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How should I proceed on doing this? This IS a homework, and I'm having a huge problem with it. Now, the issue is that I must not use libs.

I have a graph like:

{'A': {'C': 2, 'B': 10}, 'C': {'B': 7, 'D': 2}, 'B': {}, 'D': {'A': 5, 'B': 4}}

using dictionaries, taken from a file.

I am using the algorithm at http://www.python.org/doc/essays/graphs.html to find all the paths, so there is no problem there.

But now that I have all the paths from one point to another, I need to sum the weights and get the complete cost on it.

If you could help me, and direct me on some good ways to approach it, I would appreciate it.

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3 Answers 3

up vote 1 down vote accepted
gr = {'A': {'C': 2, 'B': 10},
      'C': {'B': 7, 'D': 2},
      'B': {'E': 2},
      'D': {'A': 5, 'B': 4, 'E': 3}
      'E': {}}

def paths(gr, frm, to, path_len=0, visited=None):

    if frm == to:
        return [[to, path_len]]

    visited = visited or []
    result = []
    for point, length in gr[frm].iteritems():
        if point in visited:
        for sub_path in paths(gr, point, to, path_len + length, visited[:]):
            result.append([frm] + sub_path)

    return result

>>> print paths(gr, 'A', 'E')
[['A', 'C', 'B', 'E', 11], ['A', 'C', 'D', 'E', 7], ['A', 'B', 'E', 12]]
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Thanks. This is what I was looking for. –  Homu Jun 28 '12 at 16:16
In general, when there's a Homework tag you should include some kind of explanation of what you're doing. –  acattle Jun 29 '12 at 5:59

Look at networkx - which is a very good Python graph library. Read its docs and you'll find there's an easy solution -- as it's homework I won't comment more until you find a coding problem.

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The problem is, I must not use any libs. I had the idea in mind, though –  Homu Jun 28 '12 at 15:29
@Homu then please amend as such... –  Jon Clements Jun 28 '12 at 15:34

Well you've done the hard part of finding the path. Now just go through the path and sum those weights. I would use a loop.

int sum=0;
for(int i=0;i<path.size()-1;i++)
    sum+= node.at(i).getWeightFor(node.at(i+1))

where getWeightFor(node) would return the cost to go from that node to another. So if you did A.getWeightFor(C), it would return 2. There are probably better ways to do it, but that is my quick answer to do it. You'd have to make that getWeightFor function, but that should be quite simple. Like I said, the hard part is done. Don't overthink this last bit.

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I think OP wants an python based solution. –  Ashwini Chaudhary Jun 28 '12 at 14:54
A python solution would be the best. I will try to work with this, too. –  Homu Jun 28 '12 at 15:05
Oh, sorry I just completely forgot about python when thinking of answer. It's the same idea though. In that link, it has an example of the end result as------->find_shortest_path(graph, 'A', 'D')------------->\n['A', 'C', 'D']----------when you get that path in the form of ['A', 'C', 'D'], you can grab the weights between each of those. You can use that array it returns to loop through. I don't know how to format in comments... –  Sterling Jun 28 '12 at 15:09

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