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0c3f2cbd1c
llvm-svn: 305326
309 lines
10 KiB
C++
309 lines
10 KiB
C++
//===- llvm/ADT/DepthFirstIterator.h - Depth First iterator -----*- C++ -*-===//
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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 builds on the ADT/GraphTraits.h file to build generic depth
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// first graph iterator. This file exposes the following functions/types:
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//
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// df_begin/df_end/df_iterator
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// * Normal depth-first iteration - visit a node and then all of its children.
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//
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// idf_begin/idf_end/idf_iterator
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// * Depth-first iteration on the 'inverse' graph.
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//
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// df_ext_begin/df_ext_end/df_ext_iterator
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// * Normal depth-first iteration - visit a node and then all of its children.
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// This iterator stores the 'visited' set in an external set, which allows
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// it to be more efficient, and allows external clients to use the set for
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// other purposes.
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//
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// idf_ext_begin/idf_ext_end/idf_ext_iterator
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// * Depth-first iteration on the 'inverse' graph.
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// This iterator stores the 'visited' set in an external set, which allows
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// it to be more efficient, and allows external clients to use the set for
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// other purposes.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ADT_DEPTHFIRSTITERATOR_H
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#define LLVM_ADT_DEPTHFIRSTITERATOR_H
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#include "llvm/ADT/GraphTraits.h"
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#include "llvm/ADT/None.h"
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#include "llvm/ADT/Optional.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/iterator_range.h"
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#include <iterator>
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#include <set>
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#include <utility>
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#include <vector>
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namespace llvm {
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// df_iterator_storage - A private class which is used to figure out where to
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// store the visited set.
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template<class SetType, bool External> // Non-external set
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class df_iterator_storage {
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public:
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SetType Visited;
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};
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template<class SetType>
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class df_iterator_storage<SetType, true> {
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public:
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df_iterator_storage(SetType &VSet) : Visited(VSet) {}
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df_iterator_storage(const df_iterator_storage &S) : Visited(S.Visited) {}
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SetType &Visited;
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};
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// The visited stated for the iteration is a simple set augmented with
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// one more method, completed, which is invoked when all children of a
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// node have been processed. It is intended to distinguish of back and
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// cross edges in the spanning tree but is not used in the common case.
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template <typename NodeRef, unsigned SmallSize=8>
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struct df_iterator_default_set : public SmallPtrSet<NodeRef, SmallSize> {
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using BaseSet = SmallPtrSet<NodeRef, SmallSize>;
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using iterator = typename BaseSet::iterator;
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std::pair<iterator,bool> insert(NodeRef N) { return BaseSet::insert(N); }
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template <typename IterT>
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void insert(IterT Begin, IterT End) { BaseSet::insert(Begin,End); }
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void completed(NodeRef) {}
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};
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// Generic Depth First Iterator
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template <class GraphT,
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class SetType =
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df_iterator_default_set<typename GraphTraits<GraphT>::NodeRef>,
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bool ExtStorage = false, class GT = GraphTraits<GraphT>>
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class df_iterator
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: public std::iterator<std::forward_iterator_tag, typename GT::NodeRef>,
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public df_iterator_storage<SetType, ExtStorage> {
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using super = std::iterator<std::forward_iterator_tag, typename GT::NodeRef>;
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using NodeRef = typename GT::NodeRef;
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using ChildItTy = typename GT::ChildIteratorType;
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// First element is node reference, second is the 'next child' to visit.
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// The second child is initialized lazily to pick up graph changes during the
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// DFS.
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using StackElement = std::pair<NodeRef, Optional<ChildItTy>>;
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// VisitStack - Used to maintain the ordering. Top = current block
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std::vector<StackElement> VisitStack;
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private:
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inline df_iterator(NodeRef Node) {
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this->Visited.insert(Node);
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VisitStack.push_back(StackElement(Node, None));
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}
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inline df_iterator() = default; // End is when stack is empty
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inline df_iterator(NodeRef Node, SetType &S)
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: df_iterator_storage<SetType, ExtStorage>(S) {
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if (this->Visited.insert(Node).second)
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VisitStack.push_back(StackElement(Node, None));
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}
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inline df_iterator(SetType &S)
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: df_iterator_storage<SetType, ExtStorage>(S) {
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// End is when stack is empty
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}
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inline void toNext() {
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do {
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NodeRef Node = VisitStack.back().first;
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Optional<ChildItTy> &Opt = VisitStack.back().second;
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if (!Opt)
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Opt.emplace(GT::child_begin(Node));
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// Notice that we directly mutate *Opt here, so that
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// VisitStack.back().second actually gets updated as the iterator
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// increases.
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while (*Opt != GT::child_end(Node)) {
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NodeRef Next = *(*Opt)++;
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// Has our next sibling been visited?
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if (this->Visited.insert(Next).second) {
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// No, do it now.
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VisitStack.push_back(StackElement(Next, None));
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return;
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}
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}
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this->Visited.completed(Node);
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// Oops, ran out of successors... go up a level on the stack.
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VisitStack.pop_back();
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} while (!VisitStack.empty());
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}
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public:
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using pointer = typename super::pointer;
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// Provide static begin and end methods as our public "constructors"
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static df_iterator begin(const GraphT &G) {
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return df_iterator(GT::getEntryNode(G));
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}
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static df_iterator end(const GraphT &G) { return df_iterator(); }
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// Static begin and end methods as our public ctors for external iterators
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static df_iterator begin(const GraphT &G, SetType &S) {
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return df_iterator(GT::getEntryNode(G), S);
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}
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static df_iterator end(const GraphT &G, SetType &S) { return df_iterator(S); }
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bool operator==(const df_iterator &x) const {
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return VisitStack == x.VisitStack;
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}
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bool operator!=(const df_iterator &x) const { return !(*this == x); }
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const NodeRef &operator*() const { return VisitStack.back().first; }
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// This is a nonstandard operator-> that dereferences the pointer an extra
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// time... so that you can actually call methods ON the Node, because
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// the contained type is a pointer. This allows BBIt->getTerminator() f.e.
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//
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NodeRef operator->() const { return **this; }
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df_iterator &operator++() { // Preincrement
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toNext();
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return *this;
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}
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/// \brief Skips all children of the current node and traverses to next node
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///
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/// Note: This function takes care of incrementing the iterator. If you
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/// always increment and call this function, you risk walking off the end.
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df_iterator &skipChildren() {
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VisitStack.pop_back();
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if (!VisitStack.empty())
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toNext();
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return *this;
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}
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df_iterator operator++(int) { // Postincrement
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df_iterator tmp = *this;
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++*this;
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return tmp;
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}
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// nodeVisited - return true if this iterator has already visited the
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// specified node. This is public, and will probably be used to iterate over
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// nodes that a depth first iteration did not find: ie unreachable nodes.
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//
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bool nodeVisited(NodeRef Node) const {
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return this->Visited.count(Node) != 0;
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}
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/// getPathLength - Return the length of the path from the entry node to the
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/// current node, counting both nodes.
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unsigned getPathLength() const { return VisitStack.size(); }
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/// getPath - Return the n'th node in the path from the entry node to the
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/// current node.
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NodeRef getPath(unsigned n) const { return VisitStack[n].first; }
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};
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// Provide global constructors that automatically figure out correct types...
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//
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template <class T>
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df_iterator<T> df_begin(const T& G) {
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return df_iterator<T>::begin(G);
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}
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template <class T>
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df_iterator<T> df_end(const T& G) {
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return df_iterator<T>::end(G);
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}
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// Provide an accessor method to use them in range-based patterns.
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template <class T>
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iterator_range<df_iterator<T>> depth_first(const T& G) {
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return make_range(df_begin(G), df_end(G));
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}
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// Provide global definitions of external depth first iterators...
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template <class T, class SetTy = std::set<typename GraphTraits<T>::NodeRef>>
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struct df_ext_iterator : public df_iterator<T, SetTy, true> {
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df_ext_iterator(const df_iterator<T, SetTy, true> &V)
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: df_iterator<T, SetTy, true>(V) {}
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};
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template <class T, class SetTy>
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df_ext_iterator<T, SetTy> df_ext_begin(const T& G, SetTy &S) {
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return df_ext_iterator<T, SetTy>::begin(G, S);
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}
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template <class T, class SetTy>
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df_ext_iterator<T, SetTy> df_ext_end(const T& G, SetTy &S) {
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return df_ext_iterator<T, SetTy>::end(G, S);
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}
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template <class T, class SetTy>
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iterator_range<df_ext_iterator<T, SetTy>> depth_first_ext(const T& G,
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SetTy &S) {
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return make_range(df_ext_begin(G, S), df_ext_end(G, S));
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}
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// Provide global definitions of inverse depth first iterators...
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template <class T,
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class SetTy =
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df_iterator_default_set<typename GraphTraits<T>::NodeRef>,
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bool External = false>
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struct idf_iterator : public df_iterator<Inverse<T>, SetTy, External> {
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idf_iterator(const df_iterator<Inverse<T>, SetTy, External> &V)
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: df_iterator<Inverse<T>, SetTy, External>(V) {}
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};
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template <class T>
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idf_iterator<T> idf_begin(const T& G) {
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return idf_iterator<T>::begin(Inverse<T>(G));
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}
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template <class T>
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idf_iterator<T> idf_end(const T& G){
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return idf_iterator<T>::end(Inverse<T>(G));
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}
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// Provide an accessor method to use them in range-based patterns.
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template <class T>
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iterator_range<idf_iterator<T>> inverse_depth_first(const T& G) {
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return make_range(idf_begin(G), idf_end(G));
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}
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// Provide global definitions of external inverse depth first iterators...
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template <class T, class SetTy = std::set<typename GraphTraits<T>::NodeRef>>
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struct idf_ext_iterator : public idf_iterator<T, SetTy, true> {
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idf_ext_iterator(const idf_iterator<T, SetTy, true> &V)
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: idf_iterator<T, SetTy, true>(V) {}
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idf_ext_iterator(const df_iterator<Inverse<T>, SetTy, true> &V)
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: idf_iterator<T, SetTy, true>(V) {}
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};
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template <class T, class SetTy>
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idf_ext_iterator<T, SetTy> idf_ext_begin(const T& G, SetTy &S) {
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return idf_ext_iterator<T, SetTy>::begin(Inverse<T>(G), S);
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}
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template <class T, class SetTy>
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idf_ext_iterator<T, SetTy> idf_ext_end(const T& G, SetTy &S) {
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return idf_ext_iterator<T, SetTy>::end(Inverse<T>(G), S);
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}
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template <class T, class SetTy>
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iterator_range<idf_ext_iterator<T, SetTy>> inverse_depth_first_ext(const T& G,
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SetTy &S) {
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return make_range(idf_ext_begin(G, S), idf_ext_end(G, S));
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}
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} // end namespace llvm
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#endif // LLVM_ADT_DEPTHFIRSTITERATOR_H
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