Hi Niels, I work at MathWorks on graphs. If you have a few minutes, I would very much appreciate hearing more about your workflow using paths. Would you please contact me directly? Thanks.
Calculating all paths from a given node in a digraph
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Hey all,
I am using the digraph function and trying to find all paths from a given source node, i was wondering if there already exist a object function to do this such as the shortest path object functions.
As an example:
The output i would like:
[1 2 4]
[1 2 5]
[1 2 6]
[1 3 7 9]
[1 3 7 8]
2 Comments
Accepted Answer
Guillaume
on 4 Sep 2018
I've not tested it thoroughly but I think this should work:
function paths = getpaths(g)
%return all paths from a DAG.
%the function will error in toposort if the graph is not a DAG
paths = {}; %path computed so far
endnodes = []; %current end node of each path for easier tracking
for nid = toposort(g) %iterate over all nodes
if indegree(g, nid) == 0 %node is a root, simply add it for now
paths = [paths; nid]; %#ok<AGROW>
endnodes = [endnodes; nid]; %#ok<AGROW>
end
%find successors of current node and replace all paths that end with the current node with cartesian product of paths and successors
toreplace = endnodes == nid; %all paths that need to be edited
s = successors(g, nid);
if ~isempty(s)
[p, tails] = ndgrid(paths(toreplace), s); %cartesian product
paths = [cellfun(@(p, t) [p, t], p(:), num2cell(tails(:)), 'UniformOutput', false); %append paths and successors
paths(~toreplace)];
endnodes = [tails(:); endnodes(~toreplace)];
end
end
end
4 Comments
Guillaume
on 29 Apr 2020
If the graph has cycle, then as commented in the code, the matlab function toposort will error since it only works with DAG. You'd have to write your own algorithm for this, I'm afraid.
The first thing you'll have to answer is what the definition of 'all paths' is when there are cycles.
More Answers (2)
Walter Roberson
on 4 Sep 2018
Mathworks does not provide any function for that purpose. Perhaps the graph theory toolbox in the File Exchange?
Your text asks for "all paths", and your example is a digraph that happens to have "in degree" 1 for all nodes. In the special case of a digraph with "in degree" 1 for all nodes, then "all paths" becomes the same as all shortest path tree https://www.mathworks.com/help/matlab/ref/graph.shortestpathtree.html .
This routine will not work for cases where the in degree is more than 1, such as if node 3 also pointed to node 9: in that case the "shortest" path choices in the routine would prune out some of the paths.
3 Comments
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