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Maintain ETNode as part of DomTreeNode.
This adds redundancy for now. llvm-svn: 37492
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968030663f
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babcd06827
@ -63,6 +63,7 @@ public:
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class DomTreeNode {
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BasicBlock *TheBB;
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DomTreeNode *IDom;
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ETNode *ETN;
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std::vector<DomTreeNode*> Children;
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public:
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typedef std::vector<DomTreeNode*>::iterator iterator;
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@ -75,28 +76,14 @@ public:
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inline BasicBlock *getBlock() const { return TheBB; }
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inline DomTreeNode *getIDom() const { return IDom; }
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inline ETNode *getETNode() const { return ETN; }
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inline const std::vector<DomTreeNode*> &getChildren() const { return Children; }
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/// properlyDominates - Returns true iff this dominates N and this != N.
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/// Note that this is not a constant time operation!
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///
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bool properlyDominates(const DomTreeNode *N) const {
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const DomTreeNode *IDom;
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if (this == 0 || N == 0) return false;
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while ((IDom = N->getIDom()) != 0 && IDom != this)
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N = IDom; // Walk up the tree
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return IDom != 0;
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inline DomTreeNode(BasicBlock *BB, DomTreeNode *iDom, ETNode *E)
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: TheBB(BB), IDom(iDom), ETN(E) {
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if (IDom)
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ETN->setFather(IDom->getETNode());
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}
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/// dominates - Returns true iff this dominates N. Note that this is not a
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/// constant time operation!
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///
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inline bool dominates(const DomTreeNode *N) const {
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if (N == this) return true; // A node trivially dominates itself.
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return properlyDominates(N);
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}
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inline DomTreeNode(BasicBlock *BB, DomTreeNode *iDom) : TheBB(BB), IDom(iDom) {}
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inline DomTreeNode *addChild(DomTreeNode *C) { Children.push_back(C); return C; }
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void setIDom(DomTreeNode *NewIDom);
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};
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@ -107,12 +94,16 @@ public:
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class DominatorTreeBase : public DominatorBase {
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protected:
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std::map<BasicBlock*, DomTreeNode*> DomTreeNodes;
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void reset();
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typedef std::map<BasicBlock*, DomTreeNode*> DomTreeNodeMapType;
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DomTreeNodeMapType DomTreeNodes;
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DomTreeNode *RootNode;
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typedef std::map<BasicBlock*, ETNode*> ETMapType;
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ETMapType ETNodes;
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bool DFSInfoValid;
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unsigned int SlowQueries;
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// Information record used during immediate dominators computation.
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struct InfoRec {
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unsigned Semi;
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@ -134,7 +125,7 @@ protected:
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public:
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DominatorTreeBase(intptr_t ID, bool isPostDom)
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: DominatorBase(ID, isPostDom) {}
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: DominatorBase(ID, isPostDom), DFSInfoValid(false), SlowQueries(0) {}
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~DominatorTreeBase() { reset(); }
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virtual void releaseMemory() { reset(); }
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@ -161,6 +152,47 @@ protected:
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DomTreeNode *getRootNode() { return RootNode; }
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const DomTreeNode *getRootNode() const { return RootNode; }
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/// properlyDominates - Returns true iff this dominates N and this != N.
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/// Note that this is not a constant time operation!
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///
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bool properlyDominates(const DomTreeNode *A, DomTreeNode *B) const {
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if (A == 0 || B == 0) return false;
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return dominatedBySlowTreeWalk(A, B);
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}
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bool dominatedBySlowTreeWalk(const DomTreeNode *A,
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const DomTreeNode *B) const {
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const DomTreeNode *IDom;
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if (A == 0 || B == 0) return false;
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while ((IDom = B->getIDom()) != 0 && IDom != A)
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B = IDom; // Walk up the tree
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return IDom != 0;
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}
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void updateDFSNumbers();
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/// dominates - Returns true iff this dominates N. Note that this is not a
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/// constant time operation!
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///
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inline bool dominates(const DomTreeNode *A, DomTreeNode *B) {
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if (B == A) return true; // A node trivially dominates itself.
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ETNode *NodeA = A->getETNode();
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ETNode *NodeB = B->getETNode();
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if (DFSInfoValid)
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return NodeB->DominatedBy(NodeA);
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// If we end up with too many slow queries, just update the
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// DFS numbers on the theory that we are going to keep querying.
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SlowQueries++;
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if (SlowQueries > 32) {
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updateDFSNumbers();
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return NodeB->DominatedBy(NodeA);
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}
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//return NodeB->DominatedBySlow(NodeA);
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return dominatedBySlowTreeWalk(A, B);
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}
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//===--------------------------------------------------------------------===//
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// API to update (Post)DominatorTree information based on modifications to
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// the CFG...
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@ -172,7 +204,11 @@ protected:
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assert(getNode(BB) == 0 && "Block already in dominator tree!");
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DomTreeNode *IDomNode = getNode(DomBB);
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assert(IDomNode && "Not immediate dominator specified for block!");
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return DomTreeNodes[BB] = IDomNode->addChild(new DomTreeNode(BB, IDomNode));
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DFSInfoValid = false;
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ETNode *E = new ETNode(BB);
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ETNodes[BB] = E;
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return DomTreeNodes[BB] =
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IDomNode->addChild(new DomTreeNode(BB, IDomNode, E));
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}
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/// changeImmediateDominator - This method is used to update the dominator
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@ -180,6 +216,7 @@ protected:
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///
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void changeImmediateDominator(DomTreeNode *N, DomTreeNode *NewIDom) {
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assert(N && NewIDom && "Cannot change null node pointers!");
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DFSInfoValid = false;
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N->setIDom(NewIDom);
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}
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@ -187,7 +224,6 @@ protected:
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changeImmediateDominator(getNode(BB), getNode(NewBB));
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}
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/// removeNode - Removes a node from the dominator tree. Block must not
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/// dominate any other blocks. Invalidates any node pointing to removed
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/// block.
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@ -165,7 +165,9 @@ void PostDominatorTree::calculate(Function &F) {
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// one exit block, or it may be the virtual exit (denoted by (BasicBlock *)0)
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// which postdominates all real exits if there are multiple exit blocks.
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BasicBlock *Root = Roots.size() == 1 ? Roots[0] : 0;
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DomTreeNodes[Root] = RootNode = new DomTreeNode(Root, 0);
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ETNode *ERoot = new ETNode(Root);
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ETNodes[Root] = ERoot;
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DomTreeNodes[Root] = RootNode = new DomTreeNode(Root, 0, ERoot);
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// Loop over all of the reachable blocks in the function...
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for (Function::iterator I = F.begin(), E = F.end(); I != E; ++I)
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@ -177,7 +179,11 @@ void PostDominatorTree::calculate(Function &F) {
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// Add a new tree node for this BasicBlock, and link it as a child of
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// IDomNode
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BBNode = IPDomNode->addChild(new DomTreeNode(I, IPDomNode));
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ETNode *ET = new ETNode(I);
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ETNodes[I] = ET;
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DomTreeNode *C = new DomTreeNode(I, IPDomNode, ET);
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DomTreeNodes[I] = C;
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BBNode = IPDomNode->addChild(C);
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}
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}
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@ -185,6 +191,16 @@ void PostDominatorTree::calculate(Function &F) {
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IDoms.clear();
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Info.clear();
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std::vector<BasicBlock*>().swap(Vertex);
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int dfsnum = 0;
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// Iterate over all nodes in depth first order...
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for (unsigned i = 0, e = Roots.size(); i != e; ++i)
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for (idf_iterator<BasicBlock*> I = idf_begin(Roots[i]),
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E = idf_end(Roots[i]); I != E; ++I) {
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if (!getNodeForBlock(*I)->getETNode()->hasFather())
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getNodeForBlock(*I)->getETNode()->assignDFSNumber(dfsnum);
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}
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DFSInfoValid = true;
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}
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@ -199,7 +215,11 @@ DomTreeNode *PostDominatorTree::getNodeForBlock(BasicBlock *BB) {
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// Add a new tree node for this BasicBlock, and link it as a child of
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// IDomNode
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return BBNode = IPDomNode->addChild(new DomTreeNode(BB, IPDomNode));
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ETNode *ET = new ETNode(BB);
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ETNodes[BB] = ET;
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DomTreeNode *C = new DomTreeNode(BB, IPDomNode, ET);
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DomTreeNodes[BB] = C;
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return BBNode = IPDomNode->addChild(C);
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}
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//===----------------------------------------------------------------------===//
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@ -303,7 +323,7 @@ PostDominanceFrontier::calculate(const PostDominatorTree &DT,
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DomSetType::const_iterator CDFI = ChildDF.begin(), CDFE = ChildDF.end();
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for (; CDFI != CDFE; ++CDFI) {
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if (!Node->properlyDominates(DT[*CDFI]))
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if (!DT.properlyDominates(Node, DT[*CDFI]))
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S.insert(*CDFI);
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}
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}
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@ -217,7 +217,7 @@ bool llvm::SplitCriticalEdge(TerminatorInst *TI, unsigned SuccNum, Pass *P,
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DestBBNode = DT->getNode(DestBB);
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while (!OtherPreds.empty() && NewBBDominatesDestBB) {
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if (DomTreeNode *OPNode = DT->getNode(OtherPreds.back()))
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NewBBDominatesDestBB = DestBBNode->dominates(OPNode);
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NewBBDominatesDestBB = DT->dominates(DestBBNode, OPNode);
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OtherPreds.pop_back();
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}
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OtherPreds.clear();
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@ -157,7 +157,7 @@ void LCSSA::ProcessInstruction(Instruction *Instr,
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BasicBlock *BB = *BBI;
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DomTreeNode *ExitBBNode = DT->getNode(BB);
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Value *&Phi = Phis[ExitBBNode];
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if (!Phi && InstrNode->dominates(ExitBBNode)) {
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if (!Phi && DT->dominates(InstrNode, ExitBBNode)) {
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PHINode *PN = new PHINode(Instr->getType(), Instr->getName()+".lcssa",
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BB->begin());
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PN->reserveOperandSpace(std::distance(pred_begin(BB), pred_end(BB)));
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@ -234,7 +234,10 @@ void DominatorTree::Link(BasicBlock *V, BasicBlock *W, InfoRec &WInfo){
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void DominatorTree::calculate(Function& F) {
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BasicBlock* Root = Roots[0];
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DomTreeNodes[Root] = RootNode = new DomTreeNode(Root, 0); // Add a node for the root...
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// Add a node for the root...
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ETNode *ERoot = new ETNode(Root);
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ETNodes[Root] = ERoot;
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DomTreeNodes[Root] = RootNode = new DomTreeNode(Root, 0, ERoot);
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Vertex.push_back(0);
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@ -289,7 +292,9 @@ void DominatorTree::calculate(Function& F) {
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// Add a new tree node for this BasicBlock, and link it as a child of
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// IDomNode
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DomTreeNode *C = new DomTreeNode(I, IDomNode);
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ETNode *ET = new ETNode(I);
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ETNodes[I] = ET;
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DomTreeNode *C = new DomTreeNode(I, IDomNode, ET);
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DomTreeNodes[I] = C;
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BBNode = IDomNode->addChild(C);
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}
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@ -299,8 +304,27 @@ void DominatorTree::calculate(Function& F) {
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Info.clear();
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IDoms.clear();
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std::vector<BasicBlock*>().swap(Vertex);
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updateDFSNumbers();
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}
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void DominatorTreeBase::updateDFSNumbers()
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{
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int dfsnum = 0;
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// Iterate over all nodes in depth first order.
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for (unsigned i = 0, e = Roots.size(); i != e; ++i)
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for (df_iterator<BasicBlock*> I = df_begin(Roots[i]),
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E = df_end(Roots[i]); I != E; ++I) {
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BasicBlock *BB = *I;
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ETNode *ETN = getNode(BB)->getETNode();
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if (ETN && !ETN->hasFather())
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ETN->assignDFSNumber(dfsnum);
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}
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SlowQueries = 0;
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DFSInfoValid = true;
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}
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// DominatorTreeBase::reset - Free all of the tree node memory.
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//
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void DominatorTreeBase::reset() {
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@ -326,6 +350,13 @@ void DomTreeNode::setIDom(DomTreeNode *NewIDom) {
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// Switch to new dominator
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IDom = NewIDom;
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IDom->Children.push_back(this);
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if (!ETN->hasFather())
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ETN->setFather(IDom->getETNode());
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else if (ETN->getFather()->getData<BasicBlock>() != IDom->getBlock()) {
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ETN->Split();
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ETN->setFather(IDom->getETNode());
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}
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}
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}
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@ -340,7 +371,9 @@ DomTreeNode *DominatorTree::getNodeForBlock(BasicBlock *BB) {
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// Add a new tree node for this BasicBlock, and link it as a child of
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// IDomNode
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DomTreeNode *C = new DomTreeNode(BB, IDomNode);
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ETNode *ET = new ETNode(BB);
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ETNodes[BB] = ET;
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DomTreeNode *C = new DomTreeNode(BB, IDomNode, ET);
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DomTreeNodes[BB] = C;
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return BBNode = IDomNode->addChild(C);
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}
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@ -463,7 +496,7 @@ DominanceFrontier::calculate(const DominatorTree &DT,
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DomSetType::const_iterator CDFI = S.begin(), CDFE = S.end();
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DomSetType &parentSet = Frontiers[parentBB];
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for (; CDFI != CDFE; ++CDFI) {
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if (!parentNode->properlyDominates(DT[*CDFI]))
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if (!DT.properlyDominates(parentNode, DT[*CDFI]))
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parentSet.insert(*CDFI);
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}
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workList.pop_back();
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