mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
c355797f79
The start node was being marked "visited" at the start of the traversal, but this broke the invariant that if we come across a target node that is marked "visited" then we had better have an entry for it in our results map. In order to maintain this invariant and stop triggering these assertion failures, this commit stops marking the start node as "visited" right off the bat.
337 lines
11 KiB
C++
337 lines
11 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* vim: set ts=8 sts=4 et sw=4 tw=99:
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef js_UbiNodeShortestPaths_h
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#define js_UbiNodeShortestPaths_h
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#include "mozilla/Maybe.h"
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#include "mozilla/Move.h"
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#include "jsalloc.h"
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#include "js/UbiNodeBreadthFirst.h"
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#include "js/Vector.h"
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namespace JS {
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namespace ubi {
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/**
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* A back edge along a path in the heap graph.
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*/
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struct JS_PUBLIC_API(BackEdge)
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{
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private:
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Node predecessor_;
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EdgeName name_;
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public:
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using Ptr = mozilla::UniquePtr<BackEdge, JS::DeletePolicy<BackEdge>>;
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BackEdge() : predecessor_(), name_(nullptr) { }
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bool init(const Node& predecessor, Edge& edge) {
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MOZ_ASSERT(!predecessor_);
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MOZ_ASSERT(!name_);
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predecessor_ = predecessor;
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name_ = mozilla::Move(edge.name);
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return true;
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}
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BackEdge(const BackEdge&) = delete;
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BackEdge& operator=(const BackEdge&) = delete;
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BackEdge(BackEdge&& rhs)
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: predecessor_(rhs.predecessor_)
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, name_(mozilla::Move(rhs.name_))
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{
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MOZ_ASSERT(&rhs != this);
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}
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BackEdge& operator=(BackEdge&& rhs) {
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this->~BackEdge();
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new(this) BackEdge(Move(rhs));
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return *this;
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}
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Ptr clone() const;
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const EdgeName& name() const { return name_; }
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EdgeName& name() { return name_; }
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const JS::ubi::Node& predecessor() const { return predecessor_; }
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};
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/**
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* A path is a series of back edges from which we discovered a target node.
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*/
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using Path = mozilla::Vector<BackEdge*>;
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/**
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* The `JS::ubi::ShortestPaths` type represents a collection of up to N shortest
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* retaining paths for each of a target set of nodes, starting from the same
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* root node.
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*/
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struct JS_PUBLIC_API(ShortestPaths)
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{
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private:
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// Types, type aliases, and data members.
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using BackEdgeVector = mozilla::Vector<BackEdge::Ptr>;
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using NodeToBackEdgeVectorMap = js::HashMap<Node, BackEdgeVector, js::DefaultHasher<Node>,
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js::SystemAllocPolicy>;
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struct Handler;
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using Traversal = BreadthFirst<Handler>;
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/**
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* A `JS::ubi::BreadthFirst` traversal handler that records back edges for
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* how we reached each node, allowing us to reconstruct the shortest
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* retaining paths after the traversal.
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*/
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struct Handler
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{
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using NodeData = BackEdge;
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ShortestPaths& shortestPaths;
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size_t totalMaxPathsToRecord;
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size_t totalPathsRecorded;
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explicit Handler(ShortestPaths& shortestPaths)
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: shortestPaths(shortestPaths)
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, totalMaxPathsToRecord(shortestPaths.targets_.count() * shortestPaths.maxNumPaths_)
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, totalPathsRecorded(0)
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{
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}
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bool
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operator()(Traversal& traversal, JS::ubi::Node origin, JS::ubi::Edge& edge,
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BackEdge* back, bool first)
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{
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MOZ_ASSERT(back);
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MOZ_ASSERT(origin == shortestPaths.root_ || traversal.visited.has(origin));
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MOZ_ASSERT(totalPathsRecorded < totalMaxPathsToRecord);
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if (first && !back->init(origin, edge))
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return false;
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if (!shortestPaths.targets_.has(edge.referent))
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return true;
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// If `first` is true, then we moved the edge's name into `back` in
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// the above call to `init`. So clone that back edge to get the
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// correct edge name. If `first` is not true, then our edge name is
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// still in `edge`. This accounts for the asymmetry between
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// `back->clone()` in the first branch, and the `init` call in the
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// second branch.
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if (first) {
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BackEdgeVector paths;
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if (!paths.reserve(shortestPaths.maxNumPaths_))
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return false;
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auto cloned = back->clone();
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if (!cloned)
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return false;
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paths.infallibleAppend(mozilla::Move(cloned));
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if (!shortestPaths.paths_.putNew(edge.referent, mozilla::Move(paths)))
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return false;
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totalPathsRecorded++;
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} else {
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auto ptr = shortestPaths.paths_.lookup(edge.referent);
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MOZ_ASSERT(ptr,
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"This isn't the first time we have seen the target node `edge.referent`. "
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"We should have inserted it into shortestPaths.paths_ the first time we "
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"saw it.");
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if (ptr->value().length() < shortestPaths.maxNumPaths_) {
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BackEdge::Ptr thisBackEdge(js_new<BackEdge>());
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if (!thisBackEdge || !thisBackEdge->init(origin, edge))
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return false;
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ptr->value().infallibleAppend(mozilla::Move(thisBackEdge));
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totalPathsRecorded++;
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}
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}
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MOZ_ASSERT(totalPathsRecorded <= totalMaxPathsToRecord);
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if (totalPathsRecorded == totalMaxPathsToRecord)
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traversal.stop();
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return true;
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}
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};
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// The maximum number of paths to record for each node.
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uint32_t maxNumPaths_;
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// The root node we are starting the search from.
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Node root_;
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// The set of nodes we are searching for paths to.
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NodeSet targets_;
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// The resulting paths.
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NodeToBackEdgeVectorMap paths_;
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// Need to keep alive the traversal's back edges so we can walk them later
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// when the traversal is over when recreating the shortest paths.
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Traversal::NodeMap backEdges_;
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private:
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// Private methods.
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ShortestPaths(uint32_t maxNumPaths, const Node& root, NodeSet&& targets)
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: maxNumPaths_(maxNumPaths)
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, root_(root)
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, targets_(mozilla::Move(targets))
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, paths_()
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, backEdges_()
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{
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MOZ_ASSERT(maxNumPaths_ > 0);
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MOZ_ASSERT(root_);
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MOZ_ASSERT(targets_.initialized());
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}
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bool initialized() const {
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return targets_.initialized() &&
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paths_.initialized() &&
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backEdges_.initialized();
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}
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public:
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// Public methods.
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ShortestPaths(ShortestPaths&& rhs)
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: maxNumPaths_(rhs.maxNumPaths_)
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, root_(rhs.root_)
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, targets_(mozilla::Move(rhs.targets_))
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, paths_(mozilla::Move(rhs.paths_))
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, backEdges_(mozilla::Move(rhs.backEdges_))
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{
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MOZ_ASSERT(this != &rhs, "self-move is not allowed");
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}
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ShortestPaths& operator=(ShortestPaths&& rhs) {
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this->~ShortestPaths();
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new (this) ShortestPaths(mozilla::Move(rhs));
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return *this;
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}
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ShortestPaths(const ShortestPaths&) = delete;
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ShortestPaths& operator=(const ShortestPaths&) = delete;
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/**
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* Construct a new `JS::ubi::ShortestPaths`, finding up to `maxNumPaths`
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* shortest retaining paths for each target node in `targets` starting from
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* `root`.
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*
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* The resulting `ShortestPaths` instance must not outlive the
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* `JS::ubi::Node` graph it was constructed from.
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*
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* - For `JS::ubi::Node` graphs backed by the live heap graph, this means
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* that the `ShortestPaths`'s lifetime _must_ be contained within the
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* scope of the provided `AutoCheckCannotGC` reference because a GC will
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* invalidate the nodes.
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*
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* - For `JS::ubi::Node` graphs backed by some other offline structure
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* provided by the embedder, the resulting `ShortestPaths`'s lifetime is
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* bounded by that offline structure's lifetime.
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*
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* Returns `mozilla::Nothing()` on OOM failure. It is the caller's
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* responsibility to handle and report the OOM.
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*/
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static mozilla::Maybe<ShortestPaths>
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Create(JSRuntime* rt, AutoCheckCannotGC& noGC, uint32_t maxNumPaths, const Node& root, NodeSet&& targets) {
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MOZ_ASSERT(targets.count() > 0);
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MOZ_ASSERT(maxNumPaths > 0);
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size_t count = targets.count();
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ShortestPaths paths(maxNumPaths, root, mozilla::Move(targets));
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if (!paths.paths_.init(count))
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return mozilla::Nothing();
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Handler handler(paths);
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Traversal traversal(rt, handler, noGC);
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traversal.wantNames = true;
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if (!traversal.init() || !traversal.addStart(root) || !traversal.traverse())
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return mozilla::Nothing();
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// Take ownership of the back edges we created while traversing the
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// graph so that we can follow them from `paths_` and don't
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// use-after-free.
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paths.backEdges_ = mozilla::Move(traversal.visited);
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MOZ_ASSERT(paths.initialized());
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return mozilla::Some(mozilla::Move(paths));
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}
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/**
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* Get a range that iterates over each target node we searched for retaining
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* paths for. The returned range must not outlive the `ShortestPaths`
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* instance.
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*/
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NodeSet::Range eachTarget() const {
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MOZ_ASSERT(initialized());
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return targets_.all();
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}
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/**
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* Invoke the provided functor/lambda/callable once for each retaining path
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* discovered for `target`. The `func` is passed a single `JS::ubi::Path&`
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* argument, which contains each edge along the path ordered starting from
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* the root and ending at the target, and must not outlive the scope of the
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* call.
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*
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* Note that it is possible that we did not find any paths from the root to
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* the given target, in which case `func` will not be invoked.
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*/
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template <class Func>
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bool forEachPath(const Node& target, Func func) {
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MOZ_ASSERT(initialized());
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MOZ_ASSERT(targets_.has(target));
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auto ptr = paths_.lookup(target);
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// We didn't find any paths to this target, so nothing to do here.
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if (!ptr)
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return true;
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MOZ_ASSERT(ptr->value().length() <= maxNumPaths_);
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Path path;
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for (const auto& backEdge : ptr->value()) {
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path.clear();
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if (!path.append(backEdge.get()))
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return false;
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Node here = backEdge->predecessor();
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MOZ_ASSERT(here);
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while (here != root_) {
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auto p = backEdges_.lookup(here);
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MOZ_ASSERT(p);
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if (!path.append(&p->value()))
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return false;
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here = p->value().predecessor();
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MOZ_ASSERT(here);
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}
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path.reverse();
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if (!func(path))
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return false;
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}
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return true;
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}
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};
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} // namespace ubi
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} // namespace JS
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#endif // js_UbiNodeShortestPaths_h
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