Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Using Mathematica I was able to create the following plot

Now I would like to switch to Matlab - which I am just starting to learn. I was able to create the triangulation with FL.vertices and FL.faces matrix and the patch function, that looks like this

faces=FV.faces; 
facecolor = [.7 .7 .7]; 
patch('faces',faces,'vertices',FV.vertices,...
'facecolor',facecolor,'facealpha',0.8,'edgecolor',[.8.8.8]);
camlight('headlight','infinite'); 
daspect([1 1 1]); axis vis3d; axis off 
material dull;

It produces a dull image:

Now, I have a function J that takes the matrix FL.vertices and returns a matrix of positive values. I would like to color the faces according to the values of J on vertices. Possibly interpolate along the faces. Edges can be, for now, as they are - to deal with later. After reading the documentation it is not clear to me how to accomplish this task. Do I need to find min and max of J manually? Or can Matlab do it automatically? It is OK for now to use one of Matlab's preset coloring schemes, something like a "temperature map" would do. At which point should I call my function J? How exactly it should be used with the patch command? I looked through the previous answers to a similar question, but still I am not able to figure out how to deal with my case. Any helping suggestion will be appreciated.

P.S. OK. I think I did it with simple

FV.Cdata=sphere_jacobian(FV.vertices,1,1,0,1);
figure
Hp = patch('faces',FV.faces,'vertices',FV.vertices,...
'FaceVertexCData',FV.Cdata,'facecolor','interp','edgecolor',[.8 .8 .8]); 

But I am not sure if min and max have been automatically computed and interpolated.

share|improve this question
    
OK. I think I did it with simple –  arkajad Dec 23 '12 at 16:58
    
have you tried changing the colormap? –  Shai Dec 23 '12 at 19:38
    
Will try playing with the colormap. I think I really need to do some scaling of my coloring function. Also I would like to plot the contours of my function on this colored sphere. Could not find the right example anywhere. –  arkajad Dec 23 '12 at 19:46
    
Could you be more clear about what exactly you want to ask? Or if you have already found the solution please post it as an answer. –  Dennis Jaheruddin Dec 24 '12 at 9:29
    
Inded, I think I have fond the answer: I did colormap(hsv(3200)); and normalized my function: jac = sphere_jacobian(FV.vertices,m); minj = min(jac);maxj = max(jac);jac1 = (jac-minj*ones(size(jac)))/(maxj-minj);FV.Cdata=jac1; figure Hp = patch('faces',FV.faces,'vertices',FV.vertices,... 'FaceVertexCData',FV.Cdata,'facecolor','interp','edgecolor',[.8 .8 .8]); The result can be seen here. Not quite optimal, but not too bad. –  arkajad Dec 27 '12 at 15:18
add comment

1 Answer

Here is what I believe to be the answer given by the poster, I will put it here so the question does not remain open.

OK. I think I did it with simple

FV.Cdata=sphere_jacobian(FV.vertices,1,1,0,1);
figure
Hp = patch('faces',FV.faces,'vertices',FV.vertices,...
'FaceVertexCData',FV.Cdata,'facecolor','interp','edgecolor',[.8 .8 .8]); 

But I am not sure if min and max have been automatically computed and interpolated.


I did

colormap(hsv(3200)); 

and normalized my function:

jac = sphere_jacobian(FV.vertices,m); 
minj = min(jac);
maxj = max(jac);
jac1 = (jac-minj*ones(size(jac)))/(maxj-minj);FV.Cdata=jac1; 
figure Hp = patch('faces',FV.faces,'vertices',FV.vertices,... 'FaceVertexCData',FV.Cdata,'facecolor','interp','edgecolor',[.8 .8 .8]);

The result can be seen here.

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.