springy/demo.html

<html>
<body>
<script src="http://ajax.googleapis.com/ajax/libs/jquery/1.3.2/jquery.min.js"></script>
<script src="raphael-min.js"></script>
<script src="springy.js"></script>
<script>

var graph = new Graph();


// generate a random graph

var n = [];
for (var i=0; i<15; i += 1)
{
	n[i] = graph.newNode({label: ""+i});
}

for (i=0; i<20; i += 1)
{
	var i1 = Math.floor(Math.random() * n.length);
	var i2 = i1;

	while (i1 === i2) {
		i2 = Math.floor(Math.random() * n.length);
	}

	var n1 = n[i1];
	var n2 = n[i2];

	var e = graph.newEdge(n1, n2);

	var colors = ['#00A0B0', '#6A4A3C', '#CC333F', '#EB6841', '#EDC951', '#7DBE3C'];
	e.data.stroke = colors[Math.floor(Math.random() * colors.length)];
}


// -----------

var width = 800;
var height = 600;
var zoom = 40.0;

// convert to/from screen coordinates
toScreen = function(p) {
	return new Vector(p.x * zoom + width/2.0, p.y * zoom + height/2.0);
};

fromScreen = function(s) {
	return new Vector((s.x - width/2.0) / zoom, (s.y - height/2.0) / zoom);
};

var paper = Raphael(10, 10, width, height);

var layout = new Layout.ForceDirected(graph, 500.0, 300.0, 0.5);

var boxWidth = 30;
var boxHeight = 20;

var renderer = new Renderer(1, layout,
	function clear()
	{
		paper.clear();
		var r = paper.rect(0,0,width-1,height-1);
		r.attr({"fill": "#FFFFFF", "stroke": "none"});
	},
	function drawEdge(edge, p1, p2)
	{
		var x1 = toScreen(p1).x;
		var y1 = toScreen(p1).y;
		var x2 = toScreen(p2).x;
		var y2 = toScreen(p2).y;

		var direction = new Vector(x2-x1, y2-y1);
		var normal = direction.normal().normalise();

		var from = graph.getEdges(edge.source, edge.target);
		var to = graph.getEdges(edge.target, edge.source);

		var total = from.length + to.length;
		var n = from.indexOf(edge);

		var spacing = 6.0;
		var totalWidth = total * spacing;

		// Figure out how far off centre the line should be drawn
		var offset = normal.multiply(-((total - 1) * spacing)/2.0 + (n * spacing));

		var stroke = typeof(edge.data.stroke) !== 'undefined' ? edge.data.stroke : "#000000";

		var s1 = toScreen(p1).add(offset);
		var s2 = toScreen(p2).add(offset);

		var intersection = intersect_line_box(s1, s2, {x: x2-boxWidth/2.0, y: y2-boxHeight/2.0}, boxWidth, boxHeight);

		var c2 = paper.path(["M", s1.x, s1.y, "L", intersection.x, intersection.y]);
		c2.attr({stroke: stroke, "stroke-width": 2});

		var arrow = paper.path(["M", -7, 4, "L", 0, 0, "L", 7, 0, "L", 0, 0, "L", -7, -4, "L", -5, 0, "z"]);
		arrow.rotate(Math.atan2(y2 - y1, x2 - x1) * (180.0 / Math.PI), 0, 0);
		arrow.translate(intersection.x, intersection.y);
		arrow.attr({fill: stroke, stroke: "none"});

	},
	function drawNode(node, p)
	{
		var fill = typeof(node.data.fill) !== 'undefined' ? node.data.fill : "#FFFFFF";

		var s = toScreen(p);
		var rect = paper.rect(s.x - boxWidth/2.0, s.y - boxHeight/2.0, boxWidth, boxHeight, 4);
		rect.attr({fill: fill, "stroke-width": 2});

		if (typeof(node.data.label) !== 'undefined')
		{
			var text = paper.text(s.x, s.y, node.data.label);
			text.attr({
				"font-family": "Helvetica Neue",
				"font-size": "12px",
				"font-weight": "bold",
			});

		}
	}
);

renderer.start();


// half-assed drag and drop
var selected = null;
jQuery('svg').mousedown(function(e){
	var pos = jQuery(this).position();
	var p = fromScreen({x: e.pageX - pos.left, y: e.pageY - pos.top});
	selected = layout.nearest(p);

	selected.oldm = selected.point.m;
	selected.olddata = selected.node.data;
	selected.node.data = jQuery.extend(true, {}, selected.node.data); // deep copy

	selected.point.m = 1000.0;
	selected.node.data.fill = '#EEEEEE';

});

jQuery('svg').mousemove(function(e){
	if (selected !== null)
	{
		var pos = jQuery(this).position();
		var p = fromScreen({x: e.pageX - pos.left, y: e.pageY - pos.top});

		selected.point.p.x = p.x;
		selected.point.p.y = p.y;
		renderer.start();
	}
});

jQuery(window).bind('mouseup',function(e){
	if (selected !== null)
	{
		selected.node.data = selected.olddata;
	}
	selected = null;
});


// helpers for figuring out where to draw arrows
function intersect_line_line(p1, p2, p3, p4)
{
	var denom = ((p4.y - p3.y)*(p2.x - p1.x) - (p4.x - p3.x)*(p2.y - p1.y));

	// lines are parallel
	if (denom === 0) {
		return false;
	}

	var ua = ((p4.x - p3.x)*(p1.y - p3.y) - (p4.y - p3.y)*(p1.x - p3.x)) / denom;
	var ub = ((p2.x - p1.x)*(p1.y - p3.y) - (p2.y - p1.y)*(p1.x - p3.x)) / denom;

	if (ua < 0 || ua > 1 || ub < 0 || ub > 1) {
		return false;
	}

	return {
		x: p1.x + ua * (p2.x - p1.x),
		y: p1.y + ua * (p2.y - p1.y)
	};
}

function intersect_line_box(p1, p2, p3, w, h)
{
	var tl = {x: p3.x, y: p3.y};
	var tr = {x: p3.x + w, y: p3.y};
	var bl = {x: p3.x, y: p3.y + h};
	var br = {x: p3.x + w, y: p3.y + h};

	var result;
	if (result = intersect_line_line(p1, p2, tl, tr)) { return result; } // top
	if (result = intersect_line_line(p1, p2, tr, br)) { return result; } // right
	if (result = intersect_line_line(p1, p2, br, bl)) { return result; } // bottom
	if (result = intersect_line_line(p1, p2, bl, tl)) { return result; } // left

	return false;
}


</script>
</body>
</html>