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Given a randomly distributed set of keys, with each key mapped to a set of values, how would you transform it into multiple trees?

Example Data Set

  • NB2 => {NC2 ND2}
  • ND1 => {NG1 NH1}
  • NA1 => {NB1}
  • NB1 => {NC1 ND1 NE1}
  • NA2 => {NB2}
  • NC1 => {NF1}
  • NE1 => {NI1 NJ1 NK1}

Resulting Tree for NA1

`-- NB1
    |-- NC1
    |   `-- NF1
    |-- ND1
    |   |-- NG1
    |   `-- NH1
    `-- NE1
        |-- NI1
        |-- NJ1
        `-- NK1

Resulting Tree for NA2

`-- NB2
    |-- NC2
    `-- ND2
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It depends on what operations you need to perform on the trees. What do you need to do with the trees? –  Doug Currie Aug 9 '09 at 0:07
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2 Answers

up vote 3 down vote accepted

I'm not aware of any library methods that will do this transformation. Here's how I'd do it. It's pretty straightforward, IMO.

public class Tree {
    public Tree(String key) {
        // ...
    public void addChild(Tree child) {
        // ...

public Set<Tree> transform(Map<String, List<String>> input) {
    // Potential tree roots.  We start with all LHS keys as potential roots,
    // and eliminate them when we see their keys on the RHS.
    Set<String> roots = new HashSet<String>(input.keySet());

    // This map associates keys with the tree nodes that we create for them
    Map<String, Tree> map = new HashMap<String, Tree>();

    for (Map.Entry<String, List<String>> entry : input.entrySet()) {
        String key = entry.getKey();
        List<String> childKeys = entry.getValue();
        Tree tree = map.get(key);
        if (tree == null) {
            tree = new Tree(key);
            map.put(key, tree);
        for (String childKey : childKeys) {
            Tree child = map.get(childKey);
            if (child == null) {
                child = new Tree(childKey);
                map.put(childKey, child);
    Set<Tree> res = new HashSet<Tree>(roots.size());
    for (String key : roots) {
    return res;

EDIT: Note this algorithm will "work" if the input represents a set of DAGs (Directed Acyclic Graphs). However, I've just realized that the resulting a set of trees will share TreeNode instances for any common subtrees in the input data.

Beware that I haven't debugged this code :-)

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Beautiful. Thank you. It works perfectly. –  Dave Jarvis Aug 9 '09 at 21:17
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When you talk about transforming them into a set of trees, are you talking about the method of representing them in memory?

Or perhaps the algorithm by which we would walk your set of keys and values and put them into that in-memory representation?

Or are you talking about a graphical representation?

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In that case, Stephen C's solution is, as he says, pretty straight-forward (so I'm voting his answer up - and by the way, it works once the methods for Tree are added). Incidentally, you didn't say how you wanted cycles handled. Stephen's solution silently omits cycles, but it would be a simple matter to throw an exception, if that were required. –  CPerkins Aug 9 '09 at 17:25
@Thangalin: I've updated my answer to say what the DAG acronym stands for. Basically a DAG is a tree where subnodes may be shared, but where there are no cycles (loops). –  Stephen C Aug 9 '09 at 21:23
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