# Python scatter plot. Size and style of the marker

I have a set of data that I want to show as a scatter plot. I want each point to be plotted as a square of size `dx`.

``````          x = [0.5,0.1,0.3]
y = [0.2,0.7,0.8]
z = [10.,15.,12.]
dx = [0.05,0.2,0.1]

scatter(x,y,c=z,s=dx,marker='s')
``````

The problem is that the size `s` that the scatter function read is in points^2. What I'd like is having each point represented by a square of area dx^2, where this area is in 'real' units, the plot units. I hope you can get this point.

I also have another question. The scatter function plots the markers with a black border, how can I drop this option and have no border at all?

-

Translate from user data coordinate system to display coordinate system.

and use edgecolors='none' to plot faces with no outlines.

``````import numpy as np

fig = figure()
dx_in_points = np.diff(ax.transData.transform(zip([0]*len(dx), dx)))
scatter(x,y,c=z,s=dx_in_points**2,marker='s', edgecolors='none')
``````
-
This doesnt draw squares in plot units as the OP requested but fixed size squares that do not resize (for example by changing manually the figure frame size. –  joaquin Jan 31 '12 at 16:18
It might be a stupid question. But how do you change the code above if dx is not an array but it's the same for every point (x,y,z). Besides, what do I really need to use add_subplot? –  Matteo Apr 25 '12 at 15:44
How did you find the `edgecolors` argument? –  Dror Aug 24 at 13:15

If you want markers that resize with the figure size, you can use patches:

``````from matplotlib import pyplot as plt
from matplotlib.patches import Rectangle

x = [0.5, 0.1, 0.3]
y = [0.2 ,0.7, 0.8]
z = [10, 15, 12]
dx = [0.05, 0.2, 0.1]

cmap = plt.cm.hot
fig = plt.figure()

for x, y, c, h in zip(x, y, z, dx):
color=cmap(c**2),        # I did c**2 to get nice colors from your numbers
width=h, height=h))      # Gives a square of area h*h

plt.show()
``````

Note that:

1. The squares are not centered at `(x,y)`. x,y are actually the coords of the square lower left. I let it this way to simplify my code. You should use `(x + dx/2, y + dx/2)`.
2. The color is get from the hot colormap. I used z**2 to give colors. you should also adapt this to your needs

Finally for your second question. You can get the border of the scatter marks out using the keyword arguments `edgecolor` or `edgecolors`. These are a matplotlib color argument or a sequence of rgba tuples, respectively. If you set the parameter to 'None', borders are not draw.

-

I think we can do better with a collection of patches. Suppose you want to plot a scatter of circles with given radius in data unit:

``````def circles(x, y, s, c='b', ax=None, vmin=None, vmax=None, **kwargs):
"""
Make a scatter of circles plot of x vs y, where x and y are sequence
like objects of the same lengths. The size of circles are in data scale.

Parameters
----------
x,y : scalar or array_like, shape (n, )
Input data
s : scalar or array_like, shape (n, )
Radius of circle in data scale (ie. in data unit)
c : color or sequence of color, optional, default : 'b'
`c` can be a single color format string, or a sequence of color
specifications of length `N`, or a sequence of `N` numbers to be
mapped to colors using the `cmap` and `norm` specified via kwargs.
Note that `c` should not be a single numeric RGB or
RGBA sequence because that is indistinguishable from an array of
values to be colormapped.  `c` can be a 2-D array in which the
rows are RGB or RGBA, however.
ax : Axes object, optional, default: None
Parent axes of the plot. It uses gca() if not specified.
vmin, vmax : scalar, optional, default: None
`vmin` and `vmax` are used in conjunction with `norm` to normalize
luminance data.  If either are `None`, the min and max of the
color array is used.  (Note if you pass a `norm` instance, your
settings for `vmin` and `vmax` will be ignored.)

Returns
-------
paths : `~matplotlib.collections.PathCollection`

Other parameters
----------------
kwargs : `~matplotlib.collections.Collection` properties
eg. alpha, edgecolors, facecolors, linewidths, linestyles, norm, cmap

Examples
--------
a = np.arange(11)
circles(a, a, a*0.2, c=a, alpha=0.5, edgecolor='none')

--------
This code is under [The BSD 3-Clause License]
"""
from matplotlib.patches import Circle
from matplotlib.collections import PatchCollection
import pylab as plt
#import matplotlib.colors as colors

if ax is None:
ax = plt.gca()

if isinstance(c,basestring):
color = c     # ie. use colors.colorConverter.to_rgba_array(c)
else:
color = None  # use cmap, norm after collection is created
kwargs.update(color=color)

if np.isscalar(x):
patches = [Circle((x, y), s),]
elif np.isscalar(s):
patches = [Circle((x_,y_), s) for x_,y_ in zip(x,y)]
else:
patches = [Circle((x_,y_), s_) for x_,y_,s_ in zip(x,y,s)]
collection = PatchCollection(patches, **kwargs)

if color is None:
collection.set_array(np.asarray(c))
if vmin is not None or vmax is not None:
collection.set_clim(vmin, vmax)

ax.autoscale_view()
return collection
``````

All the arguments and keywords (except `marker` of couse) of `scatter` function would work in similar way. If you want a collection of other shape, you could modify it as you wish.

If you want to plot a colorbar, you should pass the collection object to `colorbar` function (see example below).

An example:

``````from pylab import *
figure(figsize=(8,8))
ax=subplot(aspect='equal')

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

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

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

Output:

-
I'd like to use your function in an open-source project but cannot do that because by default all SO code is under CC BY-SA license. Can you explicitly state the license of your code, preferably something BSD-like? –  neo Oct 23 '14 at 15:07
@neo Glad to know that. I'm not familar with license, I thought it should keep be same with matplotlib, as I just wrote this code based on `scatter` function. So it should be PSF or something? –  Sub Struct Oct 24 '14 at 6:24
Your code snippet is not derivative works of matplotlib, therefore you can license your code under any license. I would just use BSD 3-clause, it's very common in the Python world. –  neo Oct 24 '14 at 7:59
@neo That's fine. I'll use BSD 3-clause. –  Sub Struct Oct 29 '14 at 1:20