echarts adjustEdge 源码
echarts adjustEdge 代码
文件路径:/src/chart/graph/adjustEdge.ts
/*
* 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 curveTool from 'zrender/src/core/curve';
import * as vec2 from 'zrender/src/core/vector';
import {getSymbolSize} from './graphHelper';
import Graph from '../../data/Graph';
const v1: number[] = [];
const v2: number[] = [];
const v3: number[] = [];
const quadraticAt = curveTool.quadraticAt;
const v2DistSquare = vec2.distSquare;
const mathAbs = Math.abs;
function intersectCurveCircle(
curvePoints: number[][],
center: number[],
radius: number
) {
const p0 = curvePoints[0];
const p1 = curvePoints[1];
const p2 = curvePoints[2];
let d = Infinity;
let t;
const radiusSquare = radius * radius;
let interval = 0.1;
for (let _t = 0.1; _t <= 0.9; _t += 0.1) {
v1[0] = quadraticAt(p0[0], p1[0], p2[0], _t);
v1[1] = quadraticAt(p0[1], p1[1], p2[1], _t);
const diff = mathAbs(v2DistSquare(v1, center) - radiusSquare);
if (diff < d) {
d = diff;
t = _t;
}
}
// Assume the segment is monotone,Find root through Bisection method
// At most 32 iteration
for (let i = 0; i < 32; i++) {
// let prev = t - interval;
const next = t + interval;
// v1[0] = quadraticAt(p0[0], p1[0], p2[0], prev);
// v1[1] = quadraticAt(p0[1], p1[1], p2[1], prev);
v2[0] = quadraticAt(p0[0], p1[0], p2[0], t);
v2[1] = quadraticAt(p0[1], p1[1], p2[1], t);
v3[0] = quadraticAt(p0[0], p1[0], p2[0], next);
v3[1] = quadraticAt(p0[1], p1[1], p2[1], next);
const diff = v2DistSquare(v2, center) - radiusSquare;
if (mathAbs(diff) < 1e-2) {
break;
}
// let prevDiff = v2DistSquare(v1, center) - radiusSquare;
const nextDiff = v2DistSquare(v3, center) - radiusSquare;
interval /= 2;
if (diff < 0) {
if (nextDiff >= 0) {
t = t + interval;
}
else {
t = t - interval;
}
}
else {
if (nextDiff >= 0) {
t = t - interval;
}
else {
t = t + interval;
}
}
}
return t;
}
// Adjust edge to avoid
export default function adjustEdge(graph: Graph, scale: number) {
const tmp0: number[] = [];
const quadraticSubdivide = curveTool.quadraticSubdivide;
const pts: number[][] = [[], [], []];
const pts2: number[][] = [[], []];
const v: number[] = [];
scale /= 2;
graph.eachEdge(function (edge, idx) {
const linePoints = edge.getLayout();
const fromSymbol = edge.getVisual('fromSymbol');
const toSymbol = edge.getVisual('toSymbol');
if (!linePoints.__original) {
linePoints.__original = [
vec2.clone(linePoints[0]),
vec2.clone(linePoints[1])
];
if (linePoints[2]) {
linePoints.__original.push(vec2.clone(linePoints[2]));
}
}
const originalPoints = linePoints.__original;
// Quadratic curve
if (linePoints[2] != null) {
vec2.copy(pts[0], originalPoints[0]);
vec2.copy(pts[1], originalPoints[2]);
vec2.copy(pts[2], originalPoints[1]);
if (fromSymbol && fromSymbol !== 'none') {
const symbolSize = getSymbolSize(edge.node1);
const t = intersectCurveCircle(pts, originalPoints[0], symbolSize * scale);
// Subdivide and get the second
quadraticSubdivide(pts[0][0], pts[1][0], pts[2][0], t, tmp0);
pts[0][0] = tmp0[3];
pts[1][0] = tmp0[4];
quadraticSubdivide(pts[0][1], pts[1][1], pts[2][1], t, tmp0);
pts[0][1] = tmp0[3];
pts[1][1] = tmp0[4];
}
if (toSymbol && toSymbol !== 'none') {
const symbolSize = getSymbolSize(edge.node2);
const t = intersectCurveCircle(pts, originalPoints[1], symbolSize * scale);
// Subdivide and get the first
quadraticSubdivide(pts[0][0], pts[1][0], pts[2][0], t, tmp0);
pts[1][0] = tmp0[1];
pts[2][0] = tmp0[2];
quadraticSubdivide(pts[0][1], pts[1][1], pts[2][1], t, tmp0);
pts[1][1] = tmp0[1];
pts[2][1] = tmp0[2];
}
// Copy back to layout
vec2.copy(linePoints[0], pts[0]);
vec2.copy(linePoints[1], pts[2]);
vec2.copy(linePoints[2], pts[1]);
}
// Line
else {
vec2.copy(pts2[0], originalPoints[0]);
vec2.copy(pts2[1], originalPoints[1]);
vec2.sub(v, pts2[1], pts2[0]);
vec2.normalize(v, v);
if (fromSymbol && fromSymbol !== 'none') {
const symbolSize = getSymbolSize(edge.node1);
vec2.scaleAndAdd(pts2[0], pts2[0], v, symbolSize * scale);
}
if (toSymbol && toSymbol !== 'none') {
const symbolSize = getSymbolSize(edge.node2);
vec2.scaleAndAdd(pts2[1], pts2[1], v, -symbolSize * scale);
}
vec2.copy(linePoints[0], pts2[0]);
vec2.copy(linePoints[1], pts2[1]);
}
});
}
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