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I'd like to make a scatter plot where each point is colored by the spatial density of nearby points.

I've come across a very similar question, which shows an example of this using R:

R Scatter Plot: symbol color represents number of overlapping points

What's the best way to accomplish something similar in python using matplotlib?

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    Hi! People have been downvoting you probably because you didn't rewrite the question or give any context, nor did you show any attempt to do the thing yourself. Consider editing the question to be self-sufficient (not just a link), and for future questions, please make some attempt before posting. – askewchan Nov 20 '13 at 20:04
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In addition to hist2d or hexbin as @askewchan suggested, you can use the same method that the accepted answer in the question you linked to uses.

If you want to do that:

import numpy as np
import matplotlib.pyplot as plt
from scipy.stats import gaussian_kde

# Generate fake data
x = np.random.normal(size=1000)
y = x * 3 + np.random.normal(size=1000)

# Calculate the point density
xy = np.vstack([x,y])
z = gaussian_kde(xy)(xy)

fig, ax = plt.subplots()
ax.scatter(x, y, c=z, s=100, edgecolor='')
plt.show()

enter image description here

If you'd like the points to be plotted in order of density so that the densest points are always on top (similar to the linked example), just sort them by the z-values. I'm also going to use a smaller marker size here as it looks a bit better:

import numpy as np
import matplotlib.pyplot as plt
from scipy.stats import gaussian_kde

# Generate fake data
x = np.random.normal(size=1000)
y = x * 3 + np.random.normal(size=1000)

# Calculate the point density
xy = np.vstack([x,y])
z = gaussian_kde(xy)(xy)

# Sort the points by density, so that the densest points are plotted last
idx = z.argsort()
x, y, z = x[idx], y[idx], z[idx]

fig, ax = plt.subplots()
ax.scatter(x, y, c=z, s=50, edgecolor='')
plt.show()

enter image description here

| improve this answer | |
  • 4
    Clever, especially getting the 'densest' ones on top :) – askewchan Nov 21 '13 at 3:42
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    @Leszek - Ether call plt.colorbar(), or if you'd prefer to be more explicit, do cax = ax.scatter(...) and then fig.colorbar(cax). Be aware that the units are different. This method estimates the probability distribution function for the points, so the values will be between 0 an 1 (and typically won't get very close to 1). You can convert back to something closer to histogram counts, but it takes a bit of work (you need to know the parameters that gaussian_kde estimated from the data). – Joe Kington Jun 28 '14 at 13:58
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    Very nice! Checking out other KDEs in Python can also be useful: jakevdp.github.io/blog/2013/12/01/kernel-density-estimation and scikit-learn.org/stable/modules/density.html In my case scipy.stats' KDE was taking too long – Rems Feb 24 '15 at 10:43
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    Why is Gaussian kernel called twice with (xy)? – Arjan Groen Aug 31 '17 at 5:24
  • @ArjanGroen The first call creates a new gaussian_kde object and the second call evaluates the estimated pdf on the set of points (shortcut for calling the evaluate method). – qRTPCR Oct 31 '17 at 18:29
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You could make a histogram:

import numpy as np
import matplotlib.pyplot as plt

# fake data:
a = np.random.normal(size=1000)
b = a*3 + np.random.normal(size=1000)

plt.hist2d(a, b, (50, 50), cmap=plt.cm.jet)
plt.colorbar()

2dhist

| improve this answer | |
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Also, if the number of point makes KDE calculation too slow, color can be interpolated in np.histogram2d [Update in response to comments: If you wish to show the colorbar, use plt.scatter() instead of ax.scatter() followed by plt.colorbar()]:

import numpy as np
import matplotlib.pyplot as plt
from matplotlib import cm
from matplotlib.colors import Normalize 
from scipy.interpolate import interpn

def density_scatter( x , y, ax = None, sort = True, bins = 20, **kwargs )   :
    """
    Scatter plot colored by 2d histogram
    """
    if ax is None :
        fig , ax = plt.subplots()
    data , x_e, y_e = np.histogram2d( x, y, bins = bins, density = True )
    z = interpn( ( 0.5*(x_e[1:] + x_e[:-1]) , 0.5*(y_e[1:]+y_e[:-1]) ) , data , np.vstack([x,y]).T , method = "splinef2d", bounds_error = False)

    #To be sure to plot all data
    z[np.where(np.isnan(z))] = 0.0

    # Sort the points by density, so that the densest points are plotted last
    if sort :
        idx = z.argsort()
        x, y, z = x[idx], y[idx], z[idx]

    ax.scatter( x, y, c=z, **kwargs )

    norm = Normalize(vmin = np.min(z), vmax = np.max(z))
    cbar = fig.colorbar(cm.ScalarMappable(norm = norm), ax=ax)
    cbar.ax.set_ylabel('Density')

    return ax


if "__main__" == __name__ :

    x = np.random.normal(size=100000)
    y = x * 3 + np.random.normal(size=100000)
    density_scatter( x, y, bins = [30,30] )

| improve this answer | |
  • This is a great tip, thank you. I was plotting 100k points and gaussian_kde was prohibitively slow. – Emanuel Mar 10 '19 at 14:05
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    Warning, I noticed in some cases this generates NaNs and because "bounds_error = False" it's silent. Points with c set to NaNs are not plotted. This is not a problem with gaussian_kde. – Emanuel Jun 28 '19 at 10:45
  • Many thanks for this response. Usually we want heatmap like this when we have a large number of data points, and KDE is very slow in this case. However, there is still an open issue. I want to include a colour bar indicating the frequency! This throws an error: 'AxesSubplot' object has no attribute 'autoscale_None'. I did "plt.colorbar(scat, ax=ax)" – Vinod Kumar Nov 19 '19 at 14:00
  • @VinodKumar did you find out how to plot the colourbar? – Daniel Mar 23 at 16:14
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    @Daniel yes this is possible, see edited answer. You then have to set "density=True" when building the histogram, otherwise, the colorbar depends on the bin size.@Emanuel, Indeed! I have replaced the NaNs by zero to be sure to plot all the points (NaNs should happen when there is not much data, so that 0.0 should be ok enough) – Guillaume Mar 23 at 17:14

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