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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?

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3 Answers 3

up vote 9 down vote accepted

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()
ax = fig.add_subplot(111)
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')
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2  
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

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

for x, y, c, h in zip(x, y, z, dx):
    ax.add_artist(Rectangle(xy=(x, y),
                  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()

enter image description here

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.

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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 : 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')
    """
    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 isinstance(s, (int, long, float)):
        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.add_collection(collection)
    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')

a=arange(11)
circles([1], [0], 0.5, 'r', alpha=0.2, lw=5, edgecolor='b', transform=ax.transAxes)
out = circles(a, a, a*0.2, c=a, alpha=0.5, edgecolor='none')
colorbar(out)
xlim(0,10)
ylim(0,10)

Output:

enter image description here

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