Find Gaps and Overlaps in Rectangular Prisms

조회 수: 3 (최근 30일)
Alex
Alex 2025년 5월 14일
댓글: Matt J 2025년 5월 15일
I have rectangular prisms at fixed locations defined below, and I'm trying to see if they fit in a box without any gaps or overlaps. The perfect no-gaps, no-overlaps solution looks like the picture of the attached Jenga tower.
% Fit the following rectangular prisms in a box:
prisms.p1.x = [75 200]; % Min/max of x range for prism p1
prisms.p1.y = [4 100]; % Min/max of y range for prism p1
prisms.p1.z = [1e3 1e4]; % Min/max of z range for prism p1
prisms.p2.x = [20 80];
prisms.p2.y = [0.1 2.2];
prisms.p2.z = [0 1e3];
prisms.p3.x = [80 115];
prisms.p3.y = [0.1 4];
prisms.p3.z = [0 1e3];
prisms.p4.x = [20 180];
prisms.p4.y = [2.2 8];
prisms.p4.z = [0 1e3];
prisms.p5.x = [200 1000];
prisms.p5.y = [0 1];
prisms.p5.z = [0 1e4];
% The box that the prisms must fit in, given the values above, is:
box.x = [20 1000]; % Min/max of x range for the box of prisms
box.y = [0 100]; % Min/max of x range for the box of prisms
box.z = [0 1e4]; % Min/max of x range for the box of prisms
Above is a struct called prisms. It has 5 fields; each field describes one prism (p1,p2,p3,p4,p5) using x,y,z coordinates. I want to identify if the rectangular prisms have any overlaps or gaps between them, and if so, report where those gaps and/or overlaps occur. The ranges are all aligned with the axes, and are always >=0.
The size of the box that the prisms must fit in is defined to be the min and max values over all prisms for a particular axis. If two prisms touch at only one point in their range, I don't count that as an "overlap". I don't want to move the prisms, but instead want to report where two prisms overlap, or where there are gaps in the box.
I've found all the overlapping regions by testing pairs of rectangular prisms for overlap, and it seems to work:
%% Get all combinations of classes (combinations since order does not matter)
nFields = length(fieldnames(prisms));
combos = nchoosek(1:nFields,2);
nCombos = nchoosek(nFields,2);
% Index the struct by index instead of field name
fns = fieldnames(prisms);
%% Check for overlap between each pair of classes
for ic = 1:nCombos
x11 = prisms.(fns{combos(ic,1)}).x(1);
x12 = prisms.(fns{combos(ic,1)}).x(2);
y11 = prisms.(fns{combos(ic,1)}).y(1);
y12 = prisms.(fns{combos(ic,1)}).y(2);
z11 = prisms.(fns{combos(ic,1)}).z(1);
z12 = prisms.(fns{combos(ic,1)}).z(2);
x21 = prisms.(fns{combos(ic,2)}).x(1);
x22 = prisms.(fns{combos(ic,2)}).x(2);
y21 = prisms.(fns{combos(ic,2)}).y(1);
y22 = prisms.(fns{combos(ic,2)}).y(2);
z21 = prisms.(fns{combos(ic,2)}).z(1);
z22 = prisms.(fns{combos(ic,2)}).z(2);
if( (x12>x21 && y12>y21 && z12>z21) || (x21>x12 && y21>y12 && z21>z12) )
% There is either overlap, or the edge of classes align
% Check for overlap in x
if( ((x12>=x21) && (x11<=x22)) || ((x11<=x22) && (x21<=x21)) )
if((x21==x12) || (x11==x22))
continue;
else
fprintf('Overlap in x between %s and %s\n', fns{combos(ic,1)}, fns{combos(ic,2)});
fprintf(' Limits for %s x: [%g %g]\n', fns{combos(ic,1)}, x11, x12);
fprintf(' Limits for %s x: [%g %g]\n', fns{combos(ic,2)}, x21, x22);
end
end
% Check for overlap in y
if( ((y12>=y21) && (y11<=y22)) || ((y11<=y22) && (y21<=y21)) )
if((y21==y12) || (y11==y22))
continue;
else
fprintf('Overlap in y between %s and %s\n', fns{combos(ic,1)}, fns{combos(ic,2)});
fprintf(' Limits for %s y: [%g %g]\n', fns{combos(ic,1)}, y11, y12);
fprintf(' Limits for %s y: [%g %g]\n', fns{combos(ic,2)}, y21, y22);
end
end
% Check for overlap in z
if( ((z12>=z21) && (z11<=z22)) || ((z11<=z22) && (z21<=z21)) )
if((z21==z12) || (z11==z22))
continue;
else
fprintf('Overlap in z between %s and %s\n', fns{combos(ic,1)}, fns{combos(ic,2)});
fprintf(' Limits for %s z: [%g %g]\n', fns{combos(ic,1)}, z11, z12);
fprintf(' Limits for %s z: [%g %g]\n', fns{combos(ic,2)}, z21, z22);
end
end
end
end
I just can't get the last part which will identify where the gaps happen. I think I can modify the above code to push this function across the finish line, but I need some help.
  댓글 수: 3
이전 댓글 1개 표시
Alex
Alex 2025년 5월 15일
편집: Alex 2025년 5월 15일
I define a gap as any location in the box that isn't filled by a prism. If two prisms touch at their edges, like how p1 and p5's x ranges touch, I don't count that as an overlap.
prisms.p1.x = [75 200];
prisms.p5.x = [200 1000];
% No gap or overlap here since p1 ends at 200 and p5 starts at 200.
Alex
Alex 2025년 5월 15일
However, if two prisms don't touch, then there is a gap. A prism doesn't have to be touched on every axis to form a gap.
prisms.p1.x = [75 200];
prisms.p5.x = [200 1000];
% No gap here since p1 ends at 200 and p5 starts at 200.
prisms.p1.x = [75 199];
prisms.p5.x = [200 1000];
% There is a gap here since the values between 199 and 200 aren't filled
% in.

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답변 (2개)

Matt J
Matt J 2025년 5월 15일
편집: Matt J 2025년 5월 15일
If you can get R2025a with the PDE Toolbox, you gain access to tools that are very well-suited to this problem. In particular with subtract(),
https://www.mathworks.com/help/pde/ug/fegeometry.subtract.html
and union(),
https://www.mathworks.com/help/pde/ug/fegeometry.union.html
you can subtract the union of cuboids from a solid box, thus exposing the cavities.
  댓글 수: 2
Alex
Alex 2025년 5월 15일
Oh wow, that's interesting. I was hoping to port this into Python and going down this route might make that very difficult. I'll try this out regardless, as it looks like a great tool.
Matt J
Matt J 2025년 5월 15일
I don't think it should be hard, e.g.,
%MATLAB
function model = buildBricksModel(boxDims, bricks)
% buildBricksModel(boxDims, bricks)
% boxDims = [L, W, H] of the main box
% bricks = struct array with fields: x, y, z, w, h, d
% where (x, y, z) is the corner, and w/h/d are dimensions
model = createpde();
box = multicuboid(boxDims(1), boxDims(2), boxDims(3));
% Convert bricks to geometry objects
brickSolids = [];
for i = 1:length(bricks)
b = bricks(i);
% Create and position the brick
brick = multicuboid(b.w, b.h, b.d);
brick = translate(brick, [b.x + b.w/2, b.y + b.h/2, b.z + b.d/2]);
brickSolids = [brickSolids, brick];
end
% Union all bricks
if ~isempty(brickSolids)
brickUnion = brickSolids(1);
for i = 2:length(brickSolids)
brickUnion = union(brickUnion, brickSolids(i));
end
gm = subtract(box, brickUnion);
else
gm = box;
end
% Assign geometry
model.Geometry = gm;
% Optional: generate mesh here
% generateMesh(model);
end
#PYTHON
import matlab.engine
# Start MATLAB engine
eng = matlab.engine.start_matlab()
# Define box dimensions (length, width, height)
box_dims = [100, 100, 100]
# Define list of bricks
brick_data = [
{"x": 10, "y": 10, "z": 10, "w": 30, "h": 30, "d": 30},
{"x": 50, "y": 20, "z": 20, "w": 20, "h": 40, "d": 20},
{"x": 10, "y": 60, "z": 10, "w": 40, "h": 30, "d": 30}
]
# Convert to MATLAB struct array
brick_structs = []
for b in brick_data:
brick_structs.append(eng.struct(**{
"x": b["x"], "y": b["y"], "z": b["z"],
"w": b["w"], "h": b["h"], "d": b["d"]
}))
brick_matlab_array = matlab.struct([brick_structs]) # wrap as MATLAB struct array
# Call MATLAB function
eng.cd('path/to/your/matlab/scripts') # Update to correct path
model = eng.buildBricksModel(box_dims, brick_matlab_array, nargout=1)
# Optional: visualize in MATLAB
eng.eval("pdegplot(model, 'FaceAlpha', 0.5, 'FaceLabels', 'on')", nargout=0)

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Matt J
Matt J 2025년 5월 15일
편집: Matt J 2025년 5월 15일
Ran in:
Does a "gap" not occur whenever the two prisms being compared neither touch, nor overlap? If so, why not as below?
% Fit the following rectangular prisms in a box:
prism(1).x = [75 200]; % Min/max of x range for prism 1
prism(1).y = [4 100]; % Min/max of y range for prism 1
prism(1).z = [1e3 1e4]; % Min/max of z range for prism 1
prism(2).x = [20 80];
prism(2).y = [0.1 2.2];
prism(2).z = [0 1e3];
prism(3).x = [80 115];
prism(3).y = [0.1 4];
prism(3).z = [0 1e3];
prism(4).x = [20 180];
prism(4).y = [2.2 8];
prism(4).z = [0 1e3];
prism(5).x = [200 1000];
prism(5).y = [0 1];
prism(5).z = [0 1e4];
ij=nchoosek(1:5,2);
clear contactType
for k=height(ij):-1:1
i=ij(k,1);
j=ij(k,2);
contactType(k,1)=comparePrisms(prism(i),prism(j));
end
T=table(ij,contactType)
T = 10x2 table
ij contactType ______ _____________ 1 2 "unconnected" 1 3 "touching" 1 4 "touching" 1 5 "unconnected" 2 3 "touching" 2 4 "touching" 2 5 "unconnected" 3 4 "overlapping" 3 5 "unconnected" 4 5 "unconnected"
function contactType=comparePrisms(pa,pb)
f=@(a,b) any(b(1)<=a & a<=b(2));
f=@(a,b) f(a,b) | f(b,a);
Q(1)=f(pa.x,pb.x);
Q(2)=f(pa.y,pb.y);
Q(3)=f(pa.z,pb.z);
f=@(q) numel(unique(q));
N(1)=f([pa.x,pb.x]);
N(2)=f([pa.y,pb.y]);
N(3)=f([pa.z,pb.z]);
if all(Q) && ~any(N==3)
contactType="overlapping"; %prisms intersect with positive volume
elseif all(Q) && any(N==3)
contactType="touching"; %prisms intersect, but with zero volume
else
contactType="unconnected"; %prisms do not intersect
end
end
  댓글 수: 12
이전 댓글 10개 표시
Alex
Alex 2025년 5월 15일
It's possible - I was also thinking about using a 3D grid of finely spaced points and just seeing if any of them fall in either multiple prisms, or no prisms. I figured I'd go for gold and try something more mathematically-based first.
Alex
Alex 2025년 5월 15일
편집: Alex 2025년 5월 15일
For the record, the initial code that I posted doesn't work with this new set of prisms; it reports too many overlaps.

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