Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to visualize a soft clustering. There are a number of points and a small number of clusters, each point belongs to each cluster with some probability.

Currently, I'm overlaying a scatterplot for each cluster, with the size of 'o' markers varying by the probability. This allows easy identification of the most probable cluster, but not much beyond that.

I'd like to draw a scatterplot of pie charts, i.e. one small pie chart for each of the many data points, showing these probabilities. Is that possible in Matlab? I haven't found a way to draw pies as markers or place multiple pie charts at arbitrary positions in one plot…

share|improve this question

2 Answers 2

up vote 4 down vote accepted

As a first attempt, I managed to draw the pie charts at each point using only two LINE graphic objects: one for the circles, and one for the divisions inside the circles. Thus we are just plotting unfilled pie charts.

This is very efficient in terms of performance. It is achieved by using NaN to separate the lines into segments. Compare this to the other proposed solution; if we look at its source code, we find that it creates one axis for every single point, and calls MATLAB's function PIE inside it.

We start with some data points along with their "fuzzy clustering":

numPoints = 15; numClasses = 5;

%# random 2D points
points = randn(numPoints,2);

%# fuzzy clustering: probabilistic distribution
prob = rand(numPoints,numClasses);
prob = bsxfun(@rdivide, prob, sum(prob,2));

Now here is the code to plot a scatter of pie charts:

%# pie parameters
theta = linspace(0, 2*pi, 100); %# steps to approximate a circle
r = min(range(points)) / 10;    %# radius (determined based on points spread)

%# pie circles
px = bsxfun(@plus, cos(theta).*r, points(:,1))';
py = bsxfun(@plus, sin(theta).*r, points(:,2))';
px(end+1,:) = NaN; py(end+1,:) = NaN;

%# pie divisions
tt = cumsum(prob,2) .* 2*pi;
qx = cat(3, ...
    bsxfun(@plus, cos(tt).*r, points(:,1)), ...
    repmat(points(:,1), [1 numClasses]), ...
    NaN(numPoints,numClasses));
qy = cat(3, ...
    bsxfun(@plus, sin(tt).*r, points(:,2)), ...
    repmat(points(:,2), [1 numClasses]), ...
    NaN(numPoints,numClasses));
qx = permute(qx, [3 2 1]); qy = permute(qy, [3 2 1]);

%# plot
figure
line(px(:), py(:), 'Color','k')
line(qx(:), qy(:), 'Color','k')
axis equal

screenshot1


In my second attempt, I managed to plot colored pie charts by using PATCH function to draw each slice in every circle. Obviously, this implies we are creating a lot more graphics objects compared to before...

We could have used the same NaN technique to plot same slice from every circle using a single PATCH call, but it proved problematic when the pie charts overlap (specifically the z-order was not correct).

clr = hsv(numClasses);          %# colors for each class
r = min(range(points)) / 10;    %# radius (determined based on points spread)
tt = cumsum(prob,2) .* 2*pi;    %# pie divisions

figure
h = zeros(numPoints,numClasses);    %# handles to patches
for idx=1:numPoints                 %# for each point
    for k=1:numClasses              %# for each class
        %# start/end angle of arc
        if k>1
            t(1) = tt(idx,k-1);
        else
            t(1) = 0;
        end
        t(2) = tt(idx,k);

        %# steps to approximate an arc from t1 to t2
        theta = linspace(t(1), t(2), 50);

        %# slice (line from t2 to center, then to t1, then an arc back to t2)
        x = points(idx,1) + r .* [cos(t(2)) ; 0 ; cos(t(1)) ; cos(theta(:))];
        y = points(idx,2) + r .* [sin(t(2)) ; 0 ; sin(t(1)) ; sin(theta(:))];
        h(idx,k) = patch('XData',x, 'YData',y, ...
            'FaceColor',clr(k,:), 'EdgeColor','k');

        %# show percentage labels
        ind = fix(numel(theta)./2) + 3;     %# middle of the arc
        text(x(ind), y(ind), sprintf('%.2f%%', prob(idx,k)*100), ...
            'Color','k', 'FontSize',6, ...
            'VerticalAlign','middle', 'HorizontalAlign','left');
    end
end
axis equal

labels = cellstr( num2str((1:numClasses)', 'Cluster %d') );
legend(h(1,:), labels)

screenshot2

If the percentage labels are too much, simply remove the TEXT call above.

share|improve this answer
    
Great! I had to use set(gcf, 'Renderer', 'painters'); or the lines would be on top of everything. –  pascal Jun 18 '12 at 13:36
    
@Amro: I suggest you to make it a FileExchange submission. It could become the "Peak of the Week" easily if done properly with input-output arguments, error handling, etc. Such function is really missing in MATLAB. The BubblePie uses individual axes for each pie and has many other issues. Good luck! –  yuk Jun 27 '13 at 14:32
    
One suggestion: make the circles' radius r depending on sum(prob,2) (for initial probs). –  yuk Jun 27 '13 at 14:38
    
@yuk: thanks, maybe I'll just do that (I always wanted to submit a few of my custom files to FEX but never got around to create a clean API to the functions). You are also welcome to do so if you'd like, after all contributions on SO are licensed under cc-by-sa, so adding an attribution link to this post should be enough (sort of like the "inspired by" feature on FEX) –  Amro Jun 28 '13 at 15:59

The Bubble Pie by Abraham Anderson on Matlab File Exchange seems like something relevant to what you are describing.

enter image description here

share|improve this answer
    
Ah thanks, didn't know about the File Exchange. It's a bit too slow for comfortably plotting hundreds of data points this way though. –  pascal Jun 18 '12 at 13:32

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.