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surprisingly I didn't find a straight-forward description on how to draw a circle with matplotlib.pyplot (please no pylab) taking as input center (x,y) and radius r. I tried some variants of this:

import matplotlib.pyplot as plt
# here must be something like circle.plot() or not?

... but still didn't get it working.

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I'm sure it's possible to do this, but matplotlib is aimed mainly at plotting (i.e. here are some data, put them on a graph), not drawing, so it might not be entirely straightforward. –  Thomas K Feb 9 '12 at 17:41
Radius of scatterplot points is increasingly used to visualize data. Google charts calls them "bubble plots". Gapminder.org is a good exmaple. This is plotting, not drawing. I searched the matplotlib github repo for "bubble" and "scatter radius" to no avail, so I don't think this is on the to-do list as far as adding a feature. –  BBrown May 2 '14 at 16:04
plt.scatter() does take a size argument. You can pass lists for the x- and y-coordinates of circles, the circles' radii, and the circles' colors. matplotlib.org/1.3.1/api/… . My error earlier, in thinking that such functionality was not already in matplotlib. –  BBrown May 6 '14 at 15:15

5 Answers 5

up vote 40 down vote accepted

You need to add it to an axes. A Circle is a subclass of an Artist, and an axes has an add_artist method.

Here's an example of doing this:

import matplotlib.pyplot as plt
fig = plt.gcf()

This results in the following figure:

enter image description here

The first circle is at the origin, but by default clip_on is True, so the circle is clipped when ever it extends beyond the axes. The third (green) circle shows what happens when you don't clip the Artist. It extends beyond the axes (but not beyond the figure, ie the figure size is not automatically adjusted to plot all of your artists).

The units for x, y and radius correspond to data units by default. In this case, I didn't plot anything on my axes (fig.gca() returns the current axes), and since the limits have never been set, they defaults to an x and y range from 0 to 1.

Here's a continuation of the example, showing how units matter:

# now make a circle with no fill, which is good for hilighting key results
ax = plt.gca()
ax.cla() # clear things for fresh plot
# change default range so that new circles will work
# some data
# key data point that we are encircling


which results in:

enter image description here

You can see how I set the fill of the 2nd circle to False, which is useful for encircling key results (like my yellow data point).

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I like this answer because you're "drawing" a circle, rather than plotting. Though plotting would have been my first instinct too. –  samb8s Feb 9 '12 at 18:42
Why do artists like Ellipse not respect pylab.ion() or matplotlib.interactive(True)? E.g., a call to xlabel() (after calling ion() or interactive(True)) updates the figure immediately, but anything involving these Ellipse objects requires an explicit pylab.show() or matplotlib.show(). –  Ahmed Fasih May 29 '13 at 13:45
FYI: It looks like the Circle class has moved from matplotlib.pyplot to matplotlib.patches since this answer was written. –  pavon Dec 17 '13 at 19:51
import matplotlib.pyplot as plt

A quick condensed version of the accepted answer, that suited my need to quickly plug a circle into an existing plot. Refer to the accepted answer and other answers to understand the details.

By the way:

  • gcf() means Get Current Figure
  • gca() means Get Current Axis
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If you want to plot a set of circles, you might want to see this. The post offered a function named circles.

The function circles works like scatter, but the sizes of plotted circles are in data unit.

Here's an example:

from pylab import *

#plot one circle (the biggest one on bottom-right)
circles(1, 0, 0.5, 'r', alpha=0.2, lw=5, edgecolor='b', transform=ax.transAxes)

#plot a set of circles (circles in diagonal)
out = circles(a, a, a*0.2, c=a, alpha=0.5, edgecolor='none')


enter image description here

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Use the scatter() method. http://matplotlib.org/1.3.1/api/pyplot_api.html#matplotlib.pyplot.scatter

import matplotlib.pyplot as plt
r=[100,80, 60, 40, 20] # in points, not data units
fig, ax = plt.subplots(1,1)
ax.scatter(x, y, s=r)

enter image description here

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import matplotlib.pyplot as plt
import numpy as np

def xy(r,phi):
  return r*np.cos(phi), r*np.sin(phi)

fig = plt.figure()
ax = fig.add_subplot(111,aspect='equal')  

r =1.
ax.plot( *xy(r,phis), c='r',ls='-' )

Or, if you prefer, look at the paths, http://matplotlib.sourceforge.net/users/path_tutorial.html

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