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Switch ScalarEvolution's main Value*->SCEV* map from std::map
to DenseMap. llvm-svn: 112281
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parent
d5777f8e47
commit
636c57c5de
@ -214,9 +214,14 @@ namespace llvm {
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/// counts and things.
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SCEVCouldNotCompute CouldNotCompute;
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/// Scalars - This is a cache of the scalars we have analyzed so far.
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/// ValueExprMapType - The typedef for ValueExprMap.
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///
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std::map<SCEVCallbackVH, const SCEV *> Scalars;
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typedef DenseMap<SCEVCallbackVH, const SCEV *, DenseMapInfo<Value *> >
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ValueExprMapType;
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/// ValueExprMap - This is a cache of the values we have analyzed so far.
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///
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ValueExprMapType ValueExprMap;
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/// BackedgeTakenInfo - Information about the backedge-taken count
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/// of a loop. This currently includes an exact count and a maximum count.
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@ -281,7 +286,7 @@ namespace llvm {
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/// ForgetSymbolicValue - This looks up computed SCEV values for all
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/// instructions that depend on the given instruction and removes them from
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/// the Scalars map if they reference SymName. This is used during PHI
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/// the ValueExprMap map if they reference SymName. This is used during PHI
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/// resolution.
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void ForgetSymbolicName(Instruction *I, const SCEV *SymName);
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@ -2499,15 +2499,15 @@ const SCEV *ScalarEvolution::getCouldNotCompute() {
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const SCEV *ScalarEvolution::getSCEV(Value *V) {
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assert(isSCEVable(V->getType()) && "Value is not SCEVable!");
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std::map<SCEVCallbackVH, const SCEV *>::const_iterator I = Scalars.find(V);
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if (I != Scalars.end()) return I->second;
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ValueExprMapType::const_iterator I = ValueExprMap.find(V);
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if (I != ValueExprMap.end()) return I->second;
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const SCEV *S = createSCEV(V);
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// The process of creating a SCEV for V may have caused other SCEVs
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// to have been created, so it's necessary to insert the new entry
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// from scratch, rather than trying to remember the insert position
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// above.
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Scalars.insert(std::make_pair(SCEVCallbackVH(V, this), S));
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ValueExprMap.insert(std::make_pair(SCEVCallbackVH(V, this), S));
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return S;
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}
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@ -2692,7 +2692,7 @@ PushDefUseChildren(Instruction *I,
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/// ForgetSymbolicValue - This looks up computed SCEV values for all
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/// instructions that depend on the given instruction and removes them from
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/// the Scalars map if they reference SymName. This is used during PHI
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/// the ValueExprMapType map if they reference SymName. This is used during PHI
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/// resolution.
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void
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ScalarEvolution::ForgetSymbolicName(Instruction *PN, const SCEV *SymName) {
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@ -2705,9 +2705,9 @@ ScalarEvolution::ForgetSymbolicName(Instruction *PN, const SCEV *SymName) {
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Instruction *I = Worklist.pop_back_val();
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if (!Visited.insert(I)) continue;
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std::map<SCEVCallbackVH, const SCEV *>::iterator It =
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Scalars.find(static_cast<Value *>(I));
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if (It != Scalars.end()) {
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ValueExprMapType::iterator It =
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ValueExprMap.find(static_cast<Value *>(I));
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if (It != ValueExprMap.end()) {
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// Short-circuit the def-use traversal if the symbolic name
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// ceases to appear in expressions.
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if (It->second != SymName && !It->second->hasOperand(SymName))
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@ -2724,7 +2724,7 @@ ScalarEvolution::ForgetSymbolicName(Instruction *PN, const SCEV *SymName) {
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!isa<SCEVUnknown>(It->second) ||
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(I != PN && It->second == SymName)) {
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ValuesAtScopes.erase(It->second);
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Scalars.erase(It);
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ValueExprMap.erase(It);
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}
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}
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@ -2761,9 +2761,9 @@ const SCEV *ScalarEvolution::createNodeForPHI(PHINode *PN) {
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if (BEValueV && StartValueV) {
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// While we are analyzing this PHI node, handle its value symbolically.
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const SCEV *SymbolicName = getUnknown(PN);
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assert(Scalars.find(PN) == Scalars.end() &&
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assert(ValueExprMap.find(PN) == ValueExprMap.end() &&
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"PHI node already processed?");
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Scalars.insert(std::make_pair(SCEVCallbackVH(PN, this), SymbolicName));
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ValueExprMap.insert(std::make_pair(SCEVCallbackVH(PN, this), SymbolicName));
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// Using this symbolic name for the PHI, analyze the value coming around
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// the back-edge.
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@ -2824,7 +2824,7 @@ const SCEV *ScalarEvolution::createNodeForPHI(PHINode *PN) {
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// to be symbolic. We now need to go back and purge all of the
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// entries for the scalars that use the symbolic expression.
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ForgetSymbolicName(PN, SymbolicName);
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Scalars[SCEVCallbackVH(PN, this)] = PHISCEV;
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ValueExprMap[SCEVCallbackVH(PN, this)] = PHISCEV;
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return PHISCEV;
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}
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}
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@ -2849,7 +2849,7 @@ const SCEV *ScalarEvolution::createNodeForPHI(PHINode *PN) {
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// to be symbolic. We now need to go back and purge all of the
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// entries for the scalars that use the symbolic expression.
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ForgetSymbolicName(PN, SymbolicName);
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Scalars[SCEVCallbackVH(PN, this)] = PHISCEV;
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ValueExprMap[SCEVCallbackVH(PN, this)] = PHISCEV;
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return PHISCEV;
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}
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}
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@ -3721,9 +3721,9 @@ ScalarEvolution::getBackedgeTakenInfo(const Loop *L) {
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Instruction *I = Worklist.pop_back_val();
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if (!Visited.insert(I)) continue;
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std::map<SCEVCallbackVH, const SCEV *>::iterator It =
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Scalars.find(static_cast<Value *>(I));
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if (It != Scalars.end()) {
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ValueExprMapType::iterator It =
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ValueExprMap.find(static_cast<Value *>(I));
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if (It != ValueExprMap.end()) {
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// SCEVUnknown for a PHI either means that it has an unrecognized
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// structure, or it's a PHI that's in the progress of being computed
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// by createNodeForPHI. In the former case, additional loop trip
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@ -3732,7 +3732,7 @@ ScalarEvolution::getBackedgeTakenInfo(const Loop *L) {
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// own when it gets to that point.
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if (!isa<PHINode>(I) || !isa<SCEVUnknown>(It->second)) {
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ValuesAtScopes.erase(It->second);
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Scalars.erase(It);
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ValueExprMap.erase(It);
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}
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if (PHINode *PN = dyn_cast<PHINode>(I))
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ConstantEvolutionLoopExitValue.erase(PN);
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@ -3761,11 +3761,10 @@ void ScalarEvolution::forgetLoop(const Loop *L) {
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Instruction *I = Worklist.pop_back_val();
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if (!Visited.insert(I)) continue;
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std::map<SCEVCallbackVH, const SCEV *>::iterator It =
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Scalars.find(static_cast<Value *>(I));
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if (It != Scalars.end()) {
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ValueExprMapType::iterator It = ValueExprMap.find(static_cast<Value *>(I));
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if (It != ValueExprMap.end()) {
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ValuesAtScopes.erase(It->second);
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Scalars.erase(It);
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ValueExprMap.erase(It);
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if (PHINode *PN = dyn_cast<PHINode>(I))
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ConstantEvolutionLoopExitValue.erase(PN);
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}
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@ -3790,11 +3789,10 @@ void ScalarEvolution::forgetValue(Value *V) {
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I = Worklist.pop_back_val();
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if (!Visited.insert(I)) continue;
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std::map<SCEVCallbackVH, const SCEV *>::iterator It =
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Scalars.find(static_cast<Value *>(I));
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if (It != Scalars.end()) {
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ValueExprMapType::iterator It = ValueExprMap.find(static_cast<Value *>(I));
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if (It != ValueExprMap.end()) {
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ValuesAtScopes.erase(It->second);
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Scalars.erase(It);
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ValueExprMap.erase(It);
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if (PHINode *PN = dyn_cast<PHINode>(I))
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ConstantEvolutionLoopExitValue.erase(PN);
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}
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@ -5780,7 +5778,7 @@ void ScalarEvolution::SCEVCallbackVH::deleted() {
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assert(SE && "SCEVCallbackVH called with a null ScalarEvolution!");
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if (PHINode *PN = dyn_cast<PHINode>(getValPtr()))
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SE->ConstantEvolutionLoopExitValue.erase(PN);
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SE->Scalars.erase(getValPtr());
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SE->ValueExprMap.erase(getValPtr());
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// this now dangles!
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}
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@ -5806,7 +5804,7 @@ void ScalarEvolution::SCEVCallbackVH::allUsesReplacedWith(Value *V) {
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continue;
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if (PHINode *PN = dyn_cast<PHINode>(U))
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SE->ConstantEvolutionLoopExitValue.erase(PN);
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SE->Scalars.erase(U);
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SE->ValueExprMap.erase(U);
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for (Value::use_iterator UI = U->use_begin(), UE = U->use_end();
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UI != UE; ++UI)
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Worklist.push_back(*UI);
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@ -5814,7 +5812,7 @@ void ScalarEvolution::SCEVCallbackVH::allUsesReplacedWith(Value *V) {
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// Delete the Old value.
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if (PHINode *PN = dyn_cast<PHINode>(Old))
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SE->ConstantEvolutionLoopExitValue.erase(PN);
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SE->Scalars.erase(Old);
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SE->ValueExprMap.erase(Old);
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// this now dangles!
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}
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@ -5844,7 +5842,7 @@ void ScalarEvolution::releaseMemory() {
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U->~SCEVUnknown();
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FirstUnknown = 0;
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Scalars.clear();
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ValueExprMap.clear();
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BackedgeTakenCounts.clear();
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ConstantEvolutionLoopExitValue.clear();
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ValuesAtScopes.clear();
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