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698 lines
24 KiB
698 lines
24 KiB
import * as vec2 from './vector.js';
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import BoundingRect from './BoundingRect.js';
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import { devicePixelRatio as dpr } from '../config.js';
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import { fromLine, fromCubic, fromQuadratic, fromArc } from './bbox.js';
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import { cubicLength, cubicSubdivide, quadraticLength, quadraticSubdivide } from './curve.js';
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var CMD = {
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M: 1,
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L: 2,
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C: 3,
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Q: 4,
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A: 5,
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Z: 6,
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R: 7
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};
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var tmpOutX = [];
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var tmpOutY = [];
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var min = [];
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var max = [];
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var min2 = [];
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var max2 = [];
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var mathMin = Math.min;
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var mathMax = Math.max;
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var mathCos = Math.cos;
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var mathSin = Math.sin;
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var mathAbs = Math.abs;
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var PI = Math.PI;
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var PI2 = PI * 2;
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var hasTypedArray = typeof Float32Array !== 'undefined';
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var tmpAngles = [];
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function modPI2(radian) {
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var n = Math.round(radian / PI * 1e8) / 1e8;
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return (n % 2) * PI;
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}
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export function normalizeArcAngles(angles, anticlockwise) {
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var newStartAngle = modPI2(angles[0]);
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if (newStartAngle < 0) {
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newStartAngle += PI2;
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}
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var delta = newStartAngle - angles[0];
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var newEndAngle = angles[1];
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newEndAngle += delta;
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if (!anticlockwise && newEndAngle - newStartAngle >= PI2) {
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newEndAngle = newStartAngle + PI2;
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}
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else if (anticlockwise && newStartAngle - newEndAngle >= PI2) {
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newEndAngle = newStartAngle - PI2;
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}
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else if (!anticlockwise && newStartAngle > newEndAngle) {
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newEndAngle = newStartAngle + (PI2 - modPI2(newStartAngle - newEndAngle));
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}
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else if (anticlockwise && newStartAngle < newEndAngle) {
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newEndAngle = newStartAngle - (PI2 - modPI2(newEndAngle - newStartAngle));
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}
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angles[0] = newStartAngle;
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angles[1] = newEndAngle;
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}
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var PathProxy = (function () {
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function PathProxy(notSaveData) {
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this.dpr = 1;
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this._xi = 0;
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this._yi = 0;
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this._x0 = 0;
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this._y0 = 0;
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this._len = 0;
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if (notSaveData) {
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this._saveData = false;
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}
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if (this._saveData) {
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this.data = [];
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}
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}
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PathProxy.prototype.increaseVersion = function () {
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this._version++;
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};
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PathProxy.prototype.getVersion = function () {
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return this._version;
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};
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PathProxy.prototype.setScale = function (sx, sy, segmentIgnoreThreshold) {
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segmentIgnoreThreshold = segmentIgnoreThreshold || 0;
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if (segmentIgnoreThreshold > 0) {
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this._ux = mathAbs(segmentIgnoreThreshold / dpr / sx) || 0;
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this._uy = mathAbs(segmentIgnoreThreshold / dpr / sy) || 0;
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}
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};
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PathProxy.prototype.setDPR = function (dpr) {
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this.dpr = dpr;
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};
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PathProxy.prototype.setContext = function (ctx) {
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this._ctx = ctx;
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};
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PathProxy.prototype.getContext = function () {
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return this._ctx;
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};
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PathProxy.prototype.beginPath = function () {
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this._ctx && this._ctx.beginPath();
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this.reset();
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return this;
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};
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PathProxy.prototype.reset = function () {
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if (this._saveData) {
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this._len = 0;
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}
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if (this._pathSegLen) {
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this._pathSegLen = null;
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this._pathLen = 0;
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}
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this._version++;
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};
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PathProxy.prototype.moveTo = function (x, y) {
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this._drawPendingPt();
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this.addData(CMD.M, x, y);
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this._ctx && this._ctx.moveTo(x, y);
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this._x0 = x;
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this._y0 = y;
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this._xi = x;
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this._yi = y;
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return this;
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};
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PathProxy.prototype.lineTo = function (x, y) {
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var dx = mathAbs(x - this._xi);
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var dy = mathAbs(y - this._yi);
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var exceedUnit = dx > this._ux || dy > this._uy;
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this.addData(CMD.L, x, y);
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if (this._ctx && exceedUnit) {
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this._ctx.lineTo(x, y);
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}
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if (exceedUnit) {
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this._xi = x;
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this._yi = y;
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this._pendingPtDist = 0;
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}
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else {
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var d2 = dx * dx + dy * dy;
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if (d2 > this._pendingPtDist) {
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this._pendingPtX = x;
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this._pendingPtY = y;
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this._pendingPtDist = d2;
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}
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}
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return this;
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};
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PathProxy.prototype.bezierCurveTo = function (x1, y1, x2, y2, x3, y3) {
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this._drawPendingPt();
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this.addData(CMD.C, x1, y1, x2, y2, x3, y3);
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if (this._ctx) {
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this._ctx.bezierCurveTo(x1, y1, x2, y2, x3, y3);
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}
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this._xi = x3;
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this._yi = y3;
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return this;
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};
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PathProxy.prototype.quadraticCurveTo = function (x1, y1, x2, y2) {
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this._drawPendingPt();
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this.addData(CMD.Q, x1, y1, x2, y2);
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if (this._ctx) {
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this._ctx.quadraticCurveTo(x1, y1, x2, y2);
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}
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this._xi = x2;
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this._yi = y2;
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return this;
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};
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PathProxy.prototype.arc = function (cx, cy, r, startAngle, endAngle, anticlockwise) {
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this._drawPendingPt();
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tmpAngles[0] = startAngle;
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tmpAngles[1] = endAngle;
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normalizeArcAngles(tmpAngles, anticlockwise);
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startAngle = tmpAngles[0];
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endAngle = tmpAngles[1];
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var delta = endAngle - startAngle;
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this.addData(CMD.A, cx, cy, r, r, startAngle, delta, 0, anticlockwise ? 0 : 1);
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this._ctx && this._ctx.arc(cx, cy, r, startAngle, endAngle, anticlockwise);
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this._xi = mathCos(endAngle) * r + cx;
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this._yi = mathSin(endAngle) * r + cy;
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return this;
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};
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PathProxy.prototype.arcTo = function (x1, y1, x2, y2, radius) {
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this._drawPendingPt();
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if (this._ctx) {
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this._ctx.arcTo(x1, y1, x2, y2, radius);
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}
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return this;
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};
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PathProxy.prototype.rect = function (x, y, w, h) {
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this._drawPendingPt();
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this._ctx && this._ctx.rect(x, y, w, h);
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this.addData(CMD.R, x, y, w, h);
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return this;
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};
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PathProxy.prototype.closePath = function () {
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this._drawPendingPt();
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this.addData(CMD.Z);
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var ctx = this._ctx;
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var x0 = this._x0;
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var y0 = this._y0;
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if (ctx) {
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ctx.closePath();
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}
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this._xi = x0;
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this._yi = y0;
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return this;
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};
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PathProxy.prototype.fill = function (ctx) {
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ctx && ctx.fill();
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this.toStatic();
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};
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PathProxy.prototype.stroke = function (ctx) {
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ctx && ctx.stroke();
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this.toStatic();
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};
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PathProxy.prototype.len = function () {
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return this._len;
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};
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PathProxy.prototype.setData = function (data) {
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var len = data.length;
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if (!(this.data && this.data.length === len) && hasTypedArray) {
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this.data = new Float32Array(len);
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}
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for (var i = 0; i < len; i++) {
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this.data[i] = data[i];
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}
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this._len = len;
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};
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PathProxy.prototype.appendPath = function (path) {
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if (!(path instanceof Array)) {
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path = [path];
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}
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var len = path.length;
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var appendSize = 0;
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var offset = this._len;
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for (var i = 0; i < len; i++) {
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appendSize += path[i].len();
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}
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if (hasTypedArray && (this.data instanceof Float32Array)) {
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this.data = new Float32Array(offset + appendSize);
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}
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for (var i = 0; i < len; i++) {
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var appendPathData = path[i].data;
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for (var k = 0; k < appendPathData.length; k++) {
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this.data[offset++] = appendPathData[k];
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}
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}
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this._len = offset;
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};
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PathProxy.prototype.addData = function (cmd, a, b, c, d, e, f, g, h) {
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if (!this._saveData) {
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return;
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}
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var data = this.data;
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if (this._len + arguments.length > data.length) {
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this._expandData();
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data = this.data;
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}
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for (var i = 0; i < arguments.length; i++) {
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data[this._len++] = arguments[i];
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}
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};
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PathProxy.prototype._drawPendingPt = function () {
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if (this._pendingPtDist > 0) {
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this._ctx && this._ctx.lineTo(this._pendingPtX, this._pendingPtY);
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this._pendingPtDist = 0;
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}
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};
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PathProxy.prototype._expandData = function () {
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if (!(this.data instanceof Array)) {
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var newData = [];
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for (var i = 0; i < this._len; i++) {
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newData[i] = this.data[i];
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}
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this.data = newData;
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}
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};
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PathProxy.prototype.toStatic = function () {
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if (!this._saveData) {
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return;
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}
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this._drawPendingPt();
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var data = this.data;
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if (data instanceof Array) {
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data.length = this._len;
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if (hasTypedArray && this._len > 11) {
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this.data = new Float32Array(data);
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}
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}
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};
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PathProxy.prototype.getBoundingRect = function () {
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min[0] = min[1] = min2[0] = min2[1] = Number.MAX_VALUE;
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max[0] = max[1] = max2[0] = max2[1] = -Number.MAX_VALUE;
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var data = this.data;
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var xi = 0;
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var yi = 0;
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var x0 = 0;
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var y0 = 0;
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var i;
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for (i = 0; i < this._len;) {
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var cmd = data[i++];
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var isFirst = i === 1;
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if (isFirst) {
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xi = data[i];
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yi = data[i + 1];
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x0 = xi;
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y0 = yi;
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}
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switch (cmd) {
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case CMD.M:
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xi = x0 = data[i++];
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yi = y0 = data[i++];
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min2[0] = x0;
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min2[1] = y0;
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max2[0] = x0;
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max2[1] = y0;
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break;
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case CMD.L:
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fromLine(xi, yi, data[i], data[i + 1], min2, max2);
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xi = data[i++];
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yi = data[i++];
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break;
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case CMD.C:
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fromCubic(xi, yi, data[i++], data[i++], data[i++], data[i++], data[i], data[i + 1], min2, max2);
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xi = data[i++];
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yi = data[i++];
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break;
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case CMD.Q:
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fromQuadratic(xi, yi, data[i++], data[i++], data[i], data[i + 1], min2, max2);
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xi = data[i++];
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yi = data[i++];
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break;
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case CMD.A:
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var cx = data[i++];
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var cy = data[i++];
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var rx = data[i++];
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var ry = data[i++];
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var startAngle = data[i++];
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var endAngle = data[i++] + startAngle;
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i += 1;
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var anticlockwise = !data[i++];
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if (isFirst) {
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x0 = mathCos(startAngle) * rx + cx;
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y0 = mathSin(startAngle) * ry + cy;
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}
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fromArc(cx, cy, rx, ry, startAngle, endAngle, anticlockwise, min2, max2);
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xi = mathCos(endAngle) * rx + cx;
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yi = mathSin(endAngle) * ry + cy;
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break;
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case CMD.R:
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x0 = xi = data[i++];
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y0 = yi = data[i++];
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var width = data[i++];
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var height = data[i++];
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fromLine(x0, y0, x0 + width, y0 + height, min2, max2);
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break;
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case CMD.Z:
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xi = x0;
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yi = y0;
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break;
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}
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vec2.min(min, min, min2);
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vec2.max(max, max, max2);
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}
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if (i === 0) {
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min[0] = min[1] = max[0] = max[1] = 0;
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}
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return new BoundingRect(min[0], min[1], max[0] - min[0], max[1] - min[1]);
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};
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PathProxy.prototype._calculateLength = function () {
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var data = this.data;
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var len = this._len;
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var ux = this._ux;
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var uy = this._uy;
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var xi = 0;
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var yi = 0;
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var x0 = 0;
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var y0 = 0;
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if (!this._pathSegLen) {
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this._pathSegLen = [];
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}
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var pathSegLen = this._pathSegLen;
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var pathTotalLen = 0;
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var segCount = 0;
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for (var i = 0; i < len;) {
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var cmd = data[i++];
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var isFirst = i === 1;
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if (isFirst) {
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xi = data[i];
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yi = data[i + 1];
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x0 = xi;
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y0 = yi;
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}
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var l = -1;
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switch (cmd) {
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case CMD.M:
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xi = x0 = data[i++];
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yi = y0 = data[i++];
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break;
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case CMD.L: {
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var x2 = data[i++];
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var y2 = data[i++];
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var dx = x2 - xi;
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var dy = y2 - yi;
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if (mathAbs(dx) > ux || mathAbs(dy) > uy || i === len - 1) {
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l = Math.sqrt(dx * dx + dy * dy);
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xi = x2;
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yi = y2;
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}
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break;
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}
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case CMD.C: {
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var x1 = data[i++];
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var y1 = data[i++];
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var x2 = data[i++];
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var y2 = data[i++];
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var x3 = data[i++];
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var y3 = data[i++];
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l = cubicLength(xi, yi, x1, y1, x2, y2, x3, y3, 10);
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xi = x3;
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yi = y3;
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break;
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}
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case CMD.Q: {
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var x1 = data[i++];
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var y1 = data[i++];
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var x2 = data[i++];
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var y2 = data[i++];
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l = quadraticLength(xi, yi, x1, y1, x2, y2, 10);
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xi = x2;
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yi = y2;
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break;
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}
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case CMD.A:
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var cx = data[i++];
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var cy = data[i++];
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var rx = data[i++];
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var ry = data[i++];
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var startAngle = data[i++];
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var delta = data[i++];
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var endAngle = delta + startAngle;
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i += 1;
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if (isFirst) {
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x0 = mathCos(startAngle) * rx + cx;
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y0 = mathSin(startAngle) * ry + cy;
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}
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l = mathMax(rx, ry) * mathMin(PI2, Math.abs(delta));
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xi = mathCos(endAngle) * rx + cx;
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yi = mathSin(endAngle) * ry + cy;
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break;
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case CMD.R: {
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x0 = xi = data[i++];
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y0 = yi = data[i++];
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var width = data[i++];
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var height = data[i++];
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l = width * 2 + height * 2;
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break;
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}
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case CMD.Z: {
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var dx = x0 - xi;
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var dy = y0 - yi;
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l = Math.sqrt(dx * dx + dy * dy);
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xi = x0;
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yi = y0;
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break;
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}
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}
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if (l >= 0) {
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pathSegLen[segCount++] = l;
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pathTotalLen += l;
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}
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}
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this._pathLen = pathTotalLen;
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return pathTotalLen;
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};
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PathProxy.prototype.rebuildPath = function (ctx, percent) {
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var d = this.data;
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var ux = this._ux;
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var uy = this._uy;
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var len = this._len;
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var x0;
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var y0;
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var xi;
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var yi;
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var x;
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var y;
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var drawPart = percent < 1;
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var pathSegLen;
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var pathTotalLen;
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var accumLength = 0;
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var segCount = 0;
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var displayedLength;
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var pendingPtDist = 0;
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var pendingPtX;
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var pendingPtY;
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if (drawPart) {
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if (!this._pathSegLen) {
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this._calculateLength();
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}
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pathSegLen = this._pathSegLen;
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pathTotalLen = this._pathLen;
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displayedLength = percent * pathTotalLen;
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if (!displayedLength) {
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return;
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}
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}
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lo: for (var i = 0; i < len;) {
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var cmd = d[i++];
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var isFirst = i === 1;
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if (isFirst) {
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xi = d[i];
|
|
yi = d[i + 1];
|
|
x0 = xi;
|
|
y0 = yi;
|
|
}
|
|
if (cmd !== CMD.L && pendingPtDist > 0) {
|
|
ctx.lineTo(pendingPtX, pendingPtY);
|
|
pendingPtDist = 0;
|
|
}
|
|
switch (cmd) {
|
|
case CMD.M:
|
|
x0 = xi = d[i++];
|
|
y0 = yi = d[i++];
|
|
ctx.moveTo(xi, yi);
|
|
break;
|
|
case CMD.L: {
|
|
x = d[i++];
|
|
y = d[i++];
|
|
var dx = mathAbs(x - xi);
|
|
var dy = mathAbs(y - yi);
|
|
if (dx > ux || dy > uy) {
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
var t = (displayedLength - accumLength) / l;
|
|
ctx.lineTo(xi * (1 - t) + x * t, yi * (1 - t) + y * t);
|
|
break lo;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
ctx.lineTo(x, y);
|
|
xi = x;
|
|
yi = y;
|
|
pendingPtDist = 0;
|
|
}
|
|
else {
|
|
var d2 = dx * dx + dy * dy;
|
|
if (d2 > pendingPtDist) {
|
|
pendingPtX = x;
|
|
pendingPtY = y;
|
|
pendingPtDist = d2;
|
|
}
|
|
}
|
|
break;
|
|
}
|
|
case CMD.C: {
|
|
var x1 = d[i++];
|
|
var y1 = d[i++];
|
|
var x2 = d[i++];
|
|
var y2 = d[i++];
|
|
var x3 = d[i++];
|
|
var y3 = d[i++];
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
var t = (displayedLength - accumLength) / l;
|
|
cubicSubdivide(xi, x1, x2, x3, t, tmpOutX);
|
|
cubicSubdivide(yi, y1, y2, y3, t, tmpOutY);
|
|
ctx.bezierCurveTo(tmpOutX[1], tmpOutY[1], tmpOutX[2], tmpOutY[2], tmpOutX[3], tmpOutY[3]);
|
|
break lo;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
ctx.bezierCurveTo(x1, y1, x2, y2, x3, y3);
|
|
xi = x3;
|
|
yi = y3;
|
|
break;
|
|
}
|
|
case CMD.Q: {
|
|
var x1 = d[i++];
|
|
var y1 = d[i++];
|
|
var x2 = d[i++];
|
|
var y2 = d[i++];
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
var t = (displayedLength - accumLength) / l;
|
|
quadraticSubdivide(xi, x1, x2, t, tmpOutX);
|
|
quadraticSubdivide(yi, y1, y2, t, tmpOutY);
|
|
ctx.quadraticCurveTo(tmpOutX[1], tmpOutY[1], tmpOutX[2], tmpOutY[2]);
|
|
break lo;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
ctx.quadraticCurveTo(x1, y1, x2, y2);
|
|
xi = x2;
|
|
yi = y2;
|
|
break;
|
|
}
|
|
case CMD.A:
|
|
var cx = d[i++];
|
|
var cy = d[i++];
|
|
var rx = d[i++];
|
|
var ry = d[i++];
|
|
var startAngle = d[i++];
|
|
var delta = d[i++];
|
|
var psi = d[i++];
|
|
var anticlockwise = !d[i++];
|
|
var r = (rx > ry) ? rx : ry;
|
|
var isEllipse = mathAbs(rx - ry) > 1e-3;
|
|
var endAngle = startAngle + delta;
|
|
var breakBuild = false;
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
endAngle = startAngle + delta * (displayedLength - accumLength) / l;
|
|
breakBuild = true;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
if (isEllipse && ctx.ellipse) {
|
|
ctx.ellipse(cx, cy, rx, ry, psi, startAngle, endAngle, anticlockwise);
|
|
}
|
|
else {
|
|
ctx.arc(cx, cy, r, startAngle, endAngle, anticlockwise);
|
|
}
|
|
if (breakBuild) {
|
|
break lo;
|
|
}
|
|
if (isFirst) {
|
|
x0 = mathCos(startAngle) * rx + cx;
|
|
y0 = mathSin(startAngle) * ry + cy;
|
|
}
|
|
xi = mathCos(endAngle) * rx + cx;
|
|
yi = mathSin(endAngle) * ry + cy;
|
|
break;
|
|
case CMD.R:
|
|
x0 = xi = d[i];
|
|
y0 = yi = d[i + 1];
|
|
x = d[i++];
|
|
y = d[i++];
|
|
var width = d[i++];
|
|
var height = d[i++];
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
var d_1 = displayedLength - accumLength;
|
|
ctx.moveTo(x, y);
|
|
ctx.lineTo(x + mathMin(d_1, width), y);
|
|
d_1 -= width;
|
|
if (d_1 > 0) {
|
|
ctx.lineTo(x + width, y + mathMin(d_1, height));
|
|
}
|
|
d_1 -= height;
|
|
if (d_1 > 0) {
|
|
ctx.lineTo(x + mathMax(width - d_1, 0), y + height);
|
|
}
|
|
d_1 -= width;
|
|
if (d_1 > 0) {
|
|
ctx.lineTo(x, y + mathMax(height - d_1, 0));
|
|
}
|
|
break lo;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
ctx.rect(x, y, width, height);
|
|
break;
|
|
case CMD.Z:
|
|
if (drawPart) {
|
|
var l = pathSegLen[segCount++];
|
|
if (accumLength + l > displayedLength) {
|
|
var t = (displayedLength - accumLength) / l;
|
|
ctx.lineTo(xi * (1 - t) + x0 * t, yi * (1 - t) + y0 * t);
|
|
break lo;
|
|
}
|
|
accumLength += l;
|
|
}
|
|
ctx.closePath();
|
|
xi = x0;
|
|
yi = y0;
|
|
}
|
|
}
|
|
};
|
|
PathProxy.prototype.clone = function () {
|
|
var newProxy = new PathProxy();
|
|
var data = this.data;
|
|
newProxy.data = data.slice ? data.slice()
|
|
: Array.prototype.slice.call(data);
|
|
newProxy._len = this._len;
|
|
return newProxy;
|
|
};
|
|
PathProxy.CMD = CMD;
|
|
PathProxy.initDefaultProps = (function () {
|
|
var proto = PathProxy.prototype;
|
|
proto._saveData = true;
|
|
proto._ux = 0;
|
|
proto._uy = 0;
|
|
proto._pendingPtDist = 0;
|
|
proto._version = 0;
|
|
})();
|
|
return PathProxy;
|
|
}());
|
|
export default PathProxy;
|