<link href="//netdna.bootstrapcdn.com/bootstrap/3.0.1/css/bootstrap.min.css" rel="stylesheet" id="bootstrap-css"> <script src="//netdna.bootstrapcdn.com/bootstrap/3.0.1/js/bootstrap.min.js"></script> <script src="//code.jquery.com/jquery-1.11.1.min.js"></script> <!------ Include the above in your HEAD tag ----------> <canvas id="canvas" style="position:absolute; top:0; left:0;"></canvas> <div id="buffer" style="display:none;"> </div>

* {margin:0;} body {background:#000000;}

var NUM_PARTICLES = ( ( ROWS = 100 ) * ( COLS = 300 ) ), THICKNESS = Math.pow( 80, 2 ), SPACING = 3, MARGIN = 100, COLOR = 220, DRAG = 0.95, EASE = 0.25, /* used for sine approximation, but Math.sin in Chrome is still fast enough :)http://jsperf.com/math-sin-vs-sine-approximation B = 4 / Math.PI, C = -4 / Math.pow( Math.PI, 2 ), P = 0.225, */ container, particle, canvas, mouse, stats, list, ctx, tog, man, dx, dy, mx, my, d, t, f, a, b, i, n, w, h, p, s, r, c ; particle = { vx: 0, vy: 0, x: 0, y: 0 }; function init() { container = document.getElementById( 'container' ); canvas = document.createElement( 'canvas' ); ctx = canvas.getContext( '2d' ); man = false; tog = true; list = []; w = canvas.width = COLS * SPACING + MARGIN * 2; h = canvas.height = ROWS * SPACING + MARGIN * 2; container.style.marginLeft = Math.round( w * -0.5 ) + 'px'; container.style.marginTop = Math.round( h * -0.5 ) + 'px'; for ( i = 0; i < NUM_PARTICLES; i++ ) { p = Object.create( particle ); p.x = p.ox = MARGIN + SPACING * ( i % COLS ); p.y = p.oy = MARGIN + SPACING * Math.floor( i / COLS ); list[i] = p; } container.addEventListener( 'mousemove', function(e) { bounds = container.getBoundingClientRect(); mx = e.clientX - bounds.left; my = e.clientY - bounds.top; man = true; }); if ( typeof Stats === 'function' ) { document.body.appendChild( ( stats = new Stats() ).domElement ); } container.appendChild( canvas ); } function step() { if ( stats ) stats.begin(); if ( tog = !tog ) { if ( !man ) { t = +new Date() * 0.001; mx = w * 0.5 + ( Math.cos( t * 2.1 ) * Math.cos( t * 0.9 ) * w * 0.45 ); my = h * 0.5 + ( Math.sin( t * 3.2 ) * Math.tan( Math.sin( t * 0.8 ) ) * h * 0.45 ); } for ( i = 0; i < NUM_PARTICLES; i++ ) { p = list[i]; d = ( dx = mx - p.x ) * dx + ( dy = my - p.y ) * dy; f = -THICKNESS / d; if ( d < THICKNESS ) { t = Math.atan2( dy, dx ); p.vx += f * Math.cos(t); p.vy += f * Math.sin(t); } p.x += ( p.vx *= DRAG ) + (p.ox - p.x) * EASE; p.y += ( p.vy *= DRAG ) + (p.oy - p.y) * EASE; } } else { b = ( a = ctx.createImageData( w, h ) ).data; for ( i = 0; i < NUM_PARTICLES; i++ ) { p = list[i]; b[n = ( ~~p.x + ( ~~p.y * w ) ) * 4] = b[n+1] = b[n+2] = COLOR, b[n+3] = 255; } ctx.putImageData( a, 0, 0 ); } if ( stats ) stats.end(); requestAnimationFrame( step ); } init(); step();