本文实例为大家分享了canvas实现圆形流水动画的具体代码,供大家参考,具体内容如下 前言 特效展示 效果展示 代码展示 index.html !DOCTYPE htmlhtml lang="en"head meta charset="UTF-8" meta http-equiv
本文实例为大家分享了canvas实现圆形流水动画的具体代码,供大家参考,具体内容如下
前言
特效展示
效果展示
代码展示
index.html
<!DOCTYPE html> <html lang="en"> <head> <meta charset="UTF-8"> <meta http-equiv="X-UA-Compatible" content="IE=edge"> <meta name="viewport" content="width=device-width, initial-scale=1.0"> <title>Document</title> <!-- <link rel="stylesheet" href="style.css" > --> </head> <body> <script src="main.js"></script> </body> </html>
main.js
/* * Noel Delgado - @pixelia_me */ (function() { var ctx, w, h, cx, cy, PI, PI_HALF, cos, sin, random, lineWidth, C, rings, ringsLength, data; ctx = document.createElement('canvas').getContext('2d'); w = 600; h = 600; cx = (w / 2); cy = (h / 2); rings = []; ringsLength = 0; PI = Math.PI; PI_HALF = PI / 2; cos = Math.cos; sin = Math.sin; random = Math.random; lineWidth = 0.2; C = ["#ABF8FF", "#E76B76", "#1D2439", "#4F3762", "#67F9FF", "#0C0F18"]; data = [ /* ring {t:total_particles, r:radius, d:distance, s:speed, c:color} */ [ {t:80, r:(cx-10), d:40, s:30, c:C[1]}, {t:60, r:(cx-20), d:40, s:80, c:C[2]}, {t:20, r:(cx-30), d:20, s:80, c:C[2]}, ], [ {t:80, r:(cx-80), d:40, s:40, c:C[4]}, {t:80, r:(cx-90), d:20, s:40, c:C[4]}, {t:20, r:(cx-100), d:20, s:40, c:C[2]}, {t:40, r:(cx-110), d:20, s:40, c:C[2]}, ], [ {t:60, r:(cx-160), d:40, s:20, c:C[2]}, {t:20, r:(cx-170), d:30, s:60, c:C[2]}, {t:40, r:(cx-180), d:40, s:60, c:C[2]}, ], [ {t:40, r:(cx-230), d:40, s:20, c:C[5]}, {t:20, r:(cx-240), d:20, s:10, c:C[5]}, ], [ {t:10, r:(cx-290), d:10, s:10, c:C[4]} ] ]; /* */ ctx.canvas.width = w; ctx.canvas.height = h; document.body.appendChild(ctx.canvas); data.forEach(function(group) { var ring = []; group.forEach(function(orbit, i) { var total_particles, index; total_particles = orbit.t; index = 0; for (; index < total_particles; index++) { var radius, distance, speed, color, opacity; radius = orbit.r; distance = orbit.d; speed = random() / orbit.s; speed = i % 2 ? speed : speed * -1; color = orbit.c; opacity = orbit.o; ring.push(new P(radius, distance, speed, color, opacity)); radius = distance = speed = color = opacity = null; } }); rings.push(ring); }); ringsLength = rings.length; /* */ function P(radius, distance, speed, color) { this.a = PI / 180; this.d = distance; this.d2 = (this.d * this.d); this.x = cx + radius * cos(this.a); this.y = cy + radius * sin(this.a); this.c = color; this.r = (random() * 8); this.R = random() > 0.5 ? radius : radius - 5; this.s = speed; this.pos = random() * 360; } function draw() { var i, j, k, xd, yd, d, ring, ringLength, ringLength2, particle, p2; ctx.beginPath(); ctx.globalCompositeOperation = "source-over"; ctx.rect(0, 0 , w, h); ctx.fillStyle = "#151a28"; ctx.fill(); ctx.closePath(); for (i = 0; i < ringsLength; i++) { ring = rings[i]; ringLength = ring.length; ringLength2 = ringLength - 100; for (j = 0; j < ringLength; j++) { particle = ring[j]; particle.x = cx + particle.R * sin(PI_HALF + particle.pos); particle.y = cy + particle.R * cos(PI_HALF + particle.pos); particle.pos += particle.s; ctx.beginPath(); ctx.globalAlpha = 0.12; ctx.globalCompositeOperation = "lighter"; ctx.fillStyle = particle.c; ctx.arc(particle.x, particle.y, particle.r, PI * 2, false); ctx.fill(); ctx.closePath(); for (k = 0; k < ringLength2; k++) { p2 = ring[k]; yd = p2.y - particle.y; xd = p2.x - particle.x; d = ((xd * xd) + (yd * yd)); if (d < particle.d2) { ctx.beginPath(); ctx.globalAlpha = 1; ctx.lineWidth = lineWidth; ctx.moveTo(particle.x, particle.y); ctx.lineTo(p2.x, p2.y); ctx.strokeStyle = p2.c; ctx.stroke(); ctx.closePath(); } } } } } function loop() { draw(); requestAnimationFrame(loop); } loop(); })();
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持自由互联。