# How to plot in circle instead of straight line axis in Matlab?

I have a set of 3 datasets which I want to plot in MATLAB, but the 'x' axis, I want to give in the form of a circle instead of of straight bottom line. Any idea on how to do it?

An example plot:

The normal command for plotting in MATLAB is `plot(x, data1, x data2, x, data3)`, in that the x axis is taken as the straight line. I want the x axis taken as a circle. Does anyone know the command for it please.

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Do you want a polar plot? mathworld.wolfram.com/PolarPlot.html. Your link doesn't work. – Alok Singhal Feb 3 '10 at 8:12

@Alok asks if you want a polar plot. I tell you that you do want a polar plot ! See the Matlab documentation for the function `polar()` and its relations, such as `cart2pol`. Depending on your exact requirements (I haven't followed your link) you may find it relatively easy or quite difficult to produce exactly the plot you want.

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The following is a complete example to show how to map the data from a line axis to a circle.

I show two ways of achieving the goal:

• one where the three data series are overlapping (i.e all mapped to the same range)
• the other option is to draw them superimposed (on different adjacent ranges)

The basic idea: if you have a series `D`, then map the points to a circle where the radius is equal to the values of the data using:

``````theta = linspace(0, 2*pi, N);    %# divide circle by N points (length of data)
x = r.*cos(theta);               %# x-coordinate
y = r.*sin(theta);               %# y-coordinate
plot(x, y, '-');
``````

### Option 1

``````%# some random data
K = 3;
N = 30;
data = zeros(K,N);
data(1,:) = 0.2*randn(1,N) + 1;
data(2,:) = 0.2*randn(1,N) + 2;
data(3,:) = 0.2*randn(1,N) + 3;

center = [0 0];                        %# center (shift)
radius = [data data(:,1)];             %# added first to last to create closed loop

figure, hold on

%# draw outer circle
theta = linspace(5*pi/2, pi/2, 500)';  %# 'angles
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
plot(x, y, 'k:');

%# draw mid-circles
theta = linspace(5*pi/2, pi/2, 500)';  %# 'angles
num = 5;                               %# number of circles
for k=1:num
r = rr(k+1);
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
plot(x, y, 'k:');
end

%# draw labels
theta = linspace(5*pi/2, pi/2, N+1)';    %# 'angles
theta(end) = [];
r = r + r*0.2;                           %# shift to outside a bit
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
str = strcat(num2str((1:N)','%d'),{});   %# 'labels
text(x, y, str, 'FontWeight','Bold');

%# draw the actual series
theta = linspace(5*pi/2, pi/2, N+1);
h = zeros(1,K);
clr = hsv(K);
for k=1:K
h(k) = plot(x(:,k), y(:,k), '.-', 'Color', clr(k,:), 'LineWidth', 2);
end

%# legend and fix axes
legend(h, {'M1' 'M2' 'M3'}, 'location', 'SouthOutside', 'orientation','horizontal')
hold off
axis equal, axis([-1 1 -1 1] * r), axis off
``````

### Option 2

``````%# some random data
K = 3;
N = 30;
data = zeros(K,N);
data(1,:) = 0.2*randn(1,N) + 1;
data(2,:) = 0.2*randn(1,N) + 2;
data(3,:) = 0.2*randn(1,N) + 3;

center = [0 0];                                %# center (shift)
radius = [data data(:,1)];                     %# added first to last to create closed loop

figure, hold on

%# draw outer circle
theta = linspace(5*pi/2, pi/2, 500)';   %# 'angles
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
plot(x, y, 'k:');

%# draw mid-circles
theta = linspace(5*pi/2, pi/2, 500)';  %# 'angles
for k=1:K
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
plot(x, y, 'k:');
r=r+2;             %# increment radius for next circle
end

%# draw labels
theta = linspace(5*pi/2, pi/2, N+1)';    %# 'angles
theta(end) = [];
r = r + r*0.2;                           %# shift to outside a bit
x = r*cos(theta)+center(1);
y = r*sin(theta)+center(2);
str = strcat(num2str((1:N)','%d'),{});   %# 'labels
text(x, y, str, 'FontWeight','Bold');

%# draw the actual series
theta = linspace(5*pi/2, pi/2, N+1);
h = zeros(1,K);
clr = hsv(K);
for k=1:K
h(k) = plot(x(:,k), y(:,k), '.-', 'Color', clr(k,:), 'LineWidth', 2);
end

%# legend and fix axes
legend(h, {'M1' 'M2' 'M3'}, 'location', 'SouthOutside', 'orientation','horizontal')
hold off
axis equal, axis([-1 1 -1 1] * r), axis off
``````

I should mention that `normalize()` is a custom function, it simply performs minmax normalization (`(x-min)/(max-min)`) defined as:

``````function newData = normalize(data, type)
[numInst numDim] = size(data);
e = ones(numInst, 1);
minimum = min(data);
maximum = max(data);
range = (maximum - minimum);

if type == 1
%# minmax normalization: (x-min)/(max-min)   =>   x in [0,1]
newData = (data - e*minimum) ./ ( e*(range+(range==0)) );
end

%# (...)
end
``````
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You're kind of reinventing the wheel here...polar() does most of what you want. – Alex Feinman Apr 12 '10 at 14:02
I think my intent was to produce a very similar plot to the one given by the OP. Also even if you use POLAR(), you will still have to figure out how to scale/shift the data correctly since POLAR always maps it to the entire range from the center to the outer circle... – Amro Apr 12 '10 at 17:08

You can find here all available MATLAB 2-D and 3-D plot functions.

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Sorry, if it may be not a proper answer to your question (you already have plenty). I recently found very powerful tool to plot on circle - CIRCOS: http://mkweb.bcgsc.ca/circos/ Have a look, figures are really amazing. It's not Matlab-based, but Perl, and it's free. May be you will find it useful.

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