convert patch structure to graph() object?

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Walter Roberson
Walter Roberson il 22 Set 2023
Modificato: il 7 Mar 2024
Is there an easier / better way to convert a patch() faces / vertices structure to a graph object?
%Where S is a struct with faces and vertices
%such as returned by isosurface()
%patch() can deal directly with such struct
s = S.faces;
v = S.vertices;
t = circshift(S.faces, [0 -1]);
G = graph(s(:), t(:));
Although this code is not long, it took a bit of thinking about and experimenting to come up with; it feels to me as if there should be a better method.
Each row of the faces is a list of vertex numbers, with an implied return to the first vertex. This code constructs source and target lists by taking all adjacent pairs from the rows, including wrapping back from first to last.

Risposte (3)

J. Alex Lee
J. Alex Lee il 22 Set 2023
Modificato: J. Alex Lee il 22 Set 2023
Are you sure your method is giving you the graph you want? It looks like it counts edges twice, but not exactly.
So my question is: there must be a better way to construct the self-adjacency matrix other than this brute force?
% create structure by isosurface
[x,y,z] = meshgrid([-3:1:3]);
V = x.*exp(-x.^2 -y.^2 -z.^2);
S = isosurface(x,y,z,V,1e-4);
% shortcut for connectivity matrix
c = S.faces;
%% Walter's graph
%Where S is a struct with faces and vertices
%such as returned by isosurface()
%patch() can deal directly with such struct
s = S.faces;
v = S.vertices;
t = circshift(S.faces, [0 -1]);
G = graph(s(:), t(:));
figure(1);
plot(G)
%% alternate graph
% number of nodes
n = height(S.vertices);
% construct self-adjacency matrix
A = spalloc(n,n,n*n);
for i = 1:n
[row,col] = find(S.faces==i);
v = unique(c(row,:));
A = A + sparse(i,v,1,n,n);
end
% have to remove the diagonals
A = A .* ~speye(n);
G_B = graph(A)
G_B =
graph with properties: Edges: [276×2 table] Nodes: [97×0 table]
figure(2);
plot(G_B)
  2 Commenti
Walter Roberson
Walter Roberson il 22 Set 2023
Modificato: Walter Roberson il 22 Set 2023
Interesting point. Let's try
% create structure by isosurface
[x,y,z] = meshgrid([-3:1:3]);
V = x.*exp(-x.^2 -y.^2 -z.^2);
S = isosurface(x,y,z,V,1e-4);
% shortcut for connectivity matrix
c = S.faces;
%% Walter's graph
%Where S is a struct with faces and vertices
%such as returned by isosurface()
%patch() can deal directly with such struct
s = S.faces;
v = S.vertices;
t = circshift(S.faces, [0 -1]);
st = unique(sort([s(:), t(:)],2), 'rows');
G = graph(st(:,1), st(:,2))
G =
graph with properties: Edges: [276×1 table] Nodes: [97×0 table]
figure(1);
plot(G)
... all the more reason why it would be better to have a function to handle this.
J. Alex Lee
J. Alex Lee il 23 Set 2023
I now better understand how our methods are related: both concepts were discussed a while ago triangulation to adjacency.
I update my code for creating the adjacency matrix based on Akira's answer, using circshift for more generality - I guess the path through the sorted node pair list is more "direct" than this...but anyway for completeness.
c = S.faces;
t = circshift(c,[0 -1]);
A = sparse(c(:),t(:),1,n,n);
A = A | A.';

Accedi per commentare.


J. Alex Lee
J. Alex Lee il 23 Set 2023
Found a more built-in way but you have to convert the structure to a triangulation
% create structure by isosurface
[x,y,z] = meshgrid([-3:1:3]);
V = x.*exp(-x.^2 -y.^2 -z.^2);
S = isosurface(x,y,z,V,1e-4);
TR = triangulation(S.faces,S.vertices);
st = edges(TR);
G = graph(st(:,1),st(:,2));
plot(G)

浩
il 7 Mar 2024
Modificato: il 7 Mar 2024

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