I have built a hollow cube in MATLAB, I want to completely fill its volume with small cubes. Then I want to find a way to access these cubes and make paths through them, i.e if cube x is currently accessed, there should be a way to know what is its right, left, top, bottom, front, and back closest neighbors (closest neighbors= the cubes directly beside the current cube). I think we have 6 neighbors, because we have 6 different faces of the cube.
By knowing the nearest cube at every direction, a path through the cubes can be defined as a series of steps (eg, right, left, left, top, right, front). I think to be able to access every small cube and move to near ones we need to represent the small cubes in a matrix (maybe 3D), where if a small cube has a neighbor cube x to its right, then in the matrix, x will appear in the column next to the current column of the small cube. Also, if there is a direct neighbor at another depth layer (same x, y coordinates but different z coordinate, eg, the front and back neighbors) it should be indicated. Is there an easier way to identify the neighbors?
I've obtained a code by rayryeng (Building a hollow cube and filing it with small cubes in MATLAB) to fill many small cubes randomly inside the big one and build a 3D matrix, where every slice of the matrix (depth) represents one of the small cubes and the rows and columns of every slice (8 rows and 3 columns) represent the x y z coordinates of the vertices of every small cube. Please take a look at the question link that I provided to see the code.
I want to make two modifications to the code,
1- fill the big cube with small cubes in an organized way not randomly.
2- adjust the 3D matrix to represent how the small cubes are neighbors to each other.
I've tried to adjust the code in the linked question to fill the cube in an organized way. This is my trial (I added the if else in the for loop),
clf; figure(1); format compact h(1) = axes('Position',[0.2 0.2 0.6 0.6]); %These are the different 8 vertices of the cube, each is defined by its 3 x %y z coordinates: vert = [1 1 -1; -1 1 -1; -1 1 1; 1 1 1; -1 -1 1; 1 -1 1; 1 -1 -1; -1 -1 -1]; %These are the 6 faces of the cube, each is defined by connecting 4 of the %available vertices: fac = [1 2 3 4; 4 3 5 6; 6 7 8 5; 1 2 8 7; 6 7 1 4; 2 3 5 8]; % I defined a new cube whose length is 1 and centers at the origin. vert2 = vert * .05; fac2 = fac; patch('Faces',fac,'Vertices',vert,'Facecolor', 'w'); % patch function for the first big cube. axis([-1, 1, -1, 1, -1, 1]); axis equal; hold on; patch('Faces', fac2, 'Vertices', vert2, 'FaceColor', 'r', 'EdgeColor', 'none'); material metal; alpha('color'); alphamap('rampdown'); %view(3); hold on; rng(123); %// Set seed for reproducibility num_squares = 1000; %// Set total number of squares %// New - to store the coordinates coords = ; %// For remembering the colours colors = ; %// For each square... for idx = 1 : num_squares %// Take the base cube and add an offset to each coordinate %// Each coordinate will range from [-1,1] if (idx==1) vert_new = bsxfun(@plus, vert2, [.01 .01 .01]); else vert_new = bsxfun (@plus, vert_new,[.01 .01 .01] ); end %// New - For the coordinates matrix coords = cat(3, coords, vert_new); %// Generate a random colour for each cube color = rand(1,3); %// New - Save the colour colors = cat(1, colors, color); %// Draw the cube patch('Faces', fac, 'Vertices', vert_new, 'FaceColor', color,'EdgeColor', 'none'); end %// Post processing material metal; alpha('color'); alphamap('rampdown'); view(3);
But I'm getting a result like the one in the following picture,
Can anyone please tell me how to solve this problem and build the 3D matrix (or any other easier way to represent the neighbors of every cube )?
EDIT: To elaborate more on the small cube neighbor issue. Consider having a cube C anywhere inside the big cube. Let the cube position be (.5,.5,.5) which we may think of as the center of the cube. Then, this cube will have 6 neighbor cubes (positioned directly beside it) with 2 neighbors per axis. So, for the cube (.5,.5,.5) we have,
x axis neighbor to the right of C (.5 +offset, .5, .5)
x axis neighbor to the left of C (.5 -offset, .5, .5)
y axis neighbor to the top of C (.5 , .5+offset, .5)
y axis neighbor to the bottom of C (.5 , .5-offset, .5)
z axis neighbor one depth after C (.5 , .5, .5+offset)
z axis neighbor one depth before C (.5 , .5, .5-offset)
where offset may be seen as the distance between the center of a cube and any of its faces. This is just an explanation to clarify the idea, it doesn't need to be implemented the same way. I hope this is clear, I would appreciate any help in constructing this neighborhood matrix.