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Say I have objects A,B,C,D. They can contain references to one another, for example, A might reference B and C, and C might reference A. I want to create segments but dont want to create them twice, so I don't want segment A C and segment C A, just 1 of them. So I want to keep a list of created segments, ex: A C, and check if I already have an A C or C A and skip it if so.

Is there a data structure that can do this?


   //dont add
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what about the following segment: A B C would that also remove all 3 character permutations of it as well? Or just the segment in reverse? – Woot4Moo Oct 7 '12 at 17:18
@Woot4Moo Segments only have 2 nodes in this case, segment A B C is not possible, it would be Segment A B, and segment B C. – jmasterx Oct 7 '12 at 17:19
Ok I have something that could work posted below. – Woot4Moo Oct 7 '12 at 17:24

5 Answers 5

up vote 2 down vote accepted

you may introduce something like

class PairKey<T extends Comparable<T>> { 
  final T fst, snd;
  public PairKey(T a, T b) {
    if (a.compareTo(b) <=0 ) {
      fst = a;
      snd = b;
    } else {
      fst = b;
      snd = a;

  public int hashCode() {
    return a.hashCode() & 37 & b.hashCode();

  public boolean equals(Object other) {
    if (other == this) return true;
    if (!(other instanceOf PairKey)) return false;
    PairKey<T> obj = (PairKey<T>) other;
    return (obj.fst.equals(fst) && obj.snd.equals(snd));

then you may put edges into HashSet < PairKey < ? extends Comparable> > and then check if the given pair is already there.

You will need to make your vertexes comparable, so it will be possible to treat PairKey(A,B) equal to PairKey(B,A)

And then HashSet will do the rest for you, e.g you will be able to query

pairs.contains(new PairKey(A,B)); 

and if pairs contain either PairKey(A,B) or PairKey(B,A) - it will return true.

hashCode implementation might be slightly different, may be IDE will generate something more sophisticated.

Hope that helps.

share|improve this answer

I would use an object called Pair that would look something like this:

class Pair  
    Node start;  
    Node end;  

    public Pair(Node start, Node end)  

   public Pair reverse()  
       return new Pair(end,start);  

Now you can do something like this:

if(pairs.contains(currentPair) || pairs.contains(currentPair.reverse())  
}  else{  

As pointed out in the comments, you will need to implement equals and hashcode. However, doing the check in equals to make it match the reversal of the segment is a bad practice in a pure OO since. By implementing equals in the fashion, described within the comments, would bind Pair to your application only and remove the portability of it.

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and the down vote why? – Woot4Moo Oct 7 '12 at 17:25
Without implementing equals and hashCode, it wouldn't work. And why use a reverse method rather than implementing equals so that two pairs are equal if they contain the same nodes, whatever the order is? – JB Nizet Oct 7 '12 at 17:25
@JBNizet primarily because I am writing this from a mobile phone and it was something quick and dirty. – Woot4Moo Oct 7 '12 at 17:27
@JBNizet updated my response to include that,so other people don't miss it. – Woot4Moo Oct 7 '12 at 17:29
Your response was indeed dirty, hence the downvote. And OOP is all about encapsulating the appropriate behevior. It's not about making all the classes potentially reusable by not implementing the appropriate requirements. – JB Nizet Oct 7 '12 at 17:32

You can use a set of sets of objects.

Set<Set<MyObjectType>> segments = new HashSet<Set<MyObjectType>>();

Then you can add two-element sets representing pairs of MyObject. Since sets are unordered, if segments contains a set with A and B, attempting to add a set containing B and A will treat it as already present in segments.

Set<MyObjectType> segment = new HashSet<MyObjectType>();
segment.add(A); // A and B are instances of MyObjectType
segment = new HashSet<MyObjectType>();
System.out.println("Number of segments: " + segments.size()); // prints 1
share|improve this answer

Your problem is related with graph theory.

What you can try is to remove that internal list and create a Incidence Martrix, that all you objects share.

The final solution mostly depend of the task goal and available structure. So is hard to choose best solution for you problem with the description you have provided.

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Use java.util.Set/ java.util.HashSet and keep adding the references you find e.g.

   Set set1 = new HashSet();
   set1.add(A), set1.Add(C), set1.Add(C)

You can add this finding in an external set, as finalSet.add(set1)

  Set<Set> finalSet = new HashSet<Set>();

This will filter out the duplicates automatically and in the end, you will be left with A & C only.

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would throw an exception on the second Add(C) – Woot4Moo Oct 7 '12 at 17:23
HashSet.add() --Adds the specified element to this set if it is not already present. More formally, adds the specified element e to this set if this set contains no element e2 such that (e==null ? e2==null : e.equals(e2)). If this set already contains the element, the call leaves the set unchanged and returns false – Yogendra Singh Oct 7 '12 at 17:25
You first started by specifying the Set interface, one generally needs to abide by the contract specified in set. which is this: The stipulation above does not imply that sets must accept all elements; sets may refuse to add any particular element, including null, and throw an exception, as described in the specification for Collection.add. Individual set implementations should clearly document any restrictions on the elements that they may contain. – Woot4Moo Oct 7 '12 at 17:26
@Woot4Moo: just because a particular Set implementation could reject some element doesn't means that all implementations will. And since the set accepted A at the first call, it will obviously also accept it at the second call. You're just wrong. – JB Nizet Oct 7 '12 at 17:29
That is correct. I am referring specific implentation class HashSet, which should be fine as stated in the description for HashSet.add(). – Yogendra Singh Oct 7 '12 at 17:30

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