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File: vendors/gentelella/vendors/echarts/src/chart/graph/adjustEdge.js

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File: vendors/gentelella/vendors/echarts/src/chart/graph/adjustEdge.js
Role: Auxiliary data
Content type: text/plain
Description: Auxiliary data
Class: Gentelella BladeOne
Render templates using Bootstrap for presentation
Author: By
Last change:
Date: 3 years ago
Size: 5,425 bytes
 

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define(function (require) { var curveTool = require('zrender/core/curve'); var vec2 = require('zrender/core/vector'); var v1 = []; var v2 = []; var v3 = []; var quadraticAt = curveTool.quadraticAt; var v2DistSquare = vec2.distSquare; var mathAbs = Math.abs; function intersectCurveCircle(curvePoints, center, radius) { var p0 = curvePoints[0]; var p1 = curvePoints[1]; var p2 = curvePoints[2]; var d = Infinity; var t; var radiusSquare = radius * radius; var interval = 0.1; for (var _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); var 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 (var i = 0; i < 32; i++) { // var prev = t - interval; var 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); var diff = v2DistSquare(v2, center) - radiusSquare; if (mathAbs(diff) < 1e-2) { break; } // var prevDiff = v2DistSquare(v1, center) - radiusSquare; var 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 return function (graph, scale) { var tmp0 = []; var quadraticSubdivide = curveTool.quadraticSubdivide; var pts = [[], [], []]; var pts2 = [[], []]; var v = []; scale /= 2; graph.eachEdge(function (edge) { var linePoints = edge.getLayout(); var fromSymbol = edge.getVisual('fromSymbol'); var 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])); } } var 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') { var t = intersectCurveCircle(pts, originalPoints[0], edge.node1.getVisual('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') { var t = intersectCurveCircle(pts, originalPoints[1], edge.node2.getVisual('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') { vec2.scaleAndAdd(pts2[0], pts2[0], v, edge.node1.getVisual('symbolSize') * scale); } if (toSymbol && toSymbol != 'none') { vec2.scaleAndAdd(pts2[1], pts2[1], v, -edge.node2.getVisual('symbolSize') * scale); } vec2.copy(linePoints[0], pts2[0]); vec2.copy(linePoints[1], pts2[1]); } }); }; });