window.onload = function () { /* Get the height and width of full document. To avoid browser * incompatibility issues, choose the maximum of all height/width values. * * Method from http://stackoverflow.com/a/1147768 */ function getDocumentDimensions() { var body = document.body, html = document.documentElement; var height = Math.max(body.scrollHeight, body.offsetHeight, html.clientHeight, html.scrollHeight, html.offsetHeight); var width = Math.max(body.scrollWidth, body.offsetWidth, html.clientWidth, html.scrollWidth, html.offsetWidth); return {"height": height, "width": width}; } /* Specifies what will be added to the red, green, and blue values of the * color at each interval. */ function pickGradient() { var directions = [-1, 0, 1]; var magnitudes = [1, 2, 3]; return {"r": directions[Math.floor(Math.random() * 3)] * magnitudes[Math.floor(Math.random() * 3)], "g": directions[Math.floor(Math.random() * 3)] * magnitudes[Math.floor(Math.random() * 3)], "b": directions[Math.floor(Math.random() * 3)] * magnitudes[Math.floor(Math.random() * 3)]}; } /* Alters the given color by the given gradient and returns both. If the red, green, or blue value of the color is at 0 or 255 and the gradient for that value is not zero, then the gradient for that value will change signs. */ function nextColor(color, gradient) { var values = ["r", "g", "b"]; // Check if color at end of range and reverse gradient direction if so for (var i = 0; i < 3; i++) { var colorValue = color[values[i]]; var gradientValue = gradient[values[i]]; if ((colorValue === 255 && gradientValue > 0) || (colorValue === 0 && gradientValue < 0)) { gradient[values[i]] = gradientValue * -1; } } // Modify the color according to the gradient for (i = 0; i < 3; i++) { color[values[i]] = color[values[i]] + gradient[values[i]]; } return {"color": color, "gradient": gradient}; } /* Choose a random RGB color to begin the color gradient with */ function pickRandomColor() { return {"r": Math.floor(Math.random() * (255 + 1)), "g": Math.floor(Math.random() * (255 + 1)), "b": Math.floor(Math.random() * (255 + 1))}; } /* Most of this funtion is provided by Maissan Inc. in their tutorial: http://www.maissan.net/articles/simulating-vines */ function drawTendrils(context, x, y, interations, sort, prune, prune_to) { // Set stroke colour context.lineWidth = 0.5; var color = pickRandomColor(); context.strokeStyle = "rgb(" + color.r + "," + color.g + "," + color.b + ")"; // Create initial branch var branches = []; branches.push({ points:new Array({x:x, y:y}, {x:x, y:y}, {x:x, y:y}, {x:x, y:y}), angle:0, //distanceToLattice:1000 }); // Start drawing splines at t=0 var t = 0; // Drawing interval var interval = setInterval(function() { var gradient = pickGradient(); // Set stroke color var newColor = nextColor(color, gradient); color = newColor.color; gradient = newColor.gradient; context.strokeStyle = "rgb(" + color.r + "," + color.g + "," + color.b + ")"; // Draw branches for (var i in branches) { // Draw spline segment var ax = (-branches[i].points[0].x + 3*branches[i].points[1].x - 3*branches[i].points[2].x + branches[i].points[3].x) / 6; var ay = (-branches[i].points[0].y + 3*branches[i].points[1].y - 3*branches[i].points[2].y + branches[i].points[3].y) / 6; var bx = (branches[i].points[0].x - 2*branches[i].points[1].x + branches[i].points[2].x) / 2; var by = (branches[i].points[0].y - 2*branches[i].points[1].y + branches[i].points[2].y) / 2; var cx = (-branches[i].points[0].x + branches[i].points[2].x) / 2; var cy = (-branches[i].points[0].y + branches[i].points[2].y) / 2; var dx = (branches[i].points[0].x + 4*branches[i].points[1].x + branches[i].points[2].x) / 6; var dy = (branches[i].points[0].y + 4*branches[i].points[1].y + branches[i].points[2].y) / 6; context.beginPath(); context.moveTo( ax*Math.pow(t, 3) + bx*Math.pow(t, 2) + cx*t + dx, ay*Math.pow(t, 3) + by*Math.pow(t, 2) + cy*t + dy ); context.lineTo( ax*Math.pow(t+0.1, 3) + bx*Math.pow(t+0.1, 2) + cx*(t+0.1) + dx, ay*Math.pow(t+0.1, 3) + by*Math.pow(t+0.1, 2) + cy*(t+0.1) + dy ); context.stroke(); context.closePath(); } // Advance t t += 0.1; // When finished drawing splines, create a new set of branches if (t >= 1) { // Create array to store next iteration of branchces var new_branches = []; // Iterate over each branch for (var j in branches) { // Replace with 2 new branches for (var k = 0; k < 2; k++) { // Generate random deviation from previous angle var angle = branches[j].angle - (Math.random() * 180 - 90); // Determine closest lattice point //var distanceToLattice = 100000 //for (var l in lattice) { //var result = distancePointToLine(branches[j].points[3], lattice[l]); //if (result < distanceToLattice) distanceToLattice = result; //} // Generate random length var length = Math.random() * 15 + 4; // Calculate new point var x2 = branches[j].points[3].x + Math.sin(Math.PI * angle / 180) * length; var y2 = branches[j].points[3].y - Math.cos(Math.PI * angle / 180) * length; // Add to new branch array new_branches.push({ points:new Array( branches[j].points[1], branches[j].points[2], branches[j].points[3], {x:x2, y:y2} ), angle:angle, //distanceToLattice:distanceToLattice }); } } // Sort branches by distance to lattice //new_branches.sort(function(a, b) { //return a.distanceToLattice - b.distanceToLattice; //}); // If over 10 branches, prune the branches if (prune) { if (sort) { while (new_branches.length > 20) new_branches.pop(); } else { while (new_branches.length > prune_to) { new_branches.splice(Math.floor(Math.random() * new_branches.length), 1); } } } // Replace old branch array with new branches = new_branches; // Restart drawing splines at t=0 t = 0; } // Count interations interations--; if (interations < 0) clearInterval(interval); }, 16.67); // Return interval return interval; } function draw() { // Initialize canvas console.log("draw"); var canvas = document.getElementById("magic"); var dimensions = getDocumentDimensions(); console.log(dimensions.height); console.log(dimensions.width); canvas.height = dimensions.height; canvas.width = dimensions.width; // Check for canvas support and get context if (canvas.getContext){ var context = canvas.getContext("2d"); // Cast magic spells var metaInterval = setInterval(function () { // resize canvas if document size changed dimensions = getDocumentDimensions(); if ((dimensions.height !== canvas.height) || (dimensions.width !== canvas.width)) { console.log(dimensions.height); console.log(dimensions.width); canvas.height = dimensions.height; canvas.width = dimensions.width; } // Find random position var x = Math.floor(Math.random() * (canvas.width + 1)); var y = Math.floor(Math.random() * (canvas.height + 1)); var duration = Math.floor(Math.random() * (600 - 50 + 1)) + 50; var interval = drawTendrils(context, x, y, duration, false, true, 30); }, 3000); } } draw(); };