# Matlab, generate and plot a point cloud distributed within a triangle

I'm trying to generate a cloud of 2D points (uniformly) distributed within a triangle. So far, I've achieved the following:

The code I've used is this:

``````N = 1000;
X = -10:0.1:10;
for i=1:N
j = ceil(rand() * length(X));
x_i = X(j);
y_i = (10 - abs(x_i)) * rand;

E(:, i) = [x_i y_i];
end
``````

However, the points are not uniformly distributed, as clearly seen in the left and right corners. How can I improve that result? I've been trying to search for the different shapes too, with no luck.

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You should first ask yourself what would make the points within a triangle distributed uniformly.

To make a long story short, given all three vertices of the triangle, you need to transform two uniformly distributed random values like so:

``````N = 1000;                    % # Number of points
V = [-10, 0; 0, 10; 10, 0];  % # Triangle vertices, pairs of (x, y)
t = sqrt(rand(N, 1));
s = rand(N, 1);
P = (1 - t) * V(1, :) + bsxfun(@times, ((1 - s) * V(2, :) + s * V(3, :)), t);
``````

This will produce a set of points which are uniformly distributed inside the specified triangle:

``````scatter(P(:, 1), P(:, 2), '.')
``````

Note that this solution does not involve repeated conditional manipulation of random numbers, so it cannot potentially fall into an endless loop.

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Kudos for this nice answer +1! –  Shai Dec 24 '12 at 13:47

That concentration of points would be expected from the way you are building the points. Your points are equally distributed along the X axis. At the extremes of the triangle there is approximately the same amount of points present at the center of the triangle, but they are distributed along a much smaller region.

The first and best approach I can think of: brute force. Distribute the points equally around a bigger region, and then delete the ones that are outside the region you are interested in.

``````N = 1000;
points = zeros(N,2);
n = 0;
while (n < N)
n = n + 1;
x_i = 20*rand-10; % generate a number between -10 and 10
y_i = 10*rand; % generate a number between 0 and 10
if (y_i > 10 - abs(x_i)) % if the points are outside the triangle
n = n - 1; % decrease the counter to try to generate one more point
else % if the point is inside the triangle
points(n,:) = [x_i y_i]; % add it to a list of points
end
end

% plot the points generated
plot(points(:,1), points(:,2), '.');
title ('1000 points randomly distributed inside a triangle');
``````

The result of the code I've posted:

one important disclaimer: Randomly distributed does not mean "uniformly" distributed! If you generate data randomly from an Uniform Distribution, that does not mean that it will be "evenly distributed" along the triangle. You will see, in fact, some clusters of points.

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Manually altering the iteration variable of a for loop in MATLAB is not a good idea. I don't think that this behaves like you're expecting it to. –  Eitan T Dec 24 '12 at 12:56
@Castilho - In matlab you cannot change the loop variable inside a `for` loop. Try the following `for ii=1:2, ii=1, end;` this loop will be executed only twice and will not result with an infinite loop. –  Shai Dec 24 '12 at 12:57
the code above works at Matlab R2011a, as proven by the plot. test it ;) –  Castilho Dec 24 '12 at 12:59
Yes, the loop can be changed easily to use a while loop. For was the first approach because it is easier to write. From my experience, you can change the loop variable inside it, provided there is no nested loop. But I'll change the code to a while loop as it is indeed better. (p.s.: the code works for 5 points, 1000 points and 100000 points) –  Castilho Dec 24 '12 at 13:05
You are right, the loop does not get repeated. Thanks for pointing that out. Lesson learned :) blogs.mathworks.com/loren/2006/07/19/how-for-works –  Castilho Dec 24 '12 at 13:20
show 1 more comment

You can imagine that the triangle is split vertically into two halves, and move one half so that together with the other it makes a rectangle. Now you sample uniformly in the rectangle, which is easy, and then move the half triangle back.

Also, it's easier to work with unit lengths (the rectangle becomes a square) and then stretch the triangle to the desired dimesions.

``````x = [-10 10]; % //triangle base
y = [0 10]; % //triangle height
N = 1000; %// number of points

points = rand(N,2); %// sample uniformly in unit square
ind = points(:,2)>points(:,1); %// points to be unfolded
points(ind,:) = [2-points(ind,2) points(ind,1)]; %// unfold them
points(:,1) = x(1) + (x(2)-x(1))/2*points(:,1); %// stretch x as needed
points(:,2) = y(1) + (y(2)-y(1))*points(:,2); %// stretch y as needed
plot(points(:,1),points(:,2),'.')
``````

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