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In Matlab you can draw a circle by just specifying the center and the radius like this:

R = 10;
Center = [5,8];
hold on

The same code for MatLab won't work for GNU Octave. What octave code would draw a circle given a center x,y coordinates and a radius?

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5 Answers 5

up vote 8 down vote accepted
t = linspace(0,2*pi,100)'; 
circsx = r.*cos(t) + x; 
circsy = r.*sin(t) + y; 
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can you provide a complete example also stating the version of octave you are using? – simpatico Nov 1 '11 at 21:43
a complete example for Octave 3.2.4: This is how it looks like: – simpatico Nov 2 '11 at 11:22
Thumbs up, a cool way to a circle! – Oz123 Nov 18 '11 at 12:48

If you would like a reusable function, here's one possibility:

function [h, hc] = circles(x,y,r,cmrk)
% CIRCLES   plot 2-D circles, given a set of center coordinates and radii.
% Description:
%   Plot 2-D circles, given a set of center coordinates and radii. Values
%   can be vectors or matrices, as long as dimensions are consistent. If
%   a marker type (e.g. '+') is also given, circle centers will be marked
%   with it. The function returns a vector of handles for each circle and
%   a handle for all the center markers, if plotted.

assert(size(x)==size(y), 'Mismatching sizes')
assert(size(y)==size(r), 'Mismatching sizes')

if (nargin==4)
    hc = scatter(x,y,[],[],cmrk);
axis([min(x-r) max(x+r) min(y-r) max(y+r)], 'equal');

a = linspace(0, 2*pi, 12);
dx = sin(a); dy = cos(a);
hold on
for i=1:numel(x);
    h(i) = line(x(i)+dx*r(i), y(i)+dy*r(i));
hold off

Here's an example of usage:

x = 0:.1:2*pi; y = sin(x); r = rand(size(x))*.3;
circles(x, y, r, '+')
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why not contribute this function to Octave? It's well written and may be useful for future users. I would just rename it to be compatible with Matlab. – juliohm Dec 3 '13 at 9:21

Plot a circle in GNU Octave:

x = -3:0.01:3;
y = (4 - x .^ 2) .^ 0.5;
figure; plot(x,y); hold on; plot(x,-y);

That should draw a circle having an equation x^2 + y^2 = 4;

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How to draw a circle in gnu octave version 3.8:

enter image description here


octave> x = -1:0.01:1;
octave> y = (1 - x .^ 2) .^ 0.5;
octave> plot(x,y, "linewidth", 4, x,-y, "linewidth", 4);


Create a list between -1 and 1 in increments of .01 to represent the x axis. The y axis is the diameter of the circle minus the value at each index of x squared, all raised to the 0.5.

Plot x and y (blue), which gives the upper half of the circle, then plot x to -y, which inverts the top (green), creating the bottom half of the circle.

Alternatively, use linspace:

enter image description here


octave> r = 1;
octave> t = linspace(0,2.*pi,1);
octave> circsx = r.*cos(t) + x;
octave> circsy = r.*sin(t) + y;
octave> plot(circsx,circsy, "linewidth", 4, circsx, -circsy, "linewidth", 4); 


Draws a circle.

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Using the octave extra package octave-geometry you can use the function drawCircle as

drawCircle(x_position, y_position, radius)
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