public/zh/builder/src/echarts/chart/tree/layoutHelper.js - echarts-doc - Git at Google

 /*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

 /*
 * A third-party license is embeded for some of the code in this file:
 * The tree layoutHelper implementation was originally copied from
 * "d3.js"(https://github.com/d3/d3-hierarchy) with
 * some modifications made for this project.
 * (see more details in the comment of the specific method below.)
 * The use of the source code of this file is also subject to the terms
 * and consitions of the licence of "d3.js" (BSD-3Clause, see
 * </licenses/LICENSE-d3>).
 */

 /**
  * @file The layout algorithm of node-link tree diagrams. Here we using Reingold-Tilford algorithm to drawing
  *       the tree.
  */
 import * as layout from '../../util/layout';
 /**
  * Initialize all computational message for following algorithm.
  *
  * @param  {module:echarts/data/Tree~TreeNode} root   The virtual root of the tree.
  */

 export function init(root) {
   root.hierNode = {
     defaultAncestor: null,
     ancestor: root,
     prelim: 0,
     modifier: 0,
     change: 0,
     shift: 0,
     i: 0,
     thread: null
   };
   var nodes = [root];
   var node;
   var children;

   while (node = nodes.pop()) {
     // jshint ignore:line
     children = node.children;

     if (node.isExpand && children.length) {
       var n = children.length;

       for (var i = n - 1; i >= 0; i--) {
         var child = children[i];
         child.hierNode = {
           defaultAncestor: null,
           ancestor: child,
           prelim: 0,
           modifier: 0,
           change: 0,
           shift: 0,
           i: i,
           thread: null
         };
         nodes.push(child);
       }
     }
   }
 }
 /**
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  *
  * Computes a preliminary x coordinate for node. Before that, this function is
  * applied recursively to the children of node, as well as the function
  * apportion(). After spacing out the children by calling executeShifts(), the
  * node is placed to the midpoint of its outermost children.
  *
  * @param  {module:echarts/data/Tree~TreeNode} node
  * @param {Function} separation
  */

 export function firstWalk(node, separation) {
   var children = node.isExpand ? node.children : [];
   var siblings = node.parentNode.children;
   var subtreeW = node.hierNode.i ? siblings[node.hierNode.i - 1] : null;

   if (children.length) {
     executeShifts(node);
     var midPoint = (children[0].hierNode.prelim + children[children.length - 1].hierNode.prelim) / 2;

     if (subtreeW) {
       node.hierNode.prelim = subtreeW.hierNode.prelim + separation(node, subtreeW);
       node.hierNode.modifier = node.hierNode.prelim - midPoint;
     } else {
       node.hierNode.prelim = midPoint;
     }
   } else if (subtreeW) {
     node.hierNode.prelim = subtreeW.hierNode.prelim + separation(node, subtreeW);
   }

   node.parentNode.hierNode.defaultAncestor = apportion(node, subtreeW, node.parentNode.hierNode.defaultAncestor || siblings[0], separation);
 }
 /**
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  *
  * Computes all real x-coordinates by summing up the modifiers recursively.
  *
  * @param  {module:echarts/data/Tree~TreeNode} node
  */

 export function secondWalk(node) {
   var nodeX = node.hierNode.prelim + node.parentNode.hierNode.modifier;
   node.setLayout({
     x: nodeX
   }, true);
   node.hierNode.modifier += node.parentNode.hierNode.modifier;
 }
 export function separation(cb) {
   return arguments.length ? cb : defaultSeparation;
 }
 /**
  * Transform the common coordinate to radial coordinate.
  *
  * @param  {number} x
  * @param  {number} y
  * @return {Object}
  */

 export function radialCoordinate(x, y) {
   var radialCoor = {};
   x -= Math.PI / 2;
   radialCoor.x = y * Math.cos(x);
   radialCoor.y = y * Math.sin(x);
   return radialCoor;
 }
 /**
  * Get the layout position of the whole view.
  *
  * @param {module:echarts/model/Series} seriesModel  the model object of sankey series
  * @param {module:echarts/ExtensionAPI} api  provide the API list that the developer can call
  * @return {module:zrender/core/BoundingRect}  size of rect to draw the sankey view
  */

 export function getViewRect(seriesModel, api) {
   return layout.getLayoutRect(seriesModel.getBoxLayoutParams(), {
     width: api.getWidth(),
     height: api.getHeight()
   });
 }
 /**
  * All other shifts, applied to the smaller subtrees between w- and w+, are
  * performed by this function.
  *
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  *
  * @param  {module:echarts/data/Tree~TreeNode} node
  */

 function executeShifts(node) {
   var children = node.children;
   var n = children.length;
   var shift = 0;
   var change = 0;

   while (--n >= 0) {
     var child = children[n];
     child.hierNode.prelim += shift;
     child.hierNode.modifier += shift;
     change += child.hierNode.change;
     shift += child.hierNode.shift + change;
   }
 }
 /**
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  *
  * The core of the algorithm. Here, a new subtree is combined with the
  * previous subtrees. Threads are used to traverse the inside and outside
  * contours of the left and right subtree up to the highest common level.
  * Whenever two nodes of the inside contours conflict, we compute the left
  * one of the greatest uncommon ancestors using the function nextAncestor()
  * and call moveSubtree() to shift the subtree and prepare the shifts of
  * smaller subtrees. Finally, we add a new thread (if necessary).
  *
  * @param  {module:echarts/data/Tree~TreeNode} subtreeV
  * @param  {module:echarts/data/Tree~TreeNode} subtreeW
  * @param  {module:echarts/data/Tree~TreeNode} ancestor
  * @param  {Function} separation
  * @return {module:echarts/data/Tree~TreeNode}
  */


 function apportion(subtreeV, subtreeW, ancestor, separation) {
   if (subtreeW) {
     var nodeOutRight = subtreeV;
     var nodeInRight = subtreeV;
     var nodeOutLeft = nodeInRight.parentNode.children[0];
     var nodeInLeft = subtreeW;
     var sumOutRight = nodeOutRight.hierNode.modifier;
     var sumInRight = nodeInRight.hierNode.modifier;
     var sumOutLeft = nodeOutLeft.hierNode.modifier;
     var sumInLeft = nodeInLeft.hierNode.modifier;

     while (nodeInLeft = nextRight(nodeInLeft), nodeInRight = nextLeft(nodeInRight), nodeInLeft && nodeInRight) {
       nodeOutRight = nextRight(nodeOutRight);
       nodeOutLeft = nextLeft(nodeOutLeft);
       nodeOutRight.hierNode.ancestor = subtreeV;
       var shift = nodeInLeft.hierNode.prelim + sumInLeft - nodeInRight.hierNode.prelim - sumInRight + separation(nodeInLeft, nodeInRight);

       if (shift > 0) {
         moveSubtree(nextAncestor(nodeInLeft, subtreeV, ancestor), subtreeV, shift);
         sumInRight += shift;
         sumOutRight += shift;
       }

       sumInLeft += nodeInLeft.hierNode.modifier;
       sumInRight += nodeInRight.hierNode.modifier;
       sumOutRight += nodeOutRight.hierNode.modifier;
       sumOutLeft += nodeOutLeft.hierNode.modifier;
     }

     if (nodeInLeft && !nextRight(nodeOutRight)) {
       nodeOutRight.hierNode.thread = nodeInLeft;
       nodeOutRight.hierNode.modifier += sumInLeft - sumOutRight;
     }

     if (nodeInRight && !nextLeft(nodeOutLeft)) {
       nodeOutLeft.hierNode.thread = nodeInRight;
       nodeOutLeft.hierNode.modifier += sumInRight - sumOutLeft;
       ancestor = subtreeV;
     }
   }

   return ancestor;
 }
 /**
  * This function is used to traverse the right contour of a subtree.
  * It returns the rightmost child of node or the thread of node. The function
  * returns null if and only if node is on the highest depth of its subtree.
  *
  * @param  {module:echarts/data/Tree~TreeNode} node
  * @return {module:echarts/data/Tree~TreeNode}
  */


 function nextRight(node) {
   var children = node.children;
   return children.length && node.isExpand ? children[children.length - 1] : node.hierNode.thread;
 }
 /**
  * This function is used to traverse the left contour of a subtree (or a subforest).
  * It returns the leftmost child of node or the thread of node. The function
  * returns null if and only if node is on the highest depth of its subtree.
  *
  * @param  {module:echarts/data/Tree~TreeNode} node
  * @return {module:echarts/data/Tree~TreeNode}
  */


 function nextLeft(node) {
   var children = node.children;
   return children.length && node.isExpand ? children[0] : node.hierNode.thread;
 }
 /**
  * If nodeInLeft’s ancestor is a sibling of node, returns nodeInLeft’s ancestor.
  * Otherwise, returns the specified ancestor.
  *
  * @param  {module:echarts/data/Tree~TreeNode} nodeInLeft
  * @param  {module:echarts/data/Tree~TreeNode} node
  * @param  {module:echarts/data/Tree~TreeNode} ancestor
  * @return {module:echarts/data/Tree~TreeNode}
  */


 function nextAncestor(nodeInLeft, node, ancestor) {
   return nodeInLeft.hierNode.ancestor.parentNode === node.parentNode ? nodeInLeft.hierNode.ancestor : ancestor;
 }
 /**
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  *
  * Shifts the current subtree rooted at wr.
  * This is done by increasing prelim(w+) and modifier(w+) by shift.
  *
  * @param  {module:echarts/data/Tree~TreeNode} wl
  * @param  {module:echarts/data/Tree~TreeNode} wr
  * @param  {number} shift [description]
  */


 function moveSubtree(wl, wr, shift) {
   var change = shift / (wr.hierNode.i - wl.hierNode.i);
   wr.hierNode.change -= change;
   wr.hierNode.shift += shift;
   wr.hierNode.modifier += shift;
   wr.hierNode.prelim += shift;
   wl.hierNode.change += change;
 }
 /**
  * The implementation of this function was originally copied from "d3.js"
  * <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
  * with some modifications made for this program.
  * See the license statement at the head of this file.
  */


 function defaultSeparation(node1, node2) {
   return node1.parentNode === node2.parentNode ? 1 : 2;
 }
	/*
	* Licensed to the Apache Software Foundation (ASF) under one
	* or more contributor license agreements. See the NOTICE file
	* distributed with this work for additional information
	* regarding copyright ownership. The ASF licenses this file
	* to you under the Apache License, Version 2.0 (the
	* "License"); you may not use this file except in compliance
	* with the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing,
	* software distributed under the License is distributed on an
	* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
	* KIND, either express or implied. See the License for the
	* specific language governing permissions and limitations
	* under the License.
	*/

	/*
	* A third-party license is embeded for some of the code in this file:
	* The tree layoutHelper implementation was originally copied from
	* "d3.js"(https://github.com/d3/d3-hierarchy) with
	* some modifications made for this project.
	* (see more details in the comment of the specific method below.)
	* The use of the source code of this file is also subject to the terms
	* and consitions of the licence of "d3.js" (BSD-3Clause, see
	* </licenses/LICENSE-d3>).
	*/

	/**
	* @file The layout algorithm of node-link tree diagrams. Here we using Reingold-Tilford algorithm to drawing
	* the tree.
	*/
	import * as layout from '../../util/layout';
	/**
	* Initialize all computational message for following algorithm.
	*
	* @param {module:echarts/data/Tree~TreeNode} root The virtual root of the tree.
	*/

	export function init(root) {
	root.hierNode = {
	defaultAncestor: null,
	ancestor: root,
	prelim: 0,
	modifier: 0,
	change: 0,
	shift: 0,
	i: 0,
	thread: null
	};
	var nodes = [root];
	var node;
	var children;

	while (node = nodes.pop()) {
	// jshint ignore:line
	children = node.children;

	if (node.isExpand && children.length) {
	var n = children.length;

	for (var i = n - 1; i >= 0; i--) {
	var child = children[i];
	child.hierNode = {
	defaultAncestor: null,
	ancestor: child,
	prelim: 0,
	modifier: 0,
	change: 0,
	shift: 0,
	i: i,
	thread: null
	};
	nodes.push(child);
	}
	}
	}
	}
	/**
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*
	* Computes a preliminary x coordinate for node. Before that, this function is
	* applied recursively to the children of node, as well as the function
	* apportion(). After spacing out the children by calling executeShifts(), the
	* node is placed to the midpoint of its outermost children.
	*
	* @param {module:echarts/data/Tree~TreeNode} node
	* @param {Function} separation
	*/

	export function firstWalk(node, separation) {
	var children = node.isExpand ? node.children : [];
	var siblings = node.parentNode.children;
	var subtreeW = node.hierNode.i ? siblings[node.hierNode.i - 1] : null;

	if (children.length) {
	executeShifts(node);
	var midPoint = (children[0].hierNode.prelim + children[children.length - 1].hierNode.prelim) / 2;

	if (subtreeW) {
	node.hierNode.prelim = subtreeW.hierNode.prelim + separation(node, subtreeW);
	node.hierNode.modifier = node.hierNode.prelim - midPoint;
	} else {
	node.hierNode.prelim = midPoint;
	}
	} else if (subtreeW) {
	node.hierNode.prelim = subtreeW.hierNode.prelim + separation(node, subtreeW);
	}

	node.parentNode.hierNode.defaultAncestor = apportion(node, subtreeW, node.parentNode.hierNode.defaultAncestor \|\| siblings[0], separation);
	}
	/**
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*
	* Computes all real x-coordinates by summing up the modifiers recursively.
	*
	* @param {module:echarts/data/Tree~TreeNode} node
	*/

	export function secondWalk(node) {
	var nodeX = node.hierNode.prelim + node.parentNode.hierNode.modifier;
	node.setLayout({
	x: nodeX
	}, true);
	node.hierNode.modifier += node.parentNode.hierNode.modifier;
	}
	export function separation(cb) {
	return arguments.length ? cb : defaultSeparation;
	}
	/**
	* Transform the common coordinate to radial coordinate.
	*
	* @param {number} x
	* @param {number} y
	* @return {Object}
	*/

	export function radialCoordinate(x, y) {
	var radialCoor = {};
	x -= Math.PI / 2;
	radialCoor.x = y * Math.cos(x);
	radialCoor.y = y * Math.sin(x);
	return radialCoor;
	}
	/**
	* Get the layout position of the whole view.
	*
	* @param {module:echarts/model/Series} seriesModel the model object of sankey series
	* @param {module:echarts/ExtensionAPI} api provide the API list that the developer can call
	* @return {module:zrender/core/BoundingRect} size of rect to draw the sankey view
	*/

	export function getViewRect(seriesModel, api) {
	return layout.getLayoutRect(seriesModel.getBoxLayoutParams(), {
	width: api.getWidth(),
	height: api.getHeight()
	});
	}
	/**
	* All other shifts, applied to the smaller subtrees between w- and w+, are
	* performed by this function.
	*
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*
	* @param {module:echarts/data/Tree~TreeNode} node
	*/

	function executeShifts(node) {
	var children = node.children;
	var n = children.length;
	var shift = 0;
	var change = 0;

	while (--n >= 0) {
	var child = children[n];
	child.hierNode.prelim += shift;
	child.hierNode.modifier += shift;
	change += child.hierNode.change;
	shift += child.hierNode.shift + change;
	}
	}
	/**
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*
	* The core of the algorithm. Here, a new subtree is combined with the
	* previous subtrees. Threads are used to traverse the inside and outside
	* contours of the left and right subtree up to the highest common level.
	* Whenever two nodes of the inside contours conflict, we compute the left
	* one of the greatest uncommon ancestors using the function nextAncestor()
	* and call moveSubtree() to shift the subtree and prepare the shifts of
	* smaller subtrees. Finally, we add a new thread (if necessary).
	*
	* @param {module:echarts/data/Tree~TreeNode} subtreeV
	* @param {module:echarts/data/Tree~TreeNode} subtreeW
	* @param {module:echarts/data/Tree~TreeNode} ancestor
	* @param {Function} separation
	* @return {module:echarts/data/Tree~TreeNode}
	*/


	function apportion(subtreeV, subtreeW, ancestor, separation) {
	if (subtreeW) {
	var nodeOutRight = subtreeV;
	var nodeInRight = subtreeV;
	var nodeOutLeft = nodeInRight.parentNode.children[0];
	var nodeInLeft = subtreeW;
	var sumOutRight = nodeOutRight.hierNode.modifier;
	var sumInRight = nodeInRight.hierNode.modifier;
	var sumOutLeft = nodeOutLeft.hierNode.modifier;
	var sumInLeft = nodeInLeft.hierNode.modifier;

	while (nodeInLeft = nextRight(nodeInLeft), nodeInRight = nextLeft(nodeInRight), nodeInLeft && nodeInRight) {
	nodeOutRight = nextRight(nodeOutRight);
	nodeOutLeft = nextLeft(nodeOutLeft);
	nodeOutRight.hierNode.ancestor = subtreeV;
	var shift = nodeInLeft.hierNode.prelim + sumInLeft - nodeInRight.hierNode.prelim - sumInRight + separation(nodeInLeft, nodeInRight);

	if (shift > 0) {
	moveSubtree(nextAncestor(nodeInLeft, subtreeV, ancestor), subtreeV, shift);
	sumInRight += shift;
	sumOutRight += shift;
	}

	sumInLeft += nodeInLeft.hierNode.modifier;
	sumInRight += nodeInRight.hierNode.modifier;
	sumOutRight += nodeOutRight.hierNode.modifier;
	sumOutLeft += nodeOutLeft.hierNode.modifier;
	}

	if (nodeInLeft && !nextRight(nodeOutRight)) {
	nodeOutRight.hierNode.thread = nodeInLeft;
	nodeOutRight.hierNode.modifier += sumInLeft - sumOutRight;
	}

	if (nodeInRight && !nextLeft(nodeOutLeft)) {
	nodeOutLeft.hierNode.thread = nodeInRight;
	nodeOutLeft.hierNode.modifier += sumInRight - sumOutLeft;
	ancestor = subtreeV;
	}
	}

	return ancestor;
	}
	/**
	* This function is used to traverse the right contour of a subtree.
	* It returns the rightmost child of node or the thread of node. The function
	* returns null if and only if node is on the highest depth of its subtree.
	*
	* @param {module:echarts/data/Tree~TreeNode} node
	* @return {module:echarts/data/Tree~TreeNode}
	*/


	function nextRight(node) {
	var children = node.children;
	return children.length && node.isExpand ? children[children.length - 1] : node.hierNode.thread;
	}
	/**
	* This function is used to traverse the left contour of a subtree (or a subforest).
	* It returns the leftmost child of node or the thread of node. The function
	* returns null if and only if node is on the highest depth of its subtree.
	*
	* @param {module:echarts/data/Tree~TreeNode} node
	* @return {module:echarts/data/Tree~TreeNode}
	*/


	function nextLeft(node) {
	var children = node.children;
	return children.length && node.isExpand ? children[0] : node.hierNode.thread;
	}
	/**
	* If nodeInLeft’s ancestor is a sibling of node, returns nodeInLeft’s ancestor.
	* Otherwise, returns the specified ancestor.
	*
	* @param {module:echarts/data/Tree~TreeNode} nodeInLeft
	* @param {module:echarts/data/Tree~TreeNode} node
	* @param {module:echarts/data/Tree~TreeNode} ancestor
	* @return {module:echarts/data/Tree~TreeNode}
	*/


	function nextAncestor(nodeInLeft, node, ancestor) {
	return nodeInLeft.hierNode.ancestor.parentNode === node.parentNode ? nodeInLeft.hierNode.ancestor : ancestor;
	}
	/**
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*
	* Shifts the current subtree rooted at wr.
	* This is done by increasing prelim(w+) and modifier(w+) by shift.
	*
	* @param {module:echarts/data/Tree~TreeNode} wl
	* @param {module:echarts/data/Tree~TreeNode} wr
	* @param {number} shift [description]
	*/


	function moveSubtree(wl, wr, shift) {
	var change = shift / (wr.hierNode.i - wl.hierNode.i);
	wr.hierNode.change -= change;
	wr.hierNode.shift += shift;
	wr.hierNode.modifier += shift;
	wr.hierNode.prelim += shift;
	wl.hierNode.change += change;
	}
	/**
	* The implementation of this function was originally copied from "d3.js"
	* <https://github.com/d3/d3-hierarchy/blob/4c1f038f2725d6eae2e49b61d01456400694bac4/src/tree.js>
	* with some modifications made for this program.
	* See the license statement at the head of this file.
	*/


	function defaultSeparation(node1, node2) {
	return node1.parentNode === node2.parentNode ? 1 : 2;
	}