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 am using Octave, which free pseudo-MATLAB. My problem is this: I want to fill the bubbles of my scatter plot, as well as place a legend. But I get errors when I try to use 'filled,' and no legend comes up when I use legend(...). Part of my code looks like this:

%ALL SAMPLES, PHI(Signal) @ THETA(Sample)=0
plot( Angles(:,1)([18:27]),  ALL([18:27]), 10, [1 0 1]);  %Magenta
hold on 
scatter(Angles(:,1)([68:76]), ALL([68:76]), 10, [0 0 0]);   %Black
scatter(Angles(:,1)([86:95]), ALL([86:95]), 10, [1 0 0]);   %Red
scatter(Angles(:,1)([119:127]), ALL([119:127]), 10, [0 1 0]);   %Green
scatter(Angles(:,1)([133:141]), ALL([133:141]), 10, [0 0 1]);   %Blue
hold off
xlabel('Signal PMT angle (Sample angle at 0)'); 
ylabel('Normalized (signal/monitor) intensity');
legend('Control', 'Control', '1+2','Virgin','Cycle #1', 'Location','NorthEast');
title('Plot of All Samples, "-int Intensity"')

I know it should beplot( Angles(:,1)([18:27]), ALL([18:27]), 10, [1 0 1], 'filled');, but I receive errors when I do that. Also, a legend never seems to show up.

Thank you in advance.

share|improve this question

2 Answers 2

The following works for me:

n = 100;
x = randn(n, 1);
y = randn(n, 1);
S = rand(n, 1)*20;
hold on
scatter(x(1:50), y(1:50), S(1:50), "red", "filled")
scatter(x(51:100), y(51:100), S(51:100), "green", "filled")
hold off
print('-depsc', 'bubbleplot.eps');

enter image description here

However, I'm not able to add a legend, and I didn't find any bug report or indication of a missing functionality for this. So, as an alternative, I would suggest adding marker and text to your plot.

share|improve this answer

Apparently there is a problem with using legend with scatter in Octave. Based on this post:


the trick is to use the plot function to make scatter plot. I wrote the following function for plotting a bunch of scatter plots on the same axis.

This function takes in a bunch of cell arrays of the same length. Each element of the cell array corresponds to a separate series. The function returns a cell array of the same length containing the handle associated with each plot. The arguments of the function are explained below:

x_vals: a cell array of arrays of doubles corresponding to x values.

y_vals: a cell array of arrays of doubles corresponding to y values.

sizes: a cell array of doubles representing the size of the markers.

colors: a cell array of double arrays of length 3, representing [R, G, B] color values of the markers.

styles: a cell array of strings representing the shape of the markers.

    function [handles] = scatter_series_set(x_vals, y_vals, sizes, colors, styles)

        N = length(x_vals);

        if ( (~ ( N == length(y_vals))) || (~ ( N == length(sizes)))  || ...
             (~ ( N == length(colors))) || (~ ( N == length(styles))) )
            error('scatter_series_set: all arguments must be cell arrays of the same length');

        %plot the first series
        handles = cell([N, 1]);
        handles{1} = plot(x_vals{1}, y_vals{1});
        set(handles{1}, 'linestyle', 'none');
        set(handles{1}, 'marker', styles{1});
        set(handles{1}, 'markersize', sizes{1});
        set(handles{1}, 'color', colors{1});

        %plot additional series if present
        if N > 1
            hold on;
            for ind = 2:N
                handles{ind} = plot(x_vals{ind}, y_vals{ind});
                set(handles{ind}, 'linestyle', 'none');
                set(handles{ind}, 'marker', styles{ind});
                set(handles{ind}, 'markersize', sizes{ind});
                set(handles{ind}, 'color', colors{ind});
            hold off;

The following example demonstrates how to use this function.

x1 = 0:(2*pi/100):(2*pi);
x2 = 2*x1;
y1 = sin(x1);
y2 = cos(x1);
y3 = sin(x2);
y4 = cos(x2);
names = {'a', 'b', 'c', 'd'};

x_vals = {x1, x1, x1, x1};
y_vals = {y1, y2, y3, y4};
sizes  = {10, 10, 10, 10};
colors = {[1, 0, 0], [0, 0, 1], [0, 0, 0], [0.7071, 0, 0.7071]};
styles = {'^', 's', 'x', '+'}

scatter_series_set(x_vals, y_vals, sizes, colors, styles);

legend(names, 'location', 'southeast');

The example code produces the following plot:

Scatter plot generated by the example code.

share|improve this answer

Your Answer


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.