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I'm writing a function which generates all paths in a tree as xpath statements and storing them in a bag below is a naive (sorry this is long) and below that is my attempt to optimize it:

/**
 * Create the structural fingerprint of a tree. Defined as the multiset of
 * all paths and their multiplicities
 */
protected Multiset<String> createSF(AbstractTree<String> t,
		List<AbstractTree<String>> allSiblings) {
	/*
	 * difference between unordered and ordered trees is that the
	 * next-sibling axis must also be used
	 * 
	 * this means that each node's children are liable to be generated more
	 * than once and so are memo-ised and reused
	 */

	Multiset<String> res = new Multiset<String>();

	 // so, we return a set containing:
	 // 1. the node name itself, prepended by root symbol

	res.add("/" + t.getNodeName());
	List<AbstractTree<String>> children = t.getChildren();

	// all of the childrens' sets prepended by this one

	if (children != null) {

		for (AbstractTree<String> child : children) {

			Multiset<String> sub = createSF(child, children);

			for (String nextOne : sub) {
				if (nextOne.indexOf("//") == 0) {
					res.add(nextOne);
				} else {
					res.add("/" + nextOne);
					res.add("/" + t.getNodeName() + nextOne);
				}
			}
		}
	}

	// 2. all of the following siblings' sets, prepended by this one

	if (allSiblings != null) {

		 // node is neither original root nor leaf 
		 // first, find current node

		int currentNodePos = 0;
		int ptrPos = 0;

		for (AbstractTree<String> node : allSiblings) {
			if (node == t) {
				currentNodePos = ptrPos;
			}
			ptrPos++;
		}

		 // 3. then add all paths deriving from (all) following siblings 

		for (int i = currentNodePos + 1; i < allSiblings.size(); i++) {
			AbstractTree<String> sibling = allSiblings.get(i);

			Multiset<String> sub = createSF(sibling, allSiblings);

			for (String nextOne : sub) {
				if (nextOne.indexOf("//") == 0) {
					res.add(nextOne);
				} else {
					res.add("/" + nextOne);
					res.add("/" + t.getNodeName() + nextOne);
				}
			}
		}
	}
	return res;
}

And now the optimization which is (currently) in a subclass:

private Map<AbstractTree<String>, Multiset<String>> lookupTable = new HashMap<AbstractTree<String>, Multiset<String>>();

public Multiset<String> createSF(AbstractTree<String> t,
		List<AbstractTree<String>> allSiblings) {

	Multiset<String> lookup = lookupTable.get(t);
	if (lookup != null) {
		return lookup;
	} else {

		Multiset<String> res = super.createSF(t, allSiblings);

		lookupTable.put(t, res);
		return res;
	}
}

My trouble is that the optimized version runs out of heap space (the vm args are set at -Xms2g -Xmx2g) and is very slow on moderately large input. Can anyone see a way to improve on this?

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3 Answers 3

up vote 0 down vote accepted

Your code eats RAM exponentially. So one layer more means children.size() times more RAM.

Try to use a generator instead of materializing the results: Implement a Multiset which does not calculate the results beforehand but iterates through the tree structure as you call next() on the set's iterator.

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Run the code through a profiler. That's the only way to get real facts about the code. Everything else is just guesswork.

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"generates all paths in a tree as xpath statements"

How many paths are you creating? This can be non-trivial. The number of paths should be O( n log n ), but the algorithm could be much worse depending on what representation they use for children of a parent.

You should profile the simple enumeration of paths without worrying about the bag storage.

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