# [Numpy-discussion] Stick intersection path algorithm

Josè Luis Mietta joseluismietta at yahoo.com.ar
Thu Sep 5 07:14:10 EDT 2013

```Thanks experts!
Thanks Robert Kern!

1. networkx.has_path(G, first_stick, second_stick) stop when find second_stick or compute all the sub-graph and then evaluate if first_stick and second_stick are connected?

2. Using networkx or other tool: how can I obtain the 'clusters size' distribution (that is: number of clusters of size 'D', for all cluster-sizes)?

Thanks a lot!!

José Luis

________________________________
De: Robert Kern <robert.kern at gmail.com>
Para: Discussion of Numerical Python <numpy-discussion at scipy.org>
Enviado: miércoles, 4 de septiembre de 2013 18:49
Asunto: Re: [Numpy-discussion] Stick intersection path algorithm

On Wed, Sep 4, 2013 at 3:17 PM, Josè Luis Mietta <joseluismietta at yahoo.com.ar> wrote:
>
> Hi experts!
>
> If I do:
>
> G = Graph(M)
>
> That is: to use the associated intersection graph, where the vertices are the sticks and there is an edge between the two vertices if they intersect. Two sticks are "connected by a 'intersected-stick' path" if they are in the same connected component of this graph.
> It turns out that the matrix I consider (M) is the adjacency matrix of this graph.
>
> Then, I can do:
>
> first_stick in G.connected_component_containing_vertex(second_stick)
>
> This is 'True' if 'first_stick' is in the sub-graph formed by 'second_stick' and all sticks 'connected' with 'second_stick'.
>
> The problem is that
>
> G.connected_component_containing_vertex()
>
> explore all the sub-graph.
>
> How can I do (what is the code) for stop the iteration when the algorithm found 'first-stick'?

networkx.has_path(G, first_stick, second_stick)

http://networkx.github.io/documentation/latest/reference/generated/networkx.algorithms.shortest_paths.generic.has_path.html#networkx.algorithms.shortest_paths.generic.has_path

If you are going to be doing many queries, you should compute all of the path lengths, then you can query the final data structure easily.
lengths = networkx.all_pairs_shortest_path_length(G)
second_stick in lengths[first_stick]

--
Robert Kern

On Wed, Sep 4, 2013 at 3:17 PM, Josè Luis Mietta <joseluismietta at yahoo.com.ar> wrote:

Hi experts!
>
>
>
>If I do:
>G =Graph(M)
>
>
>That is: to use the associated intersection graph, where the vertices are the sticks and there is an edge between the two
vertices if they intersect. Two sticks are "connected by a
'intersected-stick' path" if they are in the same connected component of this graph.
>It turns out that the matrix I consider (M) is the adjacency matrix of this graph.
>
>
>Then, I can do:
>first_stick inG.connected_component_containing_vertex(second_stick)
>This is 'True' if 'first_stick' is in the sub-graph formed by 'second_stick' and all sticks 'connected' with 'second_stick'.
>
>
>The problem is that
>
>G.connected_component_containing_vertex()
>
>explore all the sub-graph.
>
>How can I do (what is the code) for stop the iteration when the algorithm found 'first-stick'?
>
>
>Thanks a lot!!
>
>
>
>
>
>________________________________
> De: Robert Kern <robert.kern at gmail.com>
>
>Para: Discussion of Numerical Python <numpy-discussion at scipy.org>
>Enviado: lunes, 2 de septiembre de 2013 10:40
>
>Asunto: Re: [Numpy-discussion] Stick intersection path algorithm
>
>
>
>On Sun, Sep 1, 2013 at 11:55 PM, Josè Luis Mietta <joseluismietta at yahoo.com.ar> wrote:
>>
>> Hi experts!
>>
>> I wanna study the intersection between line segments (sticks).
>> I wrote a algorithm that generate a matrix, M, with N rows and N columns. The M-element Mij is 1 if stick number 'i' intersect stick number 'j' (obviously M is symmetric).
>>
>> Given two arbitrary sticks, i need a simple and effective algorithm that determinate if that two sticks are conected by a 'intersected-sticks' path.
>
>You may find it helpful to reword your problem using standard terminology. If I hadn't read your previous question, I would not have been able to understand what you meant by intersected sticks (or, as Chris thought at first, that you needed help determining the intersections). This will also help in searching Google for background and pre-existing software to solve your problem.
>
>You have an "undirected graph" (the sticks are "nodes", and the intersections are "edges") and you want to find if two given nodes are "reachable" from each other. You are currently representing your graph as an "adjacency matrix" `M` where `M[i,j]` is 1 iff nodes `i` and `j` have an edge between them and 0 otherwise. The "transitive closure" of your graph `M` is the graph that connects two nodes with an edge iff the two nodes are reachable from each other in the original graph `M`. There are several graph theory packages out there, like NetworkX, that will do this for you. Depending on the kinds of queries you would like to do, as David points out, want to compute the "connected components" of your graph; a connected component is a subgraph of your original graph such that all of the nodes are reachable from each other.
>
>
>You can also look up Python code for computing the transitive closure of a graph; it's not a complicated algorithm. However, this algorithm is usually implemented using a different representation of a graph than an adjacency matrix, so you may need to do a conversion.
>
>
>--
>Robert Kern
>
>
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>
>_______________________________________________
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>

--
Robert Kern
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