FindSCCs.h - mozsearch

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-

 * vim: set ts=8 sts=2 et sw=2 tw=80:

 * This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#ifndef gc_FindSCCs_h

#define gc_FindSCCs_h

#include "mozilla/Assertions.h"  // MOZ_ASSERT

#include <algorithm>  // std::min

#include "js/AllocPolicy.h"         // js::SystemAllocPolicy

#include "js/friend/StackLimits.h"  // js::AutoCheckRecursionLimit

#include "js/HashTable.h"           // js::HashSet, js::DefaultHasher

namespace js {

namespace gc {

template <typename Node>

struct GraphNodeBase {

  using NodeSet =

      js::HashSet<Node*, js::DefaultHasher<Node*>, js::SystemAllocPolicy>;

  NodeSet gcGraphEdges;

  Node* gcNextGraphNode = nullptr;

  Node* gcNextGraphComponent = nullptr;

  unsigned gcDiscoveryTime = 0;

  unsigned gcLowLink = 0;

  Node* nextNodeInGroup() const {

    if (gcNextGraphNode &&

        gcNextGraphNode->gcNextGraphComponent == gcNextGraphComponent) {

      return gcNextGraphNode;

    return nullptr;

  Node* nextGroup() const { return gcNextGraphComponent; }

};

/*

 * Find the strongly connected components of a graph using Tarjan's algorithm,

 * and return them in topological order.

 * Nodes derive from GraphNodeBase and add target edge pointers to

 * sourceNode.gcGraphEdges to describe the graph:

 * struct MyGraphNode : public GraphNodeBase<MyGraphNode>

* {

 *   ...

* }

 * MyGraphNode node1, node2, node3;

 * node1.gcGraphEdges.put(node2); // Error checking elided.

 * node2.gcGraphEdges.put(node3);

 * node3.gcGraphEdges.put(node2);

 * ComponentFinder<MyGraphNode> finder;

 * finder.addNode(node1);

 * finder.addNode(node2);

 * finder.addNode(node3);

 * MyGraphNode* result = finder.getResultsList();

*/

template <typename Node>

class ComponentFinder {

 public:

  explicit ComponentFinder(JSContext* cx) : cx(cx) {}

  ~ComponentFinder() {

    MOZ_ASSERT(!stack);

    MOZ_ASSERT(!firstComponent);

  /* Forces all nodes to be added to a single component. */

  void useOneComponent() { stackFull = true; }

  void addNode(Node* v) {

    if (v->gcDiscoveryTime == Undefined) {

      MOZ_ASSERT(v->gcLowLink == Undefined);

      processNode(v);

  Node* getResultsList() {

    if (stackFull) {

/*

       * All nodes after the stack overflow are in |stack|. Put them all in

       * one big component of their own.

*/

      Node* firstGoodComponent = firstComponent;

      for (Node* v = stack; v; v = stack) {

        stack = v->gcNextGraphNode;

        v->gcNextGraphComponent = firstGoodComponent;

        v->gcNextGraphNode = firstComponent;

        firstComponent = v;

      stackFull = false;

    MOZ_ASSERT(!stack);

    Node* result = firstComponent;

    firstComponent = nullptr;

    for (Node* v = result; v; v = v->gcNextGraphNode) {

      v->gcDiscoveryTime = Undefined;

      v->gcLowLink = Undefined;

    return result;

  static void mergeGroups(Node* first) {

    for (Node* v = first; v; v = v->gcNextGraphNode) {

      v->gcNextGraphComponent = nullptr;

 private:

  // Constant used to indicate an unprocessed vertex.

  static const unsigned Undefined = 0;

  // Constant used to indicate a processed vertex that is no longer on the

  // stack.

  static const unsigned Finished = (unsigned)-1;

  void addEdgeTo(Node* w) {

    if (w->gcDiscoveryTime == Undefined) {

      processNode(w);

      cur->gcLowLink = std::min(cur->gcLowLink, w->gcLowLink);

    } else if (w->gcDiscoveryTime != Finished) {

      cur->gcLowLink = std::min(cur->gcLowLink, w->gcDiscoveryTime);

  void processNode(Node* v) {

    v->gcDiscoveryTime = clock;

    v->gcLowLink = clock;

    ++clock;

    v->gcNextGraphNode = stack;

    stack = v;

    if (stackFull) {

      return;

    AutoCheckRecursionLimit recursion(cx);

    if (!recursion.checkSystemDontReport(cx)) {

      stackFull = true;

      return;

    Node* old = cur;

    cur = v;

    for (auto r = cur->gcGraphEdges.all(); !r.empty(); r.popFront()) {

      addEdgeTo(r.front());

    cur = old;

    if (stackFull) {

      return;

    if (v->gcLowLink == v->gcDiscoveryTime) {

      Node* nextComponent = firstComponent;

      Node* w;

      do {

        MOZ_ASSERT(stack);

        w = stack;

        stack = w->gcNextGraphNode;

/*

         * Record that the element is no longer on the stack by setting the

         * discovery time to a special value that's not Undefined.

*/

        w->gcDiscoveryTime = Finished;

        /* Figure out which group we're in. */

        w->gcNextGraphComponent = nextComponent;

/*

         * Prepend the component to the beginning of the output list to

         * reverse the list and achieve the desired order.

*/

        w->gcNextGraphNode = firstComponent;

        firstComponent = w;

      } while (w != v);

 private:

  unsigned clock = 1;

  Node* stack = nullptr;

  Node* firstComponent = nullptr;

  Node* cur = nullptr;

  JSContext* cx;

  bool stackFull = false;

};

} /* namespace gc */

} /* namespace js */

#endif /* gc_FindSCCs_h */