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One step in the A* pathfinding algorithm requires searching the list of open nodes for the node you're currently interacting with, and adding that node to the list if it isn't already there, or updating its value and parent, if it's present but with a higher weight than the current version of the node.

These behaviors aren't supported in the STL priority_queue structure. How should I implement that step?

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I wouldn't even do that anyway, unless space is at a premium. Is there any reason you can't/shouldn't maintain a separate set that support quick "contains" queries? –  harold Aug 11 '12 at 7:57
Could you clarify what it is that isn't necessary to do here? @ybungalobill, below, said that refreshing the node to the lowest-cost version was mandatory for optimal results. –  ExOttoyuhr Aug 11 '12 at 8:37
It is, but finding the right node to change in the priority queue is a slow operation. You can maintain a separate data structure to handle that part. –  harold Aug 11 '12 at 8:40
I see. Thanks for clarifying that. –  ExOttoyuhr Aug 11 '12 at 8:45

4 Answers 4

up vote 1 down vote accepted

You can use a plain vector or array to store the elements and then use std::make_heap, std::push_heap, std::pop_heap, std::sort_heap, std::is_heap and std::is_heap_until to manage it.

This allows you to break containment and implement custom operations on a priority queue, without having to implement the standard operations yourself.

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If I take this approach, how do I pass a different predicate function to make_heap()? It's refusing greater<SearchNode>, saying "type name is not allowed." –  ExOttoyuhr Aug 11 '12 at 8:26
Update: looks like I just needed to declare an instance of greater<SearchNode>. Please let me know if I'm wrong. –  ExOttoyuhr Aug 11 '12 at 8:35
@ExOttoyuhr: I added a code sample showing how to use std::greater. My guess is you forgot to put brackets after it to indicate that you want to construct an anonymous temporary. –  Andrew Tomazos Aug 11 '12 at 11:42

STL priority_queue does not suit for A* implementation. You need a heap structure that supports the increase operation to change the priority of already inserted items. Use Boost.Heap for an implementation of many classical heaps.

EDIT: Boost.Graph library has an implementation of A* search too.

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Is it right to say that, if you find a version of a particular node with a lower total cost than the version you currently have in the queue, you must replace the version in the queue with the new, cheaper version? It sounds like it, but I want to be sure. –  ExOttoyuhr Aug 11 '12 at 7:58
@ExOttoyuhr: yes, otherwise you won't get optimal solutions. See wikipedia algorithm pseudocode. –  ybungalobill Aug 11 '12 at 8:04
Thanks. But are there ways to get a suitable container without needing to install Boost? –  ExOttoyuhr Aug 11 '12 at 8:13
@ExOttoyuhr: you can use a multi_set as @compileGuy suggested, or use the heap functions that @Andrew listed and implement increase/decrease for array-based heaps yourself. However, these approaches will result in O(log N) updates, while most of Boost's heaps have amortized O(1) updates. –  ybungalobill Aug 11 '12 at 8:21
@ThomasVerbeke: Oh my god... It is a paper written by amateurs. What actually matters is not the paper (which does not explain anything) but the implementation. And the problem of the implementation is that it causes undefined behavior by invalidating the priority_queue invariants (that is by modifying the values directly without letting priority_queue to prearrange itself. see line 90 of PathFinder.cpp). Their "algorithm" is just broken, and they are lucky that they got correct results (if they checked correctness at all, which I doubt). –  ybungalobill Jan 4 '13 at 10:55

If you are limited to STL you could use STL Set and constantly erasing and re-inserting the elements (with new priority).

Set< pair<int,int> > s; // < priority,value >
s.insert( make_pair(0,5) );

// Decrease Key operation //
s.erase( s.find( make_pair(0,5) ) );
s.insert( make_pair(1,5) );

Time complexity is still O(log N) but it will probably take more time for large sets.

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There are three likely solutions to this:

  1. Track the list of nodes currently open independently of the priority queue. Try creating a list of nodes in the same manner you do for closed nodes.

  2. Create a map of nodes (by coordinate) to open-closed state.

  3. Install the Boost library, which includes a templated implementation of A* (I think in <graph>).

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