mirror of https://github.com/jkjoy/sunpeiwen.git
232 lines
6.0 KiB
JavaScript
232 lines
6.0 KiB
JavaScript
/*
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MIT License http://www.opensource.org/licenses/mit-license.php
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Author Tobias Koppers @sokra
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*/
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"use strict";
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const NO_MARKER = 0;
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const IN_PROGRESS_MARKER = 1;
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const DONE_MARKER = 2;
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const DONE_MAYBE_ROOT_CYCLE_MARKER = 3;
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const DONE_AND_ROOT_MARKER = 4;
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/**
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* @template T
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*/
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class Node {
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/**
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* @param {T} item the value of the node
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*/
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constructor(item) {
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this.item = item;
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/** @type {Set<Node<T>>} */
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this.dependencies = new Set();
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this.marker = NO_MARKER;
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/** @type {Cycle<T> | undefined} */
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this.cycle = undefined;
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this.incoming = 0;
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}
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}
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/**
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* @template T
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*/
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class Cycle {
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constructor() {
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/** @type {Set<Node<T>>} */
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this.nodes = new Set();
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}
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}
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/**
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* @template T
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* @typedef {Object} StackEntry
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* @property {Node<T>} node
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* @property {Node<T>[]} openEdges
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*/
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/**
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* @template T
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* @param {Iterable<T>} items list of items
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* @param {function(T): Iterable<T>} getDependencies function to get dependencies of an item (items that are not in list are ignored)
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* @returns {Iterable<T>} graph roots of the items
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*/
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module.exports = (items, getDependencies) => {
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/** @type {Map<T, Node<T>>} */
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const itemToNode = new Map();
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for (const item of items) {
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const node = new Node(item);
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itemToNode.set(item, node);
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}
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// early exit when there is only a single item
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if (itemToNode.size <= 1) return items;
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// grab all the dependencies
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for (const node of itemToNode.values()) {
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for (const dep of getDependencies(node.item)) {
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const depNode = itemToNode.get(dep);
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if (depNode !== undefined) {
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node.dependencies.add(depNode);
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}
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}
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}
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// Set of current root modules
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// items will be removed if a new reference to it has been found
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/** @type {Set<Node<T>>} */
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const roots = new Set();
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// Set of current cycles without references to it
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// cycles will be removed if a new reference to it has been found
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// that is not part of the cycle
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/** @type {Set<Cycle<T>>} */
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const rootCycles = new Set();
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// For all non-marked nodes
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for (const selectedNode of itemToNode.values()) {
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if (selectedNode.marker === NO_MARKER) {
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// deep-walk all referenced modules
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// in a non-recursive way
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// start by entering the selected node
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selectedNode.marker = IN_PROGRESS_MARKER;
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// keep a stack to avoid recursive walk
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/** @type {StackEntry<T>[]} */
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const stack = [
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{
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node: selectedNode,
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openEdges: Array.from(selectedNode.dependencies)
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}
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];
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// process the top item until stack is empty
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while (stack.length > 0) {
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const topOfStack = stack[stack.length - 1];
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// Are there still edges unprocessed in the current node?
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if (topOfStack.openEdges.length > 0) {
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// Process one dependency
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const dependency =
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/** @type {Node<T>} */
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(topOfStack.openEdges.pop());
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switch (dependency.marker) {
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case NO_MARKER:
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// dependency has not be visited yet
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// mark it as in-progress and recurse
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stack.push({
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node: dependency,
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openEdges: Array.from(dependency.dependencies)
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});
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dependency.marker = IN_PROGRESS_MARKER;
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break;
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case IN_PROGRESS_MARKER: {
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// It's a in-progress cycle
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let cycle = dependency.cycle;
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if (!cycle) {
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cycle = new Cycle();
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cycle.nodes.add(dependency);
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dependency.cycle = cycle;
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}
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// set cycle property for each node in the cycle
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// if nodes are already part of a cycle
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// we merge the cycles to a shared cycle
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for (
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let i = stack.length - 1;
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stack[i].node !== dependency;
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i--
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) {
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const node = stack[i].node;
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if (node.cycle) {
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if (node.cycle !== cycle) {
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// merge cycles
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for (const cycleNode of node.cycle.nodes) {
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cycleNode.cycle = cycle;
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cycle.nodes.add(cycleNode);
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}
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}
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} else {
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node.cycle = cycle;
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cycle.nodes.add(node);
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}
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}
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// don't recurse into dependencies
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// these are already on the stack
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break;
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}
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case DONE_AND_ROOT_MARKER:
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// This node has be visited yet and is currently a root node
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// But as this is a new reference to the node
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// it's not really a root
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// so we have to convert it to a normal node
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dependency.marker = DONE_MARKER;
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roots.delete(dependency);
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break;
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case DONE_MAYBE_ROOT_CYCLE_MARKER:
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// This node has be visited yet and
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// is maybe currently part of a completed root cycle
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// we found a new reference to the cycle
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// so it's not really a root cycle
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// remove the cycle from the root cycles
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// and convert it to a normal node
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rootCycles.delete(/** @type {Cycle<T>} */ (dependency.cycle));
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dependency.marker = DONE_MARKER;
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break;
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// DONE_MARKER: nothing to do, don't recurse into dependencies
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}
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} else {
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// All dependencies of the current node has been visited
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// we leave the node
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stack.pop();
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topOfStack.node.marker = DONE_MARKER;
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}
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}
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const cycle = selectedNode.cycle;
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if (cycle) {
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for (const node of cycle.nodes) {
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node.marker = DONE_MAYBE_ROOT_CYCLE_MARKER;
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}
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rootCycles.add(cycle);
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} else {
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selectedNode.marker = DONE_AND_ROOT_MARKER;
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roots.add(selectedNode);
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}
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}
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}
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// Extract roots from root cycles
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// We take the nodes with most incoming edges
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// inside of the cycle
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for (const cycle of rootCycles) {
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let max = 0;
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/** @type {Set<Node<T>>} */
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const cycleRoots = new Set();
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const nodes = cycle.nodes;
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for (const node of nodes) {
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for (const dep of node.dependencies) {
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if (nodes.has(dep)) {
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dep.incoming++;
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if (dep.incoming < max) continue;
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if (dep.incoming > max) {
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cycleRoots.clear();
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max = dep.incoming;
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}
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cycleRoots.add(dep);
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}
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}
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}
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for (const cycleRoot of cycleRoots) {
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roots.add(cycleRoot);
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}
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}
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// When roots were found, return them
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if (roots.size > 0) {
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return Array.from(roots, r => r.item);
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} else {
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throw new Error("Implementation of findGraphRoots is broken");
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}
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};
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