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I'm trying to use the excellent JGraphT library to write a Scrabble program in Java as practice with directed acyclic graphs and Java.

So, my edges are going to be letters and the vertices bitsets the size of the alphabet. Essentially, you traverse the graph letter by letter and check the bitset you're at to see what letters form a word if appended to the arc of letters you've followed from the root node.

I get that, but what worries me is this from the JGraphT Javadoc:

This method creates the new edge e using this graph's EdgeFactory. For the new edge to be added e must not be equal to any other edge the graph (even if the graph allows edge-multiplicity). More formally, the graph must not contain any edge e2 such that e2.equals(e). If such e2 is found then the newly created edge e is abandoned, the method leaves this graph unchanged returns null.

My edges and nodes will never be unique except in the sense that references don't match. So, my question is what would a Java programmer do here?

  • Create a Letter class and a BitSet class and leave the equals() to default which will always be false since the references won't match? But, then how do I handle all those other methods that depend on .equals() being correct like .contains()?

  • Create Edge and Node classes as thin wrappers around the real Letter and BitSet classes and put the always false .equals() in Edge;Node and the real one in Letter;Bitset?

    public class Edge {
      private Letter letter;
      //getter and setter coming
      public boolean equals (Object b) {
        return false;
      }
    }
    
  • Something else?
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Well you could actually implement equals reasonably for both classes. But since the only thing you want is to make sure that every object is only equals to itself and not any other one the default equals implementation will do just that. So just don't overwrite it –  Voo Jun 26 '11 at 18:15

1 Answer 1

up vote 1 down vote accepted

The vertices already have an identity defined by the bits set in the BitSet, so you can use the BitSet itself for the vertices.

An edge should normally carry information about the vertices it starts and ends in, so I suggest an Edge class which contains the start BitSet, the end BitSet, and the edge Letter.

If no two edges exist between two vertices (i.e. edge-multiplicity is disallowed), then you can define equals and hashcode in the Edge class as testing for equality of start and end, ignoring the letter. If the letter of an edge is important because you might have multiple edges with equal start and end, you need a proper equality of letters between nodes.

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This makes a lot of sense - I only store the minimal number of vertices during creation of the DAG, but there will be multiple edges between the same vertices, so I need the non-simple directed graph which doesn't forbid loops, but this is manageable. I then point the edge to its start and end vertices after they get added to the graph. –  rndapology Jun 27 '11 at 1:45

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