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I've been trying to optimize my own implementation of the A* search algorithm for a while, and ended up with changing the actual algorithmic part a bit.

I've been wondering if this approach would be faster than regular A* or not. Why, or why not? If so, what reasons are there to use regular A* over this slightly different method?

def find_path(a, b):
    seen = set()
    opened = set()

    parent = {}
    distance = {a: path_distance(a, b)}

    while opened:
        node = min(opened, key=lambda x: distance[x])

        if node == end:
            path = []

            while node in parent:
                node = parent[node]

            return path


        for neighbor in node.neighbors:
            if neighbor not in seen:

                parent[neighbor] = node
                distance[neighbor] = pathDistance(neighbor, b)

def path_distance(a, b):
    return sum(y - x for x, y in zip(a.position, b.position))

I know about using heap queues, but that isn't the focus of this question.

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closed as unclear what you're asking by Raptor, root, larsmans, TerryA, 500 - Internal Server Error Feb 28 '14 at 19:31

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking. See the How to Ask page for help clarifying this question.If this question can be reworded to fit the rules in the help center, please edit the question.

I've been wondering if this approach would be faster than regular A or not*: Why didn't you just test it? – sloth Apr 22 '13 at 9:38
Care to explain the changes you made, and the reasoning behind them? – Janne Karila Apr 22 '13 at 9:39
Also what is “regular A*”? I don’t think there is specific reference implementation. – poke Apr 22 '13 at 9:39
I didn't mean "is it faster?" in terms of exact actual numbers, I was more wondering in theoretical terms. Is there any reason to use regular A* over this approach? – Port Apr 22 '13 at 9:40
@poke: For example, see the pseudocode on Wikipedia.* – Port Apr 22 '13 at 9:40

The original has an opened set and a closed set. It will check if the neighbor is in the closed set, and if that tentative score is higher, then it will skip it. If it is not in the opened set, or the tentative score is lower, it will use that as the better path.

You have instead an opened set and a seen set. You check if it is not in the seen set, and in that case you will add it to seen, and use it.

This is very different, and is likely to give incorrect results. As far as I can tell your algorithm doesn't result in the shortest path, it will simply always use the last neighbor as path.

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