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I want to plot a surface with a texture map on it, but the conditions are not the "ideal" ones.

first lets explain what I have.

I have a set of points (~7000) that are image coordinates, in a grid. This points do NOT define perfect squares. IT IS NOT A MESHGRID. For the sake of the question, lets assume that we have 9 points. Lets ilustrate what we have with an image:

 X=[310,270,330,430,410,400,480,500,520]
 Y=[300,400,500,300,400,500,300,400,500]

enter image description here Lets say we can get the "structure" of the grid, so

 size1=3;
 size2=3;
 points=zeros(size1,size2,2)
 X=[310,270,330;
    430,410,400;
    480,500,520]
 Y=[300,400,500;
    300,400,500;
    300,400,500]
 points(:,:,1)=X;
 points(:,:,2)=Y;

And now lets say we have a 3rd dimension, Z.

EDIT: Forgot to add a piece if info. I triangulate the points in the image and get a 3D correspondence, so when displayed in a surface they don't have the X and Y coords of the image, for a simplification of the given data lets say X=X/2 Y=Y/3

And we have:

 points=zeros(size1,size2,3)
 Z=[300,330,340;
    300,310,330;
    290,300,300]

 surf(points(:,:,1)/2,points(:,:,2)/3,points(:,:,3))

enter image description here

What I want is to plot the surface in 3D with the image texture. Each element should have the texture piece that have in the first image.

This needs to work for huge datasheets. I don't specially need it to be fast.

related post (but I has a meshgrid as initial set of points) : Texture map for a 2D grid

PD: I can post original images + real data if needed, just posted this because i think it is easier with small data.

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3 Answers 3

up vote 3 down vote accepted
+50

I don't think you can do what you want with Matlab's built in commands and features. But using the technique from my other answer with a high-res version of the grid can do it for you.

By "high-res", I mean an interpolated version of the non-uniform grid with denser data points. That is used to sample the texture at denser data points so it can be drawn using the texturemap feature of surf. You can't use a normal 2D interpolation, however, because you need to preserve the non-uniform grid shape. This is what I came up with:

function g = nonUniformGridInterp2(g, sx, sy)

[a,b] = size(g);
g = interp1(linspace(0,1,a), g, linspace(0,1,sy)); % interp columns
g = interp1(linspace(0,1,b), g', linspace(0,1,sx))'; % interp rows

Note that you have to call this twice to interpolate the X and Y points independently. Here's an example of the original grid and an interpolated version with 10 points in each direction.

Plot of the original and interpolated grids

Here's how to use that high-res grid with interp2 and texturemap.

function nonUniformTextureMap

% define the non-uniform surface grid
X = [310,270,330; 430,410,400; 480,500,520];
Y = [300,400,500; 300,400,500; 300,400,500];
Z = [300,330,340; 300,310,330; 290,300,300];

% get texture data
load penny % loads data in variable P

% define texture grid based on image size
% note: using 250-550 so that a,b covers the range used by X,Y
[m,n] = size(P);
[a,b] = meshgrid(linspace(250,550,n), linspace(250,550,m));

% get a high-res version of the non-uniform grid
s = 200; % number of samples in each direction
X2 = nonUniformGridInterp2(X, s, s);
Y2 = nonUniformGridInterp2(Y, s, s);

% sample (map) the texture on the non-uniform grid
C = interp2(a, b, P, X2, Y2);

% plot the original and high-res grid
figure
plot(X(:),Y(:),'o',X2(:),Y2(:),'.')
legend('original','high-res')

% plot the surface using sampled points for color
figure
surf(X, Y, Z, C, 'edgecolor', 'none', 'FaceColor','texturemap')
colormap gray

Plot of the mapped texture

share|improve this answer
    
Awesome dude. I liek the idea. I will try to do smthing like this, it may work very well. Still, just to know, How long did it take to do that? seems fast also! –  Ander Biguri May 10 '13 at 12:50
    
@AnderBiguri Thanks! The code just took a few minutes to write after I got the idea. It is nice and fast for this little data set. How's it going with your "huge" data set? –  shoelzer May 10 '13 at 13:55
    
I still dint' achieve to plot it, as it is a little bit mroe complex, but the idea is right and it should work! –  Ander Biguri May 10 '13 at 14:04

You can use the texturemap property of surf which works with rectangular meshes as well as with non-rectangular ones.

Creating non-rectangular data points

% creating non-rectangular data points
[X, Y] = meshgrid(1:100, 1:100);
X = X+rand(size(X))*5; 
Y = Y+rand(size(X))*5; 

which results in the following data points:

enter image description here

Generating height data:

Z = sin(X/max(X(:))*2*pi).*sin(Y/max(Y(:))*2*pi);

enter image description here

Loading picture:

[imageTest]=imread('peppers.png');

enter image description here

and mapping it as texture to the mesh:

surf(X,Y,Z, imageTest, ...
     'edgecolor', 'none','FaceColor','texturemap')

enter image description here

Note that, for the sake of demonstration, this non-rectangular grid is quite sparsely populated which results in a rather jagged texture. With more points, the result gets much better, irrespective of the distortion of the grid points.

Note also that the number of grid points does not have to match the number of pixels in the texture image.

~edit~

If X and Y coordinates are only available for parts of the image, you can adjust the texture accordingly by

minX = round(min(X(:)));
maxX = round(max(X(:))); 
minY = round(min(Y(:)));
maxY = round(max(Y(:)));

surf(X,Y,Z, imageTest(minX:maxX, minY:maxY, :), ...
     'edgecolor', 'none','FaceColor','texturemap')
share|improve this answer
    
what about not using a meshgrid? I know how to do it with a meshgrid, you can see it in the link I posted in my question. Sorry this does not answer the question –  Ander Biguri May 7 '13 at 10:37
    
@AnderBiguri: please see my updated answer and pardon me for not reading your question carefully enough in the beginning. –  H.Muster May 7 '13 at 12:13
    
Thanks H.Muster. I forgot to add a little detail of the surface grid, please check my edit. I think the change is small for your answer, but I cant seem to find the answer. –  Ander Biguri May 7 '13 at 12:51
    
@AnderBiguri: The grid coordinates do not have to match the texture coordinates. As long as you do not perform non-linear transformations on the grid points, the texture should be mapped to the grid points irrespectively of transformations. –  H.Muster May 7 '13 at 13:00
    
I tested your answer. It goes in the rigth direction but it is not the correct one (at leas not in my test!). It seems that the WHOLE texture is plotted in the surface, but it is not what i want. I want only the texture corresponding to each element to be ploted. So in the image2 i posted in my question the texture to plot should be the texture that corresponds to the squares in imgage1. Thats why i noted the changed pixel correspondence, as it should matter. –  Ander Biguri May 7 '13 at 13:07

I'm not sure I understand your question, but I think that what you need to do is sample (map) the texture at your grid's X,Y points. Then you can simply plot the surface and use those samples as colors.

Here's an example using the data you gave in your question. It doesn't look like much, but using more X,Y,Z points should give the result you're after.

% define the non-uniform surface grid
X = [310,270,330; 430,410,400; 480,500,520];
Y = [300,400,500; 300,400,500; 300,400,500];
Z = [300,330,340; 300,310,330; 290,300,300];

% get texture data
load penny % loads data in variable P

% define texture grid based on image size
% note: using 600 so that a,b covers the range used by X,Y
[m,n] = size(P);
[a,b] = meshgrid(linspace(0,600,n), linspace(0,600,m));

% sample (map) the texture on the non-uniform grid
C = interp2(a, b, P, X, Y);

% plot the surface using sampled points for color
figure
surf(X, Y, Z, C)
colormap gray

Plot of the mapped texture

share|improve this answer
    
No, Thats not what I want, sorry. I want the texture itself plotted in this surface. You just plotted a colour, but between 4 points there is a whole texture there. I want to extract the texture of each element in the first image to plot it (as a texture, no as a colour) in each element of the surface. –  Ander Biguri May 9 '13 at 7:46
    
@AnderBiguri Now I understand! Please see my new answer. –  shoelzer May 9 '13 at 13:50

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