Java: how to represent graphs?

I'm implementing some algorithms to teach myself about graphs and how to work with them. What would you recommend is the best way to do that in Java? I was thinking something like this:

``````public class Vertex {

private ArrayList<Vertex> outnodes; //Adjacency list. if I wanted to support edge weight, this would be a hash map.

//methods to manipulate outnodes
}

public class Graph {
private ArrayList<Vertex> nodes;
//algorithms on graphs
}
``````

But I basically just made this up. Is there a better way?

Also, I want it to be able to support variations on vanilla graphs like digraphs, weighted edges, multigraphs, etc.

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class Graph { private List> vertices;

``````private static class Vertex<E> {
E elem;
List<Vertex<E>> neighbors;
}
``````

}

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Adjacency List implementation of Graph is appropriate for solving most of the graph related problems.

Java implementation of the same is here on my blog.

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Why not keep things simple and use an adjacency matrix or an adjacency list?

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Even at the time of this question, over 3 years ago, Sage (which is completely free) existed and was pretty good at graph theory. But, in 2012 it is about the best graph theory tool there is. Thus, Sage already has a huge amount of graph theory material built in, including other free and open source stuff that is out there. So, simply messing around with various things to learn more is easy as no programming is required.

And, if you are interested in the programming part as well, first Sage is open source so you can see any code that already exists. And, second, you can re-program any function you want if you really want to practice, or you can be the first to program something that does not already exist. In the latter case, you can even submit that new functionality and make Sage better for all other users.

At this time, this answer may not be that useful to the OP (since it has been 3 years), but hopefully it is useful to any one else who sees this question in the future.

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I'd recommend graphviz highly when you get to the point where you want to render your graphs.

And its companions: take a look at Laszlo Szathmary's GraphViz class, along with notugly.xls.

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graphviz is legit. Do you recommend anything to make it easier to go from a Java data structure to a graphviz.dot file, and possibly generate the image directly from Java? –  Nick Heiner Nov 15 '09 at 17:51
Yes, take a look at Laszlo Szathmary's GraphViz class :vclcomponents.com/Java/Scripts_and_Programs/Miscellaneous/…, along with notugly.xls: hokstad.com/making-graphviz-output-pretty-with-xsl.html –  duffymo Nov 15 '09 at 18:41
Laszlo's is good, but it gives me a null pointer exception when I run the demo. Not very encouraging. –  Nick Heiner Nov 16 '09 at 20:28
I've got a code sample that works fine. You're doing something wrong. –  duffymo Nov 16 '09 at 23:12
Thanks for suggesting GraphViz :) I just want to remark that the project's official home page is here: loria.fr/~szathmar/off/projects/java/GraphVizAPI/index.php . –  Jabba Mar 14 '11 at 2:07

Time ago I had the same problem and did my own implementation. What I suggest you is to implement another class: Edge. Then, a Vertex will have a List of Edge.

``````public class Edge {
private Node a, b;
private directionEnum direction;     // AB, BA or both
private int weight;
...
}
``````

It worked for me. But maybe is so simple. There is this library that maybe can help you if you look into its code: http://jgrapht.sourceforge.net/

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If you need weighted edges and multigraphs, you might want to add another class Edge.

I would also recommend using generics to allow specifying which sub-class of Vertex and Edge are currently used. For example:

``````public class Graph<V extends Vertex> {
List<V> vertices;
...
}
``````

When it comes to implementing graph algorithms, you could also define interfaces for your graph classes on which the algorithms can operate, so that you can play around with different implementations of the actual graph representation. For example, simple graphs that are well-connected might be better implemented by an adjacency matrix, sparser graphs might be represented by adjacency lists - it all depends...

BTW Building such structures efficiently can be quite challenging, so maybe you could give us some more details on what kind of job you would want to use them for? For more complex tasks I would suggest you have a look at the various Java graph libraries, to get some inspiration.

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I don't really have any details... my self-teaching goals are pretty open ended. I just want to set up some graphs, find some minimum spanning trees, do some output to graphviz, calculate topological sort, etc. –  Nick Heiner Nov 15 '09 at 14:25
and can you clarify how you'd use generics? –  Nick Heiner Nov 15 '09 at 14:25
Ah, thanks for the clarification. If it's just for playing around I think adjacency lists will pretty much do the job... it does not seem to performance-intensive. Hope I clarified the generics part. –  Roland Ewald Nov 15 '09 at 14:32

Take a look at the http://jung.sourceforge.net/doc/index.html graph library. You can still practice implementing your own algorithms (maybe breadth-first or depth-first search to start), but you don't need to worry about creating the graph structure.

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