mirror of
https://bitbucket.org/wisemapping/wisemapping-frontend.git
synced 2024-11-30 01:24:55 +01:00
454 lines
13 KiB
JavaScript
454 lines
13 KiB
JavaScript
/*
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* Copyright [2015] [wisemapping]
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*
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* Licensed under WiseMapping Public License, Version 1.0 (the "License").
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* It is basically the Apache License, Version 2.0 (the "License") plus the
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* "powered by wisemapping" text requirement on every single page;
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the license at
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*
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* http://www.wisemapping.org/license
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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const RootedTreeSet = new Class(
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/** @lends RootedTreeSet */ {
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/** @constructs */
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initialize() {
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this._rootNodes = [];
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},
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/**
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* @param root
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* @throws will throw an error if root is null or undefined
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*/
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setRoot(root) {
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$assert(root, 'root can not be null');
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this._rootNodes.push(this._decodate(root));
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},
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/** getter */
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getTreeRoots() {
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return this._rootNodes;
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},
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_decodate(node) {
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node._children = [];
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return node;
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},
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/**
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* @param {mindplot.model.NodeModel} node
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* @throws will throw an error if node is null or undefined
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* @throws will throw an error if node with id already exists
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* @throws will throw an error if node has been added already
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*/
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add(node) {
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$assert(node, 'node can not be null');
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$assert(
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!this.find(node.getId(), false),
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`node already exits with this id. Id:${node.getId()}`,
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);
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$assert(!node._children, 'node already added');
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this._rootNodes.push(this._decodate(node));
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},
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/**
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* @param nodeId
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* @throws will throw an error if nodeId is null or undefined
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*/
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remove(nodeId) {
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$assert($defined(nodeId), 'nodeId can not be null');
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const node = this.find(nodeId);
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this._rootNodes.erase(node);
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},
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/**
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* @param parentId
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* @param childId
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* @throws will throw an error if parentId is null or undefined
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* @throws will throw an error if childId is null or undefined
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* @throws will throw an error if node with id childId is already a child of parent
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*/
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connect(parentId, childId) {
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$assert($defined(parentId), 'parent can not be null');
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$assert($defined(childId), 'child can not be null');
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const parent = this.find(parentId);
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const child = this.find(childId, true);
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$assert(
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!child._parent,
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`node already connected. Id:${child.getId()},previous:${child._parent}`,
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);
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parent._children.push(child);
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child._parent = parent;
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this._rootNodes.erase(child);
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},
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/**
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* @param nodeId
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* @throws will throw an error if nodeId is null or undefined
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* @throws will throw an error if node is not connected
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*/
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disconnect(nodeId) {
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$assert($defined(nodeId), 'nodeId can not be null');
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const node = this.find(nodeId);
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$assert(node._parent, 'Node is not connected');
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node._parent._children.erase(node);
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this._rootNodes.push(node);
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node._parent = null;
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},
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/**
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* @param id
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* @param validate
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* @throws will throw an error if id is null or undefined
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* @throws will throw an error if node cannot be found
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* @return node
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*/
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find(id, validate) {
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$assert($defined(id), 'id can not be null');
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const graphs = this._rootNodes;
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let result = null;
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for (let i = 0; i < graphs.length; i++) {
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const node = graphs[i];
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result = this._find(id, node);
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if (result) {
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break;
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}
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}
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validate = !$defined(validate) ? true : validate;
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$assert(
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validate ? result : true,
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`node could not be found id:${id}\n,RootedTreeSet${this.dump()}`,
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);
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return result;
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},
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_find(id, parent) {
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if (parent.getId() == id) {
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return parent;
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}
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let result = null;
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const children = parent._children;
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for (let i = 0; i < children.length; i++) {
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const child = children[i];
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result = this._find(id, child);
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if (result) break;
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}
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return result;
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},
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/**
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* @param node
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* @throws will throw an error if nodeId is null or undefined
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* @return children
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*/
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getChildren(node) {
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$assert(node, 'node cannot be null');
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return node._children;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return root node or the provided node, if it has no parent
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*/
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getRootNode(node) {
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$assert(node, 'node cannot be null');
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const parent = this.getParent(node);
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if ($defined(parent)) {
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return this.getRootNode(parent);
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}
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return node;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return {Array} ancestors */
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getAncestors(node) {
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$assert(node, 'node cannot be null');
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return this._getAncestors(this.getParent(node), []);
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},
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_getAncestors(node, ancestors) {
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const result = ancestors;
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if (node) {
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result.push(node);
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this._getAncestors(this.getParent(node), result);
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}
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return result;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return {Array} siblings
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*/
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getSiblings(node) {
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$assert(node, 'node cannot be null');
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if (!$defined(node._parent)) {
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return [];
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}
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const siblings = node._parent._children.filter((child) => child != node);
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return siblings;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return {Boolean} whether the node has a single path to a single leaf (no branching)
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*/
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hasSinglePathToSingleLeaf(node) {
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$assert(node, 'node cannot be null');
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return this._hasSinglePathToSingleLeaf(node);
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},
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_hasSinglePathToSingleLeaf(node) {
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const children = this.getChildren(node);
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if (children.length == 1) {
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return this._hasSinglePathToSingleLeaf(children[0]);
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}
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return children.length == 0;
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},
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/**
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* @param node
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* @return {Boolean} whether the node is the start of a subbranch */
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isStartOfSubBranch(node) {
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return this.getSiblings(node).length > 0 && this.getChildren(node).length == 1;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return {Boolean} whether the node is a leaf
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*/
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isLeaf(node) {
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$assert(node, 'node cannot be null');
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return this.getChildren(node).length == 0;
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},
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/**
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* @param node
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* @throws will throw an error if node is null or undefined
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* @return parent
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*/
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getParent(node) {
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$assert(node, 'node cannot be null');
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return node._parent;
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},
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/**
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* @return result
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*/
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dump() {
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const branches = this._rootNodes;
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let result = '';
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for (let i = 0; i < branches.length; i++) {
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const branch = branches[i];
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result += this._dump(branch, '');
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}
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return result;
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},
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_dump(node, indent) {
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let result = `${indent + node}\n`;
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const children = this.getChildren(node);
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for (let i = 0; i < children.length; i++) {
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const child = children[i];
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result += this._dump(child, `${indent} `);
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}
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return result;
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},
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/**
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* @param canvas
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*/
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plot(canvas) {
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const branches = this._rootNodes;
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for (let i = 0; i < branches.length; i++) {
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const branch = branches[i];
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this._plot(canvas, branch);
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}
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},
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_plot(canvas, node, root) {
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const children = this.getChildren(node);
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const cx = node.getPosition().x + canvas.width / 2 - node.getSize().width / 2;
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const cy = node.getPosition().y + canvas.height / 2 - node.getSize().height / 2;
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const rect = canvas.rect(cx, cy, node.getSize().width, node.getSize().height);
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const order = node.getOrder() == null ? 'r' : node.getOrder();
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const text = canvas.text(
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node.getPosition().x + canvas.width / 2,
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node.getPosition().y + canvas.height / 2,
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`${node.getId()}[${order}]`,
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);
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text.attr('fill', '#FFF');
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const fillColor = this._rootNodes.contains(node)
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? '#000'
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: node.isFree()
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? '#abc'
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: '#c00';
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rect.attr('fill', fillColor);
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const rectPosition = {
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x: rect.attr('x') - canvas.width / 2 + rect.attr('width') / 2,
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y: rect.attr('y') - canvas.height / 2 + rect.attr('height') / 2,
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};
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const rectSize = { width: rect.attr('width'), height: rect.attr('height') };
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rect.click(() => {
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console.log(
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`[id:${
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node.getId()
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}, order:${
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node.getOrder()
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}, position:(${
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rectPosition.x
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},${
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rectPosition.y
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}), size:${
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rectSize.width
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}x${
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rectSize.height
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}, freeDisplacement:(${
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node.getFreeDisplacement().x
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},${
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node.getFreeDisplacement().y
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})]`,
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);
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});
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text.click(() => {
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console.log(
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`[id:${
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node.getId()
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}, order:${
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node.getOrder()
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}, position:(${
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rectPosition.x
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},${
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rectPosition.y
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}), size:${
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rectSize.width
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}x${
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rectSize.height
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}, freeDisplacement:(${
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node.getFreeDisplacement().x
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},${
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node.getFreeDisplacement().y
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})]`,
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);
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});
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for (let i = 0; i < children.length; i++) {
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const child = children[i];
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this._plot(canvas, child);
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}
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},
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/**
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* @param node
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* @param position
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*/
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updateBranchPosition(node, position) {
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const oldPos = node.getPosition();
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node.setPosition(position);
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const xOffset = oldPos.x - position.x;
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const yOffset = oldPos.y - position.y;
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const children = this.getChildren(node);
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const me = this;
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_.each(children, (child) => {
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me.shiftBranchPosition(child, xOffset, yOffset);
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});
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},
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/**
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* @param node
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* @param xOffset
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* @param yOffset
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*/
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shiftBranchPosition(node, xOffset, yOffset) {
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const position = node.getPosition();
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node.setPosition({ x: position.x + xOffset, y: position.y + yOffset });
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const children = this.getChildren(node);
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const me = this;
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_.each(children, (child) => {
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me.shiftBranchPosition(child, xOffset, yOffset);
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});
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},
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/**
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* @param node
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* @param yOffset
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* @return siblings in the offset (vertical) direction, i.e. with lower or higher order, respectively
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*/
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getSiblingsInVerticalDirection(node, yOffset) {
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// siblings with lower or higher order, depending on the direction of the offset and on the same side as their parent
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const parent = this.getParent(node);
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const siblings = this.getSiblings(node).filter((sibling) => {
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const sameSide = node.getPosition().x > parent.getPosition().x
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? sibling.getPosition().x > parent.getPosition().x
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: sibling.getPosition().x < parent.getPosition().x;
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const orderOK = yOffset < 0
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? sibling.getOrder() < node.getOrder()
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: sibling.getOrder() > node.getOrder();
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return orderOK && sameSide;
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});
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if (yOffset < 0) {
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siblings.reverse();
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}
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return siblings;
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},
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/**
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* @param node
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* @param yOffset
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* @return branches of the root node on the same side as the given node's, in the given
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* vertical direction
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*/
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getBranchesInVerticalDirection(node, yOffset) {
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// direct descendants of the root that do not contain the node and are on the same side
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// and on the direction of the offset
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const rootNode = this.getRootNode(node);
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const branches = this.getChildren(rootNode).filter(function (child) {
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return this._find(node.getId(), child);
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}, this);
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const branch = branches[0];
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const rootDescendants = this.getSiblings(branch).filter((sibling) => {
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const sameSide = node.getPosition().x > rootNode.getPosition().x
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? sibling.getPosition().x > rootNode.getPosition().x
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: sibling.getPosition().x < rootNode.getPosition().x;
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const sameDirection = yOffset < 0
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? sibling.getOrder() < branch.getOrder()
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: sibling.getOrder() > branch.getOrder();
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return sameSide && sameDirection;
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}, this);
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return rootDescendants;
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},
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},
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);
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export default RootedTreeSet;
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