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Major repairs to the post-dominators implementation. Patch from Florian Brandner!
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@49768 91177308-0d34-0410-b5e6-96231b3b80d8
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@ -42,7 +42,7 @@ unsigned DFSPass(DominatorTreeBase<typename GraphT::NodeType>& DT,
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// documentation purposes.
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#if 0
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InfoRec &VInfo = DT.Info[DT.Roots[i]];
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VInfo.Semi = ++N;
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VInfo.DFSNum = VInfo.Semi = ++N;
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VInfo.Label = V;
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Vertex.push_back(V); // Vertex[n] = V;
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@ -58,6 +58,8 @@ unsigned DFSPass(DominatorTreeBase<typename GraphT::NodeType>& DT,
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}
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}
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#else
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bool IsChilOfArtificialExit = (N != 0);
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std::vector<std::pair<typename GraphT::NodeType*,
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typename GraphT::ChildIteratorType> > Worklist;
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Worklist.push_back(std::make_pair(V, GraphT::child_begin(V)));
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@ -65,19 +67,29 @@ unsigned DFSPass(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename GraphT::NodeType* BB = Worklist.back().first;
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typename GraphT::ChildIteratorType NextSucc = Worklist.back().second;
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &BBInfo =
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DT.Info[BB];
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// First time we visited this BB?
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if (NextSucc == GraphT::child_begin(BB)) {
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &BBInfo =
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DT.Info[BB];
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BBInfo.Semi = ++N;
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BBInfo.DFSNum = BBInfo.Semi = ++N;
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BBInfo.Label = BB;
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DT.Vertex.push_back(BB); // Vertex[n] = V;
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//BBInfo[V].Ancestor = 0; // Ancestor[n] = 0
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//BBInfo[V].Child = 0; // Child[v] = 0
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BBInfo.Size = 1; // Size[v] = 1
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if (IsChilOfArtificialExit)
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BBInfo.Parent = 1;
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IsChilOfArtificialExit = false;
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}
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// store the DFS number of the current BB - the reference to BBInfo might
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// get invalidated when processing the successors.
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unsigned BBDFSNum = BBInfo.DFSNum;
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// If we are done with this block, remove it from the worklist.
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if (NextSucc == GraphT::child_end(BB)) {
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Worklist.pop_back();
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@ -93,7 +105,7 @@ unsigned DFSPass(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &SuccVInfo =
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DT.Info[Succ];
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if (SuccVInfo.Semi == 0) {
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SuccVInfo.Parent = BB;
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SuccVInfo.Parent = BBDFSNum;
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Worklist.push_back(std::make_pair(Succ, GraphT::child_begin(Succ)));
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}
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}
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@ -106,9 +118,8 @@ void Compress(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename GraphT::NodeType *VIn) {
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std::vector<typename GraphT::NodeType*> Work;
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SmallPtrSet<typename GraphT::NodeType*, 32> Visited;
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typename GraphT::NodeType* VInAncestor = DT.Info[VIn].Ancestor;
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &VInVAInfo =
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DT.Info[VInAncestor];
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DT.Info[DT.Vertex[DT.Info[VIn].Ancestor]];
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if (VInVAInfo.Ancestor != 0)
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Work.push_back(VIn);
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@ -117,7 +128,7 @@ void Compress(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename GraphT::NodeType* V = Work.back();
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &VInfo =
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DT.Info[V];
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typename GraphT::NodeType* VAncestor = VInfo.Ancestor;
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typename GraphT::NodeType* VAncestor = DT.Vertex[VInfo.Ancestor];
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &VAInfo =
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DT.Info[VAncestor];
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@ -168,11 +179,11 @@ typename GraphT::NodeType* Eval(DominatorTreeBase<typename GraphT::NodeType>& DT
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template<class GraphT>
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void Link(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename GraphT::NodeType* V, typename GraphT::NodeType* W,
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unsigned DFSNumV, typename GraphT::NodeType* W,
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &WInfo) {
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#if !BALANCE_IDOM_TREE
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// Higher-complexity but faster implementation
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WInfo.Ancestor = V;
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WInfo.Ancestor = DFSNumV;
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#else
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// Lower-complexity but slower implementation
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GraphT::NodeType* WLabel = WInfo.Label;
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@ -220,10 +231,30 @@ template<class FuncT, class NodeT>
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void Calculate(DominatorTreeBase<typename GraphTraits<NodeT>::NodeType>& DT,
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FuncT& F) {
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typedef GraphTraits<NodeT> GraphT;
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unsigned N = 0;
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// Add a node for the root. This node might be the actual root, if there is
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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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typename GraphT::NodeType* Root = DT.Roots.size() == 1 ? DT.Roots[0]
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: 0;
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bool MultipleRoots = (DT.Roots.size() > 1);
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if (MultipleRoots) {
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &BBInfo =
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DT.Info[NULL];
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BBInfo.DFSNum = BBInfo.Semi = ++N;
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BBInfo.Label = NULL;
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DT.Vertex.push_back(NULL); // Vertex[n] = V;
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//BBInfo[V].Ancestor = 0; // Ancestor[n] = 0
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//BBInfo[V].Child = 0; // Child[v] = 0
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BBInfo.Size = 1; // Size[v] = 1
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}
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// Step #1: Number blocks in depth-first order and initialize variables used
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// in later stages of the algorithm.
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unsigned N = 0;
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for (unsigned i = 0, e = DT.Roots.size(); i != e; ++i)
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N = DFSPass<GraphT>(DT, DT.Roots[i], N);
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@ -233,19 +264,34 @@ void Calculate(DominatorTreeBase<typename GraphTraits<NodeT>::NodeType>& DT,
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DT.Info[W];
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// Step #2: Calculate the semidominators of all vertices
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bool HasChildOutsideDFS = false;
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// initialize the semi dominator to point to the parent node
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WInfo.Semi = WInfo.Parent;
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for (typename GraphTraits<Inverse<NodeT> >::ChildIteratorType CI =
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GraphTraits<Inverse<NodeT> >::child_begin(W),
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E = GraphTraits<Inverse<NodeT> >::child_end(W); CI != E; ++CI)
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E = GraphTraits<Inverse<NodeT> >::child_end(W); CI != E; ++CI) {
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if (DT.Info.count(*CI)) { // Only if this predecessor is reachable!
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unsigned SemiU = DT.Info[Eval<GraphT>(DT, *CI)].Semi;
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if (SemiU < WInfo.Semi)
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WInfo.Semi = SemiU;
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}
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else {
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// if the child has no DFS number it is not post-dominated by any exit,
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// and so is the current block.
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HasChildOutsideDFS = true;
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}
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}
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// if some child has no DFS number it is not post-dominated by any exit,
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// and so is the current block.
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if (DT.isPostDominator() && HasChildOutsideDFS)
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WInfo.Semi = 0;
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DT.Info[DT.Vertex[WInfo.Semi]].Bucket.push_back(W);
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typename GraphT::NodeType* WParent = WInfo.Parent;
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Link<GraphT>(DT, WParent, W, WInfo);
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typename GraphT::NodeType* WParent = DT.Vertex[WInfo.Parent];
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Link<GraphT>(DT, WInfo.Parent, W, WInfo);
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// Step #3: Implicitly define the immediate dominator of vertices
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std::vector<typename GraphT::NodeType*> &WParentBucket =
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@ -271,29 +317,39 @@ void Calculate(DominatorTreeBase<typename GraphTraits<NodeT>::NodeType>& DT,
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// Add a node for the root. This node might be the actual root, if there is
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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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typename GraphT::NodeType* Root = DT.Roots.size() == 1 ? DT.Roots[0]
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: 0;
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DT.DomTreeNodes[Root] = DT.RootNode =
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new DomTreeNodeBase<typename GraphT::NodeType>(Root, 0);
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// Loop over all of the reachable blocks in the function...
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for (typename FuncT::iterator I = F.begin(), E = F.end(); I != E; ++I)
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if (typename GraphT::NodeType* ImmDom = DT.getIDom(I)) {
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// Reachable block.
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DomTreeNodeBase<typename GraphT::NodeType> *BBNode = DT.DomTreeNodes[I];
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if (BBNode) continue; // Haven't calculated this node yet?
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for (unsigned i = 2; i <= N; ++i) {
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typename GraphT::NodeType* W = DT.Vertex[i];
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// Get or calculate the node for the immediate dominator
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DomTreeNodeBase<typename GraphT::NodeType> *IDomNode =
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DomTreeNodeBase<typename GraphT::NodeType> *BBNode = DT.DomTreeNodes[W];
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if (BBNode) continue; // Haven't calculated this node yet?
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typename GraphT::NodeType* ImmDom = DT.getIDom(W);
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// skip all non root nodes that have no dominator - this occures with
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// infinite loops.
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if (!ImmDom && std::count(DT.Roots.begin(), DT.Roots.end(), W) == 0)
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continue;
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// Get or calculate the node for the immediate dominator
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DomTreeNodeBase<typename GraphT::NodeType> *IDomNode =
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DT.getNodeForBlock(ImmDom);
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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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DomTreeNodeBase<typename GraphT::NodeType> *C =
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new DomTreeNodeBase<typename GraphT::NodeType>(I, IDomNode);
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DT.DomTreeNodes[I] = IDomNode->addChild(C);
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}
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// skip all children that are dominated by a non root node that, by itself,
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// has no dominator.
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if (!IDomNode)
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continue;
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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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DomTreeNodeBase<typename GraphT::NodeType> *C =
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new DomTreeNodeBase<typename GraphT::NodeType>(W, IDomNode);
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DT.DomTreeNodes[W] = IDomNode->addChild(C);
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}
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// Free temporary memory used to construct idom's
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DT.IDoms.clear();
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DT.Info.clear();
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@ -182,13 +182,16 @@ protected:
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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 DFSNum;
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unsigned Semi;
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unsigned Size;
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NodeT *Label, *Parent, *Child, *Ancestor;
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NodeT *Label, *Child;
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unsigned Parent, Ancestor;
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std::vector<NodeT*> Bucket;
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InfoRec() : Semi(0), Size(0), Label(0), Parent(0), Child(0), Ancestor(0) {}
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InfoRec() : DFSNum(0), Semi(0), Size(0), Label(0), Child(0), Parent(0),
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Ancestor(0) {}
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};
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DenseMap<NodeT*, NodeT*> IDoms;
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@ -544,8 +547,7 @@ protected:
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template<class GraphT>
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friend void Link(DominatorTreeBase<typename GraphT::NodeType>& DT,
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typename GraphT::NodeType* V,
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typename GraphT::NodeType* W,
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unsigned DFSNumV, typename GraphT::NodeType* W,
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typename DominatorTreeBase<typename GraphT::NodeType>::InfoRec &WInfo);
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template<class GraphT>
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@ -602,8 +604,18 @@ protected:
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// Haven't calculated this node yet? Get or calculate the node for the
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// immediate dominator.
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NodeT *IDom = getIDom(BB);
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// skip all non root nodes that have no dominator
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if (!IDom && std::count(this->Roots.begin(), this->Roots.end(), BB) == 0)
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return NULL;
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DomTreeNodeBase<NodeT> *IDomNode = getNodeForBlock(IDom);
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// skip all nodes that are dominated by a non root node that, by itself,
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// has no dominator.
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if (!IDomNode)
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return NULL;
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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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DomTreeNodeBase<NodeT> *C = new DomTreeNodeBase<NodeT>(BB, IDomNode);
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@ -616,9 +628,7 @@ protected:
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}
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inline void addRoot(NodeT* BB) {
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// Unreachable block is not a root node.
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if (!isa<UnreachableInst>(&BB->back()))
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this->Roots.push_back(BB);
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this->Roots.push_back(BB);
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}
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public:
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@ -11,9 +11,12 @@
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "postdomtree"
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#include "llvm/Analysis/PostDominators.h"
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#include "llvm/Instructions.h"
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#include "llvm/Support/CFG.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/ADT/DepthFirstIterator.h"
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#include "llvm/ADT/SetOperations.h"
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#include "llvm/Analysis/DominatorInternals.h"
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@ -30,6 +33,7 @@ F("postdomtree", "Post-Dominator Tree Construction", true, true);
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bool PostDominatorTree::runOnFunction(Function &F) {
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DT->recalculate(F);
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DEBUG(DT->dump());
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return false;
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}
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//
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//===----------------------------------------------------------------------===//
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#define DEBUG_TYPE "domtree"
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#include "llvm/Analysis/Dominators.h"
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#include "llvm/Support/CFG.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/ADT/DepthFirstIterator.h"
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#include "llvm/ADT/SetOperations.h"
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#include "llvm/ADT/SmallPtrSet.h"
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@ -58,7 +61,7 @@ E("domtree", "Dominator Tree Construction", true, true);
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bool DominatorTree::runOnFunction(Function &F) {
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DT->recalculate(F);
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DEBUG(DT->dump());
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return false;
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}
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