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This commit adds the `getImmediateDominator` method to `DominatorTree` which returns the id of the immediate dominator of the node associated with the given id. This enables walking the dominator tree from leaves up parents all the way to the root of the tree.
71 lines
3.1 KiB
Plaintext
71 lines
3.1 KiB
Plaintext
/* -*- Mode: IDL; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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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 file,
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* You can obtain one at http://mozilla.org/MPL/2.0/.
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*/
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typedef unsigned long long NodeId;
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typedef unsigned long long NodeSize;
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/**
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* In a directed graph with a root node `R`, a node `A` is said to "dominate" a
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* node `B` iff every path from `R` to `B` contains `A`. A node `A` is said to
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* be the "immediate dominator" of a node `B` iff it dominates `B`, is not `B`
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* itself, and does not dominate any other nodes which also dominate `B` in
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* turn.
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*
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* If we take every node from a graph `G` and create a new graph `T` with edges
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* to each node from its immediate dominator, then `T` is a tree (each node has
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* only one immediate dominator, or none if it is the root). This tree is called
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* a "dominator tree".
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*
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* This interface represents a dominator tree constructed from a HeapSnapshot's
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* heap graph. The domination relationship and dominator trees are useful tools
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* for analyzing heap graphs because they tell you:
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*
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* - Exactly what could be reclaimed by the GC if some node `A` became
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* unreachable: those nodes which are dominated by `A`,
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*
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* - The "retained size" of a node in the heap graph, in contrast to its
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* "shallow size". The "shallow size" is the space taken by a node itself,
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* not counting anything it references. The "retained size" of a node is its
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* shallow size plus the size of all the things that would be collected if
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* the original node wasn't (directly or indirectly) referencing them. In
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* other words, the retained size is the shallow size of a node plus the
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* shallow sizes of every other node it dominates. For example, the root
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* node in a binary tree might have a small shallow size that does not take
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* up much space itself, but it dominates the rest of the binary tree and
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* its retained size is therefore significant (assuming no external
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* references into the tree).
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*/
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[ChromeOnly, Exposed=(Window,System,Worker)]
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interface DominatorTree {
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/**
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* The `NodeId` for the root of the dominator tree. This is a "meta-root" in
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* that it has an edge to each GC root in the heap snapshot this dominator
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* tree was created from.
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*/
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readonly attribute NodeId root;
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/**
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* Get the retained size of the node with the given id. If given an invalid
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* id, null is returned. Throws an error on OOM.
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*/
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[Throws]
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NodeSize? getRetainedSize(NodeId node);
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/**
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* Get the set of ids of nodes immediately dominated by the node with the
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* given id. The resulting array is sorted by greatest to least retained
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* size. If given an invalid id, null is returned. Throws an error on OOM.
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*/
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[Throws]
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sequence<NodeId>? getImmediatelyDominated(NodeId node);
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/**
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* Get the immediate dominator of the node with the given id. Returns null if
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* given an invalid id, or the id of the root node.
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*/
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NodeId? getImmediateDominator(NodeId node);
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};
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