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I am trying to programmatically display various types of diagrams in pylab. pylab's scatter function displays markers at different co-ordinates in temrs of its axis, but the marker sizes are in terms of pixels. This makes sense for everyday graph plots. However, I want to give the co-ordinates and marker sizes in the same co-ordinates! e.g., the following code displays two circles at (0.0,0.0) and (0.5,0.5) with sizes of 20 each. These should overlap almost completely as the radius is much bigger than the distance between the centers. However, they don't because the sizes are in pixels while the positions are in terms of the axis coordinates.

import pylab
pylab.scatter([0,0.5], [0,0.5], s=20, c='b', marker='o')

Is there a way to make a scatter plot (or draw any shapes, lines etc.) with the sizes and positions given in the same co-ordinates? I am interested in a vector graphics output (pdf, svg etc.).

2 Answers 2

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The pylab.scatter function takes a value size based on the size in points^2. This size will be independent of the axes, as is the nature of a scatter plot (it doesn't make sense if you narrow in on a region in a scatter plot that the points get bigger).

If you want to say draw circles that are a given size, you should use the circle command in pylab

import pylab
axes = pylab.axes()
circle1 = pylab.Circle((0,0), radius=20, alpha=.5)
circle2 = pylab.Circle((0.5,0.5), radius=20, alpha=.5)
axes.add_patch(circle1)
axes.add_patch(circle2)
pylab.axis('scaled')
pylab.show()

If you need something with scatter plot like ability, you could do something like

import pylab
import matplotlib

def my_circle_scatter(axes, x_array, y_array, radius=0.5, **kwargs):
    for x, y in zip(x_array, y_array):
        circle = pylab.Circle((x,y), radius=radius, **kwargs)
        axes.add_patch(circle)
    return True

def my_square_scatter(axes, x_array, y_array, size=0.5, **kwargs):
    size = float(size)
    for x, y in zip(x_array, y_array):
        square = pylab.Rectangle((x-size/2,y-size/2), size, size, **kwargs)
        axes.add_patch(square)
    return True

def my_polygon_scatter(axes, x_array, y_array, resolution=5, radius=0.5, **kwargs):
    ''' resolution is number of sides of polygon '''
    for x, y in zip(x_array, y_array):
        polygon = matplotlib.patches.CirclePolygon((x,y), radius=radius, resolution=resolution, **kwargs)
        axes.add_patch(polygon)
    return True

axes=pylab.axes()
my_circle_scatter(axes, [0,0.5], [0,0.5], radius=2, alpha=.5, color='b')
my_square_scatter(axes, [-3,-4,2,3], [1,-3,0,3], size=.5, alpha=.5, color='r')
my_polygon_scatter(axes, [-1,-2,3], [-3,0,3], radius=.5, resolution=3, alpha=.5, color='g')
my_polygon_scatter(axes, [4,1.5,3], [2,-1,-3], radius=.5, resolution=5, alpha=.5, color='k')
pylab.axis('scaled')
pylab.axis([-5,5,-5,5])
pylab.show()

See http://matplotlib.sourceforge.net/api/artist_api.html#module-matplotlib.patches for other drawable objects.

Sample output from first snippet: matplotlib circles

Sample output from second snippet: matplotlib scatter plot

EDIT for Griff: If you want to handle a different radius for each point, you can do something straightforward like:

def my_circle_scatter_radii(axes, x_array, y_array, radii_array, **kwargs):
    for (x, y, r) in zip(x_array, y_array, radii_array):
        circle = pylab.Circle((x,y), radius=r, **kwargs)
        axes.add_patch(circle)
    return True

The logic to handle both cases simultaneously is also straightforward (e.g., check if its an radii_array is an int/float and if so make it an array).

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  • How do you do this with an array of different radii for each point? It doesn't accept an array in the 'radius=' argument.
    – Griff
    Mar 5, 2013 at 14:57
  • @Griff - Updated answer at the bottom to handle different radius for each point.
    – dr jimbob
    Mar 5, 2013 at 17:12
  • "it doesn't make sense if you narrow in on a region in a scatter plot that the points get bigger" I strongly disagree. Having the size of scatter points as units of data is a perfectly valid use case.
    – MaxNoe
    Nov 23, 2017 at 11:29
  • @MaxNoe - A pylab.scatter() plot is a set of x,y coordinates with an optional size inputed in an arbitrary unit based on the resolution of your display -- not based on the units in your range. The idea in scatter is to make each marker a convenient size to be visible, not for each visible marker to cover a fixed area of the graph that is maintained upon zooming in/out. Something where you have meaningful defined circular/square/other areas is definitely possible (as explained in the answer), but that is fundamentally a different type of plot (need to specify size in units of the axes).
    – dr jimbob
    Nov 24, 2017 at 4:31
  • 1
    I'm not disputing the current implementation. I say that having the s argument of scatter optionally also handling data coordinates would be a nice addition. There are multiple commands in matplotlib where this is possible. E.g. ax.annotate, where you can switch between data coordinates and points for the text coordinates.
    – MaxNoe
    Nov 24, 2017 at 9:02
3

Collection of patches is a better choice if you really want to make it similar to plt.scatter. Suppose you want to plot a scatter of circles with given radius in data unit, you may take a look at this post which provide a well wrapped function named circles.

If you want to use other markers like square or polygon, you may rewrite this function with the correspondent patches as said in answer of dr jimbob.

Here's an example

from pylab import *
figure(figsize=(6,4))
ax = subplot(aspect='equal')

#plot a set of circle
a = arange(11)
circles(a, a, s=a*0.2, c=a, alpha=0.5, ec='none')
colorbar() 

#plot a circle (the lower-right one)
circles(1, 0, s=0.4, c='r', ls='--', lw=5, fc='none', transform=ax.transAxes)

xlim(0,10)
ylim(0,10)

enter image description here

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