mirror of
https://bitbucket.org/wisemapping/wisemapping-frontend.git
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289 lines
8.9 KiB
JavaScript
289 lines
8.9 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 Node = require('./Node').default;
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const SymmetricSorter = require('./SymmetricSorter').default;
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const BalancedSorter = require('./BalancedSorter').default;
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const OriginalLayout = new Class(
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/** @lends OriginalLayout */ {
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/**
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* @constructs
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* @param treeSet
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*/
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initialize(treeSet) {
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this._treeSet = treeSet;
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},
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/** */
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createNode(id, size, position, type) {
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$assert($defined(id), 'id can not be null');
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$assert(size, 'size can not be null');
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$assert(position, 'position can not be null');
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$assert(type, 'type can not be null');
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const strategy = type === 'root' ? OriginalLayout.BALANCED_SORTER : OriginalLayout.SYMMETRIC_SORTER;
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return new Node(id, size, position, strategy);
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},
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/** */
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connectNode(parentId, childId, order) {
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const parent = this._treeSet.find(parentId);
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const child = this._treeSet.find(childId);
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// Insert the new node ...
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const sorter = parent.getSorter();
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sorter.insert(this._treeSet, parent, child, order);
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// Connect the new node ...
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this._treeSet.connect(parentId, childId);
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// Fire a basic validation ...
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sorter.verify(this._treeSet, parent);
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},
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/** */
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disconnectNode(nodeId) {
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const node = this._treeSet.find(nodeId);
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const parent = this._treeSet.getParent(node);
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$assert(parent, 'Node already disconnected');
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// Make it fixed
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node.setFree(false);
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node.resetFreeDisplacement();
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// Remove from children list.
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const sorter = parent.getSorter();
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sorter.detach(this._treeSet, node);
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// Disconnect the new node ...
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this._treeSet.disconnect(nodeId);
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// Fire a basic validation ...
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parent.getSorter().verify(this._treeSet, parent);
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},
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/** */
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layout() {
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const roots = this._treeSet.getTreeRoots();
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_.each(
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roots,
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function (node) {
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// Calculate all node heights ...
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const sorter = node.getSorter();
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const heightById = sorter.computeChildrenIdByHeights(this._treeSet, node);
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this._layoutChildren(node, heightById);
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this._fixOverlapping(node, heightById);
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},
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this,
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);
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},
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_layoutChildren(node, heightById) {
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const nodeId = node.getId();
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const children = this._treeSet.getChildren(node);
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const parent = this._treeSet.getParent(node);
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const childrenOrderMoved = children.some((child) => child.hasOrderChanged());
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const childrenSizeChanged = children.some((child) => child.hasSizeChanged());
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// If ether any of the nodes has been changed of position or the height of the children is not
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// the same, children nodes must be repositioned ....
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const newBranchHeight = heightById[nodeId];
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const parentHeightChanged = $defined(parent) ? parent._heightChanged : false;
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const heightChanged = node._branchHeight != newBranchHeight;
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node._heightChanged = heightChanged || parentHeightChanged;
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if (childrenOrderMoved || childrenSizeChanged || heightChanged || parentHeightChanged) {
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const sorter = node.getSorter();
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const offsetById = sorter.computeOffsets(this._treeSet, node);
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const parentPosition = node.getPosition();
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const me = this;
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_.each(children, (child) => {
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const offset = offsetById[child.getId()];
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const childFreeDisplacement = child.getFreeDisplacement();
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const direction = node.getSorter().getChildDirection(me._treeSet, child);
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if (
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(direction > 0 && childFreeDisplacement.x < 0)
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|| (direction < 0 && childFreeDisplacement.x > 0)
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) {
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child.resetFreeDisplacement();
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child.setFreeDisplacement({
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x: -childFreeDisplacement.x,
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y: childFreeDisplacement.y,
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});
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}
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offset.x += child.getFreeDisplacement().x;
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offset.y += child.getFreeDisplacement().y;
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const parentX = parentPosition.x;
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const parentY = parentPosition.y;
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const newPos = {
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x: parentX + offset.x,
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y: parentY + offset.y + me._calculateAlignOffset(node, child, heightById),
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};
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me._treeSet.updateBranchPosition(child, newPos);
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});
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node._branchHeight = newBranchHeight;
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}
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// Continue reordering the children nodes ...
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_.each(
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children,
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function (child) {
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this._layoutChildren(child, heightById);
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},
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this,
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);
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},
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_calculateAlignOffset(node, child, heightById) {
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if (child.isFree()) {
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return 0;
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}
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let offset = 0;
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const nodeHeight = node.getSize().height;
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const childHeight = child.getSize().height;
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if (
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this._treeSet.isStartOfSubBranch(child)
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&& this._branchIsTaller(child, heightById)
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) {
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if (this._treeSet.hasSinglePathToSingleLeaf(child)) {
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offset = heightById[child.getId()] / 2
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- (childHeight + child.getSorter()._getVerticalPadding() * 2) / 2;
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} else {
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offset = this._treeSet.isLeaf(child) ? 0 : -(childHeight - nodeHeight) / 2;
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}
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} else if (nodeHeight > childHeight) {
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if (this._treeSet.getSiblings(child).length > 0) {
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offset = 0;
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} else {
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offset = nodeHeight / 2 - childHeight / 2;
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}
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} else if (childHeight > nodeHeight) {
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if (this._treeSet.getSiblings(child).length > 0) {
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offset = 0;
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} else {
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offset = -(childHeight / 2 - nodeHeight / 2);
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}
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}
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return offset;
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},
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_branchIsTaller(node, heightById) {
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return (
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heightById[node.getId()]
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> node.getSize().height + node.getSorter()._getVerticalPadding() * 2
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);
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},
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_fixOverlapping(node, heightById) {
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const children = this._treeSet.getChildren(node);
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if (node.isFree()) {
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this._shiftBranches(node, heightById);
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}
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_.each(
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children,
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function (child) {
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this._fixOverlapping(child, heightById);
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},
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this,
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);
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},
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_shiftBranches(node, heightById) {
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const shiftedBranches = [node];
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const siblingsToShift = this._treeSet.getSiblingsInVerticalDirection(
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node,
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node.getFreeDisplacement().y,
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);
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let last = node;
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_.each(
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siblingsToShift,
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function (sibling) {
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const overlappingOccurs = shiftedBranches.some(function (shiftedBranch) {
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return this._branchesOverlap(shiftedBranch, sibling, heightById);
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}, this);
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if (!sibling.isFree() || overlappingOccurs) {
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const sAmount = node.getFreeDisplacement().y;
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this._treeSet.shiftBranchPosition(sibling, 0, sAmount);
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shiftedBranches.push(sibling);
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}
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},
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this,
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);
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const branchesToShift = this._treeSet
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.getBranchesInVerticalDirection(node, node.getFreeDisplacement().y)
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.filter((branch) => !shiftedBranches.contains(branch));
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_.each(
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branchesToShift,
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function (branch) {
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const bAmount = node.getFreeDisplacement().y;
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this._treeSet.shiftBranchPosition(branch, 0, bAmount);
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shiftedBranches.push(branch);
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last = branch;
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},
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this,
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);
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},
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_branchesOverlap(branchA, branchB, heightById) {
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// a branch doesn't really overlap with itself
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if (branchA == branchB) {
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return false;
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}
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const topA = branchA.getPosition().y - heightById[branchA.getId()] / 2;
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const bottomA = branchA.getPosition().y + heightById[branchA.getId()] / 2;
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const topB = branchB.getPosition().y - heightById[branchB.getId()] / 2;
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const bottomB = branchB.getPosition().y + heightById[branchB.getId()] / 2;
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return !(topA >= bottomB || bottomA <= topB);
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},
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},
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);
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/**
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* @type {mindplot.layout.SymmetricSorter}
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*/
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OriginalLayout.SYMMETRIC_SORTER = new SymmetricSorter();
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/**
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* @type {mindplot.layout.BalancedSorter}
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*/
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OriginalLayout.BALANCED_SORTER = new BalancedSorter();
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export default OriginalLayout;
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