So i have a page already which draws a force directed graph, like the one shown here.

And that works fine. I'm using the JS from here, with a few tweaks to spread out the nodes slightly nicer.

These are more or less the only differences:

d3.json("force.json", function(json) {
  var force = d3.layout.force()
      .size([w, h])

Where reducing the link strength seems to make the links more like springs, so it becomes similar to the Fruchterman & Reingold technique often used. This works reasonably well, but only for fairly small graphs. With larger graphs the number of crossings just goes up - as one would expect, but the solution it lands on is normally far from optimal. I'm not looking for a method to get the optimal solution, I know that's very difficult. I would just like it to have some crude addition that tries to force the lines apart as well as the nodes.

Is there a way to add a repulsion between in links, as well as between the nodes? I'm not familiar with the way D3 force works, and i can't seem to find anything that says this is possible...

  • Unfortunately not. I didn't go delving into the js though, as I'm not familiar with the language. I did try using an actual Fruchterman & Reingold technique, but the result still were not as good as if I moved the nodes about by hand.
    – will
    Oct 22, 2012 at 9:34
  • @pocketfullofcheese - I actually was using networkX (a python module) and matplotlib, but they have a D3.js example on their website that looks quite nice, that's why i tried it.
    – will
    Oct 22, 2012 at 11:51
  • Visualising large graphs is difficult... I know this does not solve the problem, but maybe you find my networkX port helpful: felix-kling.de/JSNetworkX. It uses d3 as well and lets you easily zoom in and out at parts of the graphs, which can make it easier to examine it. Oct 28, 2012 at 8:41
  • @FelixKling does this add any functionality to the two other than the zooming in and out? It's not that my graphs are big persay, more that they're quite highly connectd - They're somewhere in the region of 40 nodes
    – will
    Oct 28, 2012 at 10:55
  • @will: Well, it's supposed to be like networkX but in JavaScript, so it should make manipulating graphs and drawing them easy. You can also create directed graphs (if that's what you have). I was experimenting with an option that only draws the edges of a node when one hovers over it (because of exactly that reason, too many edges clutter the view), but it's not in the source yet. If you are interested in this, I can put it in or send you a specially built version. Oct 28, 2012 at 17:30

4 Answers 4


Unfortunately, the answer to your question does not exist.

There is no built-in mechanism in D3 that repels edges or minimizes edge crossings. You would think it wouldn't be that hard to implement a charge on an edge, but here we are.

Furthermore, there doesn't seem to be any mechanism anywhere that reduces edge crossings in general. I've looked through dozens of visualization libraries and layout algorithms, and none of them deal with reducing edge crossings on a generic undirected graph.

There are a number of algorithms that work well for planar graphs, or 2-level graphs, or other simplifications. dagre works well in theory for 2-level graphs, although the utter lack of documentation makes it almost impossible to work with.

Part of the reason for this is that laying out graphs is hard. In particular, minimizing edge crossings is NP-hard, so I suspect that most layout designers hit that problem, bang their head against the keyboard a few times, and give up.

If anyone does come up with a good library for this, please publish it for the rest of us :)

  • 2
    This is the conclusion i came to. Managers don't like the answer "Can you make this graph look bigger?" of "No. It really is a hard problem.". You have a piece of software that can simulate the phyiscs inside complicated machines, but you can't draw the output in a any pleasant way. Shame.
    – will
    Jul 1, 2016 at 8:59
  • on another note though, graphviz is now available under the epl license.
    – will
    Jul 1, 2016 at 9:03

Something that might be easier than trying to forcefully repel the edges is to wiggle the nodes around until the amount of crossing lines in the system is lower.


Start with the nodes with the least amount of connections and wiggle down.

If you try and use the edges as nodes I suspect you're just going to get the same spatial locking problems. The solution is in figuring out where there are edge intersections and if they can be resolved. You might find that resolving many of the edge crossings is not possible

A more lateral approach to the visualization is to animate it such that it only shows a subset of the nodes and connections at a time. Or to make the edges transparent until the user places mouse focus over a node, which point the associated edges become more visible.


I followed the Force Editor example and I saw that setting charge and linkDistance values solves the problem.



enter image description here

  • 2
    All changing the carge does is change the force that the points repel each other by. linkDistance jsut changes the ideal length of the poitns. This works fine in a graph like the example you give, but when you have a very highly connected one like i do, it does not work. I'll update the question on monday with some real example data to illustrate the problem. It's a chemistry and reaction data set, so al lthe points are linked to several other poitns via special reaction points.
    – will
    Aug 10, 2014 at 16:48
  • @will Notify me after you update the question. Maybe I can help. I use this library in an application. Aug 10, 2014 at 17:00
  • Yah, i looked at using it, but found that it basically wasn't the right tool for the job, the graphs i want to represent are simply too connected.
    – will
    Aug 10, 2014 at 17:06

I have 'solved' the problem with this:

nodes[0].x = width / 2;
nodes[0].y = 100;
nodes[0].fixed = true;
force.on("tick", function(e) {

    var kx = .4 * e.alpha, ky = 1.4 * e.alpha;
    links.forEach(function(d, i) {
      d.target.x += (d.source.x - d.target.x) * kx;
      d.target.y += (d.source.y + 80 - d.target.y) * ky;


It's not exactly what we wanted but better as before. Importend is, that you define a "root"-Node and fixed it.

nodes[0].fixed = true;

It look like more as a tree but so it is clearer.

  • This doesn't solve it for my problem. For your problem it may work, but i'm not sure it would have worked for mine, since my grapgh was very highly connected, while yours is a tree.
    – will
    Sep 13, 2017 at 9:17
  • 1
    The problem with your answer is that your graph could actually be layouted without any crossing edge! And even worse in your example there are several edges crossing each other.
    – Yoshi
    Jan 31, 2019 at 13:38

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