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miSim/geometries/rectangularPrism.m

142 lines
5.1 KiB
Matlab
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classdef rectangularPrism
% Rectangular prism geometry
properties (SetAccess = private, GetAccess = public)
tag = REGION_TYPE.INVALID;
label = "";
minCorner = NaN(1, 3);
maxCorner = NaN(1, 3);
dimensions = NaN(1, 3);
center = NaN;
vertices = NaN(8, 3);
footprint = NaN(4, 2);
end
methods (Access = public)
function obj = initialize(obj, bounds, tag, label)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
bounds (2, 3) double;
tag (1, 1) REGION_TYPE = REGION_TYPE.INVALID;
label (1, 1) string = "";
end
arguments (Output)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
end
obj.tag = tag;
obj.label = label;
%% Define geometry bounds by LL corner and UR corner
obj.minCorner = bounds(1, 1:3);
obj.maxCorner = bounds(2, 1:3);
% Compute L, W, H
obj.dimensions = [obj.maxCorner(1) - obj.minCorner(1), obj.maxCorner(2) - obj.minCorner(2), obj.maxCorner(3) - obj.minCorner(3)];
% Compute center
obj.center = obj.minCorner + obj.dimensions ./ 2;
% Compute vertices
obj.vertices = [obj.minCorner;
obj.maxCorner(1), obj.minCorner(2:3);
obj.maxCorner(1:2), obj.minCorner(3);
obj.minCorner(1), obj.maxCorner(2), obj.minCorner(3);
obj.minCorner(1:2), obj.maxCorner(3);
obj.maxCorner(1), obj.minCorner(2), obj.maxCorner(3);
obj.minCorner(1), obj.maxCorner(2:3)
obj.maxCorner;];
% Compute footprint
obj.footprint = [obj.minCorner(1:2); ...
[obj.minCorner(1), obj.maxCorner(2)]; ...
[obj.maxCorner(1), obj.minCorner(2)]; ...
obj.maxCorner(1:2)];
end
function r = random(obj)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
end
arguments (Output)
r (1, 3) double
end
r = (obj.vertices(1, 1:3) + rand(1, 3) .* obj.vertices(8, 1:3) - obj.vertices(1, 1:3))';
end
function d = distance(obj, pos)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
pos (:, 3) double;
end
arguments (Output)
d (:, 1) double
end
cPos = NaN(1, 3);
for ii = 1:3
if pos(ii) < obj.minCorner(ii)
cPos(ii) = obj.minCorner(ii);
elseif pos(ii) > obj.maxCorner(ii)
cPos(ii) = obj.maxCorner(ii);
else
cPos(ii) = pos(ii);
end
end
d = norm(cPos - pos);
end
function d = interiorDistance(obj, pos)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
pos (:, 3) double;
end
arguments (Output)
d (:, 1) double
end
% find minimum distance to any face
d = min([pos(1) - obj.minCorner(1), ...
pos(2) - obj.minCorner(2), ...
pos(3) - obj.minCorner(3), ...
obj.maxCorner(1) - pos(1), ...
obj.maxCorner(2) - pos(2), ...
obj.maxCorner(3) - pos(3)]);
end
function c = contains(obj, pos)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
pos (:, 3) double;
end
arguments (Output)
c (:, 1) logical
end
c = all(pos >= repmat(obj.minCorner, size(pos, 1), 1), 2) & all(pos <= repmat(obj.maxCorner, size(pos, 1), 1), 2);
end
function f = plotWireframe(obj, f)
arguments (Input)
obj (1, 1) {mustBeA(obj, 'rectangularPrism')};
f (1, 1) {mustBeA(f, 'matlab.ui.Figure')} = figure;
end
arguments (Output)
f (1, 1) {mustBeA(f, 'matlab.ui.Figure')};
end
% Create axes if they don't already exist
f = firstPlotSetup(f);
edges = [1 2; 2 3; 3 4; 4 1; % bottom square
5 6; 6 8; 8 7; 7 5; % top square
1 5; 2 6; 3 8; 4 7]; % vertical edges
% Create plotting inputs from vertices and edges
X = [obj.vertices(edges(:,1),1), obj.vertices(edges(:,2),1)]';
Y = [obj.vertices(edges(:,1),2), obj.vertices(edges(:,2),2)]';
Z = [obj.vertices(edges(:,1),3), obj.vertices(edges(:,2),3)]';
% Plot the boundaries of the geometry
hold(f.CurrentAxes, "on");
plot3(X, Y, Z, '-', 'Color', obj.tag.color, 'LineWidth', 2);
hold(f.CurrentAxes, "off");
end
end
end
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