/* eslint-disable */ // 当ctx传入当前文件,const grd = ctx.createCircularGradient() 和 // const grd = this.ctx.createLinearGradient() 无效,因此只能分开处理 // 先分析,在外部创建grd,再传入使用就可以 !(function () { var api = { isGradient: function(bg) { if (bg && (bg.startsWith('linear') || bg.startsWith('radial'))) { return true; } return false; }, doGradient: function(bg, width, height, ctx) { if (bg.startsWith('linear')) { linearEffect(width, height, bg, ctx); } else if (bg.startsWith('radial')) { radialEffect(width, height, bg, ctx); } }, } function analizeGrad(string) { const colorPercents = string.substring(0, string.length - 1).split("%,"); const colors = []; const percents = []; for (let colorPercent of colorPercents) { colors.push(colorPercent.substring(0, colorPercent.lastIndexOf(" ")).trim()); percents.push(colorPercent.substring(colorPercent.lastIndexOf(" "), colorPercent.length) / 100); } return {colors: colors, percents: percents}; } function radialEffect(width, height, bg, ctx) { const colorPer = analizeGrad(bg.match(/radial-gradient\((.+)\)/)[1]); const grd = ctx.createRadialGradient(0, 0, 0, 0, 0, width < height ? height / 2 : width / 2); for (let i = 0; i < colorPer.colors.length; i++) { grd.addColorStop(colorPer.percents[i], colorPer.colors[i]); } ctx.fillStyle = grd; //ctx.fillRect(-(width / 2), -(height / 2), width, height); } function analizeLinear(bg, width, height) { const direction = bg.match(/([-]?\d{1,3})deg/); const dir = direction && direction[1] ? parseFloat(direction[1]) : 0; let coordinate; switch (dir) { case 0: coordinate = [0, -height / 2, 0, height / 2]; break; case 90: coordinate = [width / 2, 0, -width / 2, 0]; break; case -90: coordinate = [-width / 2, 0, width / 2, 0]; break; case 180: coordinate = [0, height / 2, 0, -height / 2]; break; case -180: coordinate = [0, -height / 2, 0, height / 2]; break; default: let x1 = 0; let y1 = 0; let x2 = 0; let y2 = 0; if (direction[1] > 0 && direction[1] < 90) { x1 = (width / 2) - ((width / 2) * Math.tan((90 - direction[1]) * Math.PI * 2 / 360) - height / 2) * Math.sin(2 * (90 - direction[1]) * Math.PI * 2 / 360) / 2; y2 = Math.tan((90 - direction[1]) * Math.PI * 2 / 360) * x1; x2 = -x1; y1 = -y2; } else if (direction[1] > -180 && direction[1] < -90) { x1 = -(width / 2) + ((width / 2) * Math.tan((90 - direction[1]) * Math.PI * 2 / 360) - height / 2) * Math.sin(2 * (90 - direction[1]) * Math.PI * 2 / 360) / 2; y2 = Math.tan((90 - direction[1]) * Math.PI * 2 / 360) * x1; x2 = -x1; y1 = -y2; } else if (direction[1] > 90 && direction[1] < 180) { x1 = (width / 2) + (-(width / 2) * Math.tan((90 - direction[1]) * Math.PI * 2 / 360) - height / 2) * Math.sin(2 * (90 - direction[1]) * Math.PI * 2 / 360) / 2; y2 = Math.tan((90 - direction[1]) * Math.PI * 2 / 360) * x1; x2 = -x1; y1 = -y2; } else { x1 = -(width / 2) - (-(width / 2) * Math.tan((90 - direction[1]) * Math.PI * 2 / 360) - height / 2) * Math.sin(2 * (90 - direction[1]) * Math.PI * 2 / 360) / 2; y2 = Math.tan((90 - direction[1]) * Math.PI * 2 / 360) * x1; x2 = -x1; y1 = -y2; } coordinate = [x1, y1, x2, y2]; break; } return coordinate; } function linearEffect(width, height, bg, ctx) { const param = analizeLinear(bg, width, height); const grd = ctx.createLinearGradient(param[0], param[1], param[2], param[3]); const content = bg.match(/linear-gradient\((.+)\)/)[1]; const colorPer = analizeGrad(content.substring(content.indexOf(',') + 1)); for (let i = 0; i < colorPer.colors.length; i++) { grd.addColorStop(colorPer.percents[i], colorPer.colors[i]); } ctx.fillStyle = grd //ctx.fillRect(-(width / 2), -(height / 2), width, height); } module.exports = { api } })();