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If I have a grid-like graph and a set of nodes like [A,B,J,K].

Grid Graph:


Note: diagonals not considered neighbours

What is the best way to check if those nodes are all adjacent AND form a cluster?

In the example above, [A,B] are adjacent and [J,K] are adjacent but as a whole, the set does not form a cluster. If 'F' was added to the set to form [A,B,F,J,K], then I would consider it a cluster.

Updated: I already have a function that checks if two nodes are adjacent boolean isAdjacent(Node a, Node b). Just need to expand on it to check for the cluster.

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What do you mean by "cluster?" –  templatetypedef Jul 9 '12 at 21:25
By cluster, I mean a group of nodes that have a PATH from one node in the cluster to every other node in the cluster. –  Steve C Jul 9 '12 at 21:29

1 Answer 1

up vote 2 down vote accepted

Let your original graph be G = (V,E) and SET the desired set of node ( SET <= V )

Create a graph G' = (V',E') where V' = SET and E' = { (u,v) | (u,v) is in E and u,v is in SET }

If the graph G' is connected you have a cluster of all elements.
The maximal cluster is the maximal connected component in G'.

finding the maximal connected component can be done with something like flood fill.

(Note, using the flood fill in the first place with a restriction, can modulate the graph creation of G' without the need to actually build it).

pseudo code, using BFS to find clusters:

int maximalCluster(E,SET): //SET is the set of desired nodes, E is the edges in G.
    roots <- new map<node,interger>
    for each node n in SET: 
       //run a BFS for each root, 
       //and count the total number of elements reachable from it
       queue <- { n } 
       while (queue is not empty):
           curr <- queue.takeFirst()
           for each edge (curr,u) in E:
              if (u is in SET):
                  roots.put(roots.get(n) + 1)
    return max { roots.get(v) | for each  v in roots.keys } 

Though the pseudo code above doesn't generate G', it simulates it by checking only edges that their nodes are in SET.

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I eventually did a modified version of BFS to mark the visited nodes. If there were any nodes left unvisited, then they were on an unreachable cluster. BFS was what I needed. Thanks. –  Steve C Jul 9 '12 at 23:38

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