use the 'patch' function with different results (using different matrices)

1 vue (au cours des 30 derniers jours)
Alberto Acri
Alberto Acri le 26 Sep 2023
Commenté : Walter Roberson le 26 Sep 2023
Ran in:
Hi! I have two matrices: 'V' and 'trace'.
Using patches with V generates a completely black surface on the figure and I'm fine with it.
When I use the 'trace' matrix the result is different. How come? Is there a way to display 'trace' in the image in the same way as 'V'?
load V
axes1 = axes('Parent',figure);
patch(V(:,1), V(:,2),V(:,3),'k');
view(axes1,[45.7625707544407 8.27114462456761]);
axis equal
%%
load trace
axes2 = axes('Parent',figure);
patch(trace(:,1), trace(:,2),trace(:,3),'r');
view(axes2,[31.7625655339418 23.9174311926605]);
axis equal
  3 commentaires
Afficher 1 commentaire plus ancien
Alberto Acri
Alberto Acri le 26 Sep 2023
The matrices are different. I expected that using the 'trace' matrix I would get a black geometry display similar to the one I got with the V matrix!
Walter Roberson
Walter Roberson le 26 Sep 2023
Ran in:
Why would you expect that?
Remember that for patch(), points are considered to be ordered
If you sort the original points by angle, and plot the sort order:
load trace
axes3 = axes('Parent', figure);
tc = mean(trace,1);
ang = atan2(trace(:,2) - tc(2), trace(:,1) - tc(1));
[~, order1] = sort(ang);
[~, order2] = sort(order1);
plot(order2)
adjacent points on input bounce back and forth in angle order -- and not even alternately.
figure();
plot(order2(1:50))

Connectez-vous pour commenter.

Connectez-vous pour répondre à cette question.

Réponse acceptée

Matt J
Matt J le 26 Sep 2023
Modifié(e) : Matt J le 26 Sep 2023
Ran in:
If you are trying to recover the boundary from a surface triangulation, then,
load trace
[~,P]=freeBoundary(delaunayTriangulation(trace(:,1:2)));
Warning: Duplicate data points have been detected and removed.
The Triangulation indices are defined with respect to the unique set of points in delaunayTriangulation.
[~,loc]=ismember(P,trace(:,1:2),'rows');
V=num2cell([P,trace(loc,3)],1);
patch(V{:},'k');
view([31.7625655339418 23.9174311926605]);
axis equal

Plus de réponses (1)

Walter Roberson
Walter Roberson le 26 Sep 2023
Ran in:
In your first patch() call you ask for 'k' -- black -- for the faces. The edge colors default to black as well.
In the second patch() call you ask for 'r' -- red -- for the faces. The edge colors default to black.
The V matrix has coordinates for a simple circle. The trace matrix has much more complex coordinates, going back and forth.
If you were to sort the coordinates then you could get a circle as well. But remember that the coordinates for patch() are ordered so those represent completely different graphing tasks.
load V
axes1 = axes('Parent',figure);
patch(axes1, V(:,1), V(:,2), V(:,3), 'facecolor', 'r', 'facealpha', 0.5, 'edgecolor', 'k');
view(axes1,[45.7625707544407 8.27114462456761]);
axis(axes1, 'equal');
%%
load trace
axes2 = axes('Parent',figure);
patch(axes2, trace(:,1), trace(:,2), trace(:,3), 'facecolor', 'r', 'facealpha', 0.5, 'edgecolor', 'k');
view(axes2,[31.7625655339418 23.9174311926605]);
axis(axes2, 'equal');
axes3 = axes('Parent', figure);
tc = mean(trace,1);
ang = atan2(trace(:,2) - tc(2), trace(:,1) - tc(1));
[~, order] = sort(ang);
patch(axes3, trace(order,1), trace(order,2), trace(order,3), 'facecolor', 'r', 'facealpha', 0.5, 'edgecolor', 'k');
view(axes3,[31.7625655339418 23.9174311926605]);
axis(axes3, 'equal')
  1 commentaire
Walter Roberson
Walter Roberson le 26 Sep 2023
Note that if you know you have scattered coordinates, then see also boundary instead of the sorting method I used.

Connectez-vous pour commenter.

Catégories

En savoir plus sur Surface and Mesh Plots dans Help Center et File Exchange

Tags

Produits


Version

R2021b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by