How to search all elements in two cell arrays?
1 view (last 30 days)
Show older comments
Asaf McRock
on 5 Mar 2021
Commented: Asaf McRock
on 11 Oct 2021
Hi,
I have two cell arrays, each cell in these two arrays represent a connected component in a graph.
C = {[21,45,87,99,121],[37,918],[150,700],[218,851],[420,728],[464,761],[695,709],16,34}; % Connected components in Graph G
B = {[4,600,303,5,56,88,87,63],[142,257,481,785],[103,33,509],[99,588],[251,524],[572,683],8,65,105} % Connected components in Graph H
I want to go through each cell in array C and check if it's members (Nodes) connected to other cell's members (nodes) in B.
That is, if the nodes [37,918] in C (in the same component) are connected to the two nodes 251 and 588 in B (different component) remove the edge between 37,918.
I would appreciate your help and tips.
4 Comments
Christine Tobler
on 9 Mar 2021
It looks like B and C represent only a subset of the connected components in the graph (not all numbers from 1 to 918 appear here, so the other nodes must be in different components. Correct?
So is each node in B connected to exactly one node in C? If not, does it mean that for nodes [37, 918] in C, you want to go through every pair of nodes x, y in B where x is connected to 37 in C and y is connected to 588 in B, and remove the edge between [37, 918] unless every pair of nodes (x, y) in B is connected by an edge?
On performance, the first thing I would recommend is to try to use the default output from conncomp, which is a vector bins where bins(i) gives the component that node i is in. It's much faster to check whether two nodes are in the same component using bins(i) == bins(j) than using the cell array output.
Accepted Answer
Christine Tobler
on 9 Mar 2021
All right, let's assume you have a graph containing both G and H stored as graph object GH, and that this graph contains the black and red edges from your picture, but not the purple ones which are just the mapping between G and H.
I'll also assume you have a vector which mapGH which maps between those two sets of points (that's the purple lines): mapGH(i) == j and mapGH(j) == i, where i is a node in G and j is its corresponding node in H.
Am I right to assume these inputs are available?
Then, we can find all edges to remove as follows:
bins = conncomp(GH);
[s, t] = findedge(GH); % list start and end nodes of all edges in GH
st = [s, t];
% We know bins(s) == bins(t), because two nodes connected by an edge are always in the same component.
% Check if their mapped edges are also in the same component:
needRemoveEdge = bins(mapGH(s)) ~= bins(mapGH(t));
GH = rmedge(GH, find(needRemoveEdge));
This removes all edges where the mapped nodes aren't in the same component of the other graph. But removing these edges will change the connected components, so it's probably a good idea to do this several times (stages), until there are no edges that have to be removed:
bins = conncomp(GH);
[s, t] = findedge(GH); % list start and end nodes of all edges in GH
st = [s, t];
% We know bins(s) == bins(t), because two nodes connected by an edge are always in the same component.
% Check if their mapped edges are also in the same component:
needRemoveEdge = bins(mapGH(s)) ~= bins(mapGH(t));
while any(needRemoveEdge)
GH = rmedge(GH, find(needRemoveEdge));
bins = conncomp(GH);
[s, t] = findedge(GH); % list start and end nodes of all edges in GH
st = [s, t];
% We know bins(s) == bins(t), because two nodes connected by an edge are always in the same component.
% Check if their mapped edges are also in the same component:
needRemoveEdge = bins(mapGH(s)) ~= bins(mapGH(t));
end
This will never be an infinite loop because every iteration removes at least one edge from GH.
Keep in mind I haven't tested this because I don't have time to write up example inputs right now. Can you try it and let me know if it works? If not, could you include some example data for GH and mapGH?
3 Comments
More Answers (0)
See Also
Categories
Find more on Dialog Boxes in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!