGraphLocal.insert(std::make_pair(query,
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std::make_pair(NonLocal, true)));
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reverseDep.insert(std::make_pair(NonLocal, query));
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}
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return NonLocal;
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}
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/// removeInstruction - Remove an instruction from the dependence analysis,
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/// updating the dependence of instructions that previously depended on it.
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void MemoryDependenceAnalysis::removeInstruction(Instruction* rem) {
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// Figure out the new dep for things that currently depend on rem
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Instruction* newDep = NonLocal;
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if (depGraphLocal[rem].first != NonLocal) {
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// If we have dep info for rem, set them to it
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BasicBlock::iterator RI = depGraphLocal[rem].first;
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RI++;
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newDep = RI;
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} else if (depGraphLocal[rem].first == NonLocal &&
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depGraphLocal[rem].second ) {
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// If we have a confirmed non-local flag, use it
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newDep = NonLocal;
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} else {
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// Otherwise, use the immediate successor of rem
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// NOTE: This is because, when getDependence is called, it will first check
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// the immediate predecessor of what is in the cache.
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BasicBlock::iterator RI = rem;
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RI++;
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newDep = RI;
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}
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std::multimap<Instruction*, Instruction*>::iterator I = reverseDep.find(rem);
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while (I->first == rem) {
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// Insert the new dependencies
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// Mark it as unconfirmed as long as it is not the non-local flag
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depGraphLocal[I->second] = std::make_pair(newDep, !newDep);
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reverseDep.erase(I);
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I = reverseDep.find(rem);
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}
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getAnalysis<AliasAnalysis>().deleteValue(rem);
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}
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