project/node_modules/echarts/lib/chart/sankey/sankeyLayout.js

489 lines
16 KiB
JavaScript

/*
* 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.
*/
/**
* AUTO-GENERATED FILE. DO NOT MODIFY.
*/
/*
* 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.
*/
import * as layout from '../../util/layout.js';
import * as zrUtil from 'zrender/lib/core/util.js';
import { groupData } from '../../util/model.js';
export default function sankeyLayout(ecModel, api) {
ecModel.eachSeriesByType('sankey', function (seriesModel) {
var nodeWidth = seriesModel.get('nodeWidth');
var nodeGap = seriesModel.get('nodeGap');
var layoutInfo = getViewRect(seriesModel, api);
seriesModel.layoutInfo = layoutInfo;
var width = layoutInfo.width;
var height = layoutInfo.height;
var graph = seriesModel.getGraph();
var nodes = graph.nodes;
var edges = graph.edges;
computeNodeValues(nodes);
var filteredNodes = zrUtil.filter(nodes, function (node) {
return node.getLayout().value === 0;
});
var iterations = filteredNodes.length !== 0 ? 0 : seriesModel.get('layoutIterations');
var orient = seriesModel.get('orient');
var nodeAlign = seriesModel.get('nodeAlign');
layoutSankey(nodes, edges, nodeWidth, nodeGap, width, height, iterations, orient, nodeAlign);
});
}
/**
* Get the layout position of the whole view
*/
function getViewRect(seriesModel, api) {
return layout.getLayoutRect(seriesModel.getBoxLayoutParams(), {
width: api.getWidth(),
height: api.getHeight()
});
}
function layoutSankey(nodes, edges, nodeWidth, nodeGap, width, height, iterations, orient, nodeAlign) {
computeNodeBreadths(nodes, edges, nodeWidth, width, height, orient, nodeAlign);
computeNodeDepths(nodes, edges, height, width, nodeGap, iterations, orient);
computeEdgeDepths(nodes, orient);
}
/**
* Compute the value of each node by summing the associated edge's value
*/
function computeNodeValues(nodes) {
zrUtil.each(nodes, function (node) {
var value1 = sum(node.outEdges, getEdgeValue);
var value2 = sum(node.inEdges, getEdgeValue);
var nodeRawValue = node.getValue() || 0;
var value = Math.max(value1, value2, nodeRawValue);
node.setLayout({
value: value
}, true);
});
}
/**
* Compute the x-position for each node.
*
* Here we use Kahn algorithm to detect cycle when we traverse
* the node to computer the initial x position.
*/
function computeNodeBreadths(nodes, edges, nodeWidth, width, height, orient, nodeAlign) {
// Used to mark whether the edge is deleted. if it is deleted,
// the value is 0, otherwise it is 1.
var remainEdges = [];
// Storage each node's indegree.
var indegreeArr = [];
// Used to storage the node with indegree is equal to 0.
var zeroIndegrees = [];
var nextTargetNode = [];
var x = 0;
// let kx = 0;
for (var i = 0; i < edges.length; i++) {
remainEdges[i] = 1;
}
for (var i = 0; i < nodes.length; i++) {
indegreeArr[i] = nodes[i].inEdges.length;
if (indegreeArr[i] === 0) {
zeroIndegrees.push(nodes[i]);
}
}
var maxNodeDepth = -1;
// Traversing nodes using topological sorting to calculate the
// horizontal(if orient === 'horizontal') or vertical(if orient === 'vertical')
// position of the nodes.
while (zeroIndegrees.length) {
for (var idx = 0; idx < zeroIndegrees.length; idx++) {
var node = zeroIndegrees[idx];
var item = node.hostGraph.data.getRawDataItem(node.dataIndex);
var isItemDepth = item.depth != null && item.depth >= 0;
if (isItemDepth && item.depth > maxNodeDepth) {
maxNodeDepth = item.depth;
}
node.setLayout({
depth: isItemDepth ? item.depth : x
}, true);
orient === 'vertical' ? node.setLayout({
dy: nodeWidth
}, true) : node.setLayout({
dx: nodeWidth
}, true);
for (var edgeIdx = 0; edgeIdx < node.outEdges.length; edgeIdx++) {
var edge = node.outEdges[edgeIdx];
var indexEdge = edges.indexOf(edge);
remainEdges[indexEdge] = 0;
var targetNode = edge.node2;
var nodeIndex = nodes.indexOf(targetNode);
if (--indegreeArr[nodeIndex] === 0 && nextTargetNode.indexOf(targetNode) < 0) {
nextTargetNode.push(targetNode);
}
}
}
++x;
zeroIndegrees = nextTargetNode;
nextTargetNode = [];
}
for (var i = 0; i < remainEdges.length; i++) {
if (remainEdges[i] === 1) {
throw new Error('Sankey is a DAG, the original data has cycle!');
}
}
var maxDepth = maxNodeDepth > x - 1 ? maxNodeDepth : x - 1;
if (nodeAlign && nodeAlign !== 'left') {
adjustNodeWithNodeAlign(nodes, nodeAlign, orient, maxDepth);
}
var kx = orient === 'vertical' ? (height - nodeWidth) / maxDepth : (width - nodeWidth) / maxDepth;
scaleNodeBreadths(nodes, kx, orient);
}
function isNodeDepth(node) {
var item = node.hostGraph.data.getRawDataItem(node.dataIndex);
return item.depth != null && item.depth >= 0;
}
function adjustNodeWithNodeAlign(nodes, nodeAlign, orient, maxDepth) {
if (nodeAlign === 'right') {
var nextSourceNode = [];
var remainNodes = nodes;
var nodeHeight = 0;
while (remainNodes.length) {
for (var i = 0; i < remainNodes.length; i++) {
var node = remainNodes[i];
node.setLayout({
skNodeHeight: nodeHeight
}, true);
for (var j = 0; j < node.inEdges.length; j++) {
var edge = node.inEdges[j];
if (nextSourceNode.indexOf(edge.node1) < 0) {
nextSourceNode.push(edge.node1);
}
}
}
remainNodes = nextSourceNode;
nextSourceNode = [];
++nodeHeight;
}
zrUtil.each(nodes, function (node) {
if (!isNodeDepth(node)) {
node.setLayout({
depth: Math.max(0, maxDepth - node.getLayout().skNodeHeight)
}, true);
}
});
} else if (nodeAlign === 'justify') {
moveSinksRight(nodes, maxDepth);
}
}
/**
* All the node without outEgdes are assigned maximum x-position and
* be aligned in the last column.
*
* @param nodes. node of sankey view.
* @param maxDepth. use to assign to node without outEdges as x-position.
*/
function moveSinksRight(nodes, maxDepth) {
zrUtil.each(nodes, function (node) {
if (!isNodeDepth(node) && !node.outEdges.length) {
node.setLayout({
depth: maxDepth
}, true);
}
});
}
/**
* Scale node x-position to the width
*
* @param nodes node of sankey view
* @param kx multiple used to scale nodes
*/
function scaleNodeBreadths(nodes, kx, orient) {
zrUtil.each(nodes, function (node) {
var nodeDepth = node.getLayout().depth * kx;
orient === 'vertical' ? node.setLayout({
y: nodeDepth
}, true) : node.setLayout({
x: nodeDepth
}, true);
});
}
/**
* Using Gauss-Seidel iterations method to compute the node depth(y-position)
*
* @param nodes node of sankey view
* @param edges edge of sankey view
* @param height the whole height of the area to draw the view
* @param nodeGap the vertical distance between two nodes
* in the same column.
* @param iterations the number of iterations for the algorithm
*/
function computeNodeDepths(nodes, edges, height, width, nodeGap, iterations, orient) {
var nodesByBreadth = prepareNodesByBreadth(nodes, orient);
initializeNodeDepth(nodesByBreadth, edges, height, width, nodeGap, orient);
resolveCollisions(nodesByBreadth, nodeGap, height, width, orient);
for (var alpha = 1; iterations > 0; iterations--) {
// 0.99 is a experience parameter, ensure that each iterations of
// changes as small as possible.
alpha *= 0.99;
relaxRightToLeft(nodesByBreadth, alpha, orient);
resolveCollisions(nodesByBreadth, nodeGap, height, width, orient);
relaxLeftToRight(nodesByBreadth, alpha, orient);
resolveCollisions(nodesByBreadth, nodeGap, height, width, orient);
}
}
function prepareNodesByBreadth(nodes, orient) {
var nodesByBreadth = [];
var keyAttr = orient === 'vertical' ? 'y' : 'x';
var groupResult = groupData(nodes, function (node) {
return node.getLayout()[keyAttr];
});
groupResult.keys.sort(function (a, b) {
return a - b;
});
zrUtil.each(groupResult.keys, function (key) {
nodesByBreadth.push(groupResult.buckets.get(key));
});
return nodesByBreadth;
}
/**
* Compute the original y-position for each node
*/
function initializeNodeDepth(nodesByBreadth, edges, height, width, nodeGap, orient) {
var minKy = Infinity;
zrUtil.each(nodesByBreadth, function (nodes) {
var n = nodes.length;
var sum = 0;
zrUtil.each(nodes, function (node) {
sum += node.getLayout().value;
});
var ky = orient === 'vertical' ? (width - (n - 1) * nodeGap) / sum : (height - (n - 1) * nodeGap) / sum;
if (ky < minKy) {
minKy = ky;
}
});
zrUtil.each(nodesByBreadth, function (nodes) {
zrUtil.each(nodes, function (node, i) {
var nodeDy = node.getLayout().value * minKy;
if (orient === 'vertical') {
node.setLayout({
x: i
}, true);
node.setLayout({
dx: nodeDy
}, true);
} else {
node.setLayout({
y: i
}, true);
node.setLayout({
dy: nodeDy
}, true);
}
});
});
zrUtil.each(edges, function (edge) {
var edgeDy = +edge.getValue() * minKy;
edge.setLayout({
dy: edgeDy
}, true);
});
}
/**
* Resolve the collision of initialized depth (y-position)
*/
function resolveCollisions(nodesByBreadth, nodeGap, height, width, orient) {
var keyAttr = orient === 'vertical' ? 'x' : 'y';
zrUtil.each(nodesByBreadth, function (nodes) {
nodes.sort(function (a, b) {
return a.getLayout()[keyAttr] - b.getLayout()[keyAttr];
});
var nodeX;
var node;
var dy;
var y0 = 0;
var n = nodes.length;
var nodeDyAttr = orient === 'vertical' ? 'dx' : 'dy';
for (var i = 0; i < n; i++) {
node = nodes[i];
dy = y0 - node.getLayout()[keyAttr];
if (dy > 0) {
nodeX = node.getLayout()[keyAttr] + dy;
orient === 'vertical' ? node.setLayout({
x: nodeX
}, true) : node.setLayout({
y: nodeX
}, true);
}
y0 = node.getLayout()[keyAttr] + node.getLayout()[nodeDyAttr] + nodeGap;
}
var viewWidth = orient === 'vertical' ? width : height;
// If the bottommost node goes outside the bounds, push it back up
dy = y0 - nodeGap - viewWidth;
if (dy > 0) {
nodeX = node.getLayout()[keyAttr] - dy;
orient === 'vertical' ? node.setLayout({
x: nodeX
}, true) : node.setLayout({
y: nodeX
}, true);
y0 = nodeX;
for (var i = n - 2; i >= 0; --i) {
node = nodes[i];
dy = node.getLayout()[keyAttr] + node.getLayout()[nodeDyAttr] + nodeGap - y0;
if (dy > 0) {
nodeX = node.getLayout()[keyAttr] - dy;
orient === 'vertical' ? node.setLayout({
x: nodeX
}, true) : node.setLayout({
y: nodeX
}, true);
}
y0 = node.getLayout()[keyAttr];
}
}
});
}
/**
* Change the y-position of the nodes, except most the right side nodes
* @param nodesByBreadth
* @param alpha parameter used to adjust the nodes y-position
*/
function relaxRightToLeft(nodesByBreadth, alpha, orient) {
zrUtil.each(nodesByBreadth.slice().reverse(), function (nodes) {
zrUtil.each(nodes, function (node) {
if (node.outEdges.length) {
var y = sum(node.outEdges, weightedTarget, orient) / sum(node.outEdges, getEdgeValue);
if (isNaN(y)) {
var len = node.outEdges.length;
y = len ? sum(node.outEdges, centerTarget, orient) / len : 0;
}
if (orient === 'vertical') {
var nodeX = node.getLayout().x + (y - center(node, orient)) * alpha;
node.setLayout({
x: nodeX
}, true);
} else {
var nodeY = node.getLayout().y + (y - center(node, orient)) * alpha;
node.setLayout({
y: nodeY
}, true);
}
}
});
});
}
function weightedTarget(edge, orient) {
return center(edge.node2, orient) * edge.getValue();
}
function centerTarget(edge, orient) {
return center(edge.node2, orient);
}
function weightedSource(edge, orient) {
return center(edge.node1, orient) * edge.getValue();
}
function centerSource(edge, orient) {
return center(edge.node1, orient);
}
function center(node, orient) {
return orient === 'vertical' ? node.getLayout().x + node.getLayout().dx / 2 : node.getLayout().y + node.getLayout().dy / 2;
}
function getEdgeValue(edge) {
return edge.getValue();
}
function sum(array, cb, orient) {
var sum = 0;
var len = array.length;
var i = -1;
while (++i < len) {
var value = +cb(array[i], orient);
if (!isNaN(value)) {
sum += value;
}
}
return sum;
}
/**
* Change the y-position of the nodes, except most the left side nodes
*/
function relaxLeftToRight(nodesByBreadth, alpha, orient) {
zrUtil.each(nodesByBreadth, function (nodes) {
zrUtil.each(nodes, function (node) {
if (node.inEdges.length) {
var y = sum(node.inEdges, weightedSource, orient) / sum(node.inEdges, getEdgeValue);
if (isNaN(y)) {
var len = node.inEdges.length;
y = len ? sum(node.inEdges, centerSource, orient) / len : 0;
}
if (orient === 'vertical') {
var nodeX = node.getLayout().x + (y - center(node, orient)) * alpha;
node.setLayout({
x: nodeX
}, true);
} else {
var nodeY = node.getLayout().y + (y - center(node, orient)) * alpha;
node.setLayout({
y: nodeY
}, true);
}
}
});
});
}
/**
* Compute the depth(y-position) of each edge
*/
function computeEdgeDepths(nodes, orient) {
var keyAttr = orient === 'vertical' ? 'x' : 'y';
zrUtil.each(nodes, function (node) {
node.outEdges.sort(function (a, b) {
return a.node2.getLayout()[keyAttr] - b.node2.getLayout()[keyAttr];
});
node.inEdges.sort(function (a, b) {
return a.node1.getLayout()[keyAttr] - b.node1.getLayout()[keyAttr];
});
});
zrUtil.each(nodes, function (node) {
var sy = 0;
var ty = 0;
zrUtil.each(node.outEdges, function (edge) {
edge.setLayout({
sy: sy
}, true);
sy += edge.getLayout().dy;
});
zrUtil.each(node.inEdges, function (edge) {
edge.setLayout({
ty: ty
}, true);
ty += edge.getLayout().dy;
});
});
}