I use
sns.distplot
to plot a univariate distribution of observations. Still, I need not only the chart, but also the data points. How do I get the data points from matplotlib Axes (returned by distplot)?
I use
sns.distplot
to plot a univariate distribution of observations. Still, I need not only the chart, but also the data points. How do I get the data points from matplotlib Axes (returned by distplot)?
You can use the matplotlib.patches API. For instance, to get the first line:
sns.distplot(x).get_lines()[0].get_data()
This returns two numpy arrays containing the x and y values for the line.
For the bars, information is stored in:
sns.distplot(x).patches
You can access the bar's height via the function patches.get_height()
:
[h.get_height() for h in sns.distplot(x).patches]
Axes
before the call to distplot
you will get the data from that line.
– tacaswell
May 22 '16 at 19:23
l = [[h.xy[0], h.get_width(), h.get_height()] for h in sns.distplot(x).patches]
– KamKam
Feb 27 at 11:26
If you want to obtain the kde values of an histogram you can use scikit-learn KernelDensity
function instead:
import numpy as np
import pandas as pd
from sklearn.neighbors import KernelDensity
ds=pd.read_csv('data-to-plot.csv')
X=ds.loc[:,'Money-Spent'].values[:, np.newaxis]
kde = KernelDensity(kernel='gaussian', bandwidth=0.75).fit(X) #you can supply a bandwidth
#parameter.
x=np.linspace(0,5,100)[:, np.newaxis]
log_density_values=kde.score_samples(x)
density=np.exp(log_density)
array([1.88878660e-05, 2.04872903e-05, 2.21864649e-05, 2.39885206e-05,
2.58965064e-05, 2.79134003e-05, 3.00421245e-05, 3.22855645e-05,
3.46465903e-05, 3.71280791e-05, 3.97329392e-05, 4.24641320e-05,
4.53246933e-05, 4.83177514e-05, 5.14465430e-05, 5.47144252e-05,
5.81248850e-05, 6.16815472e-05, 6.53881807e-05, 6.92487062e-05,
7.32672057e-05, 7.74479375e-05, 8.17953578e-05, 8.63141507e-05,
..........................
..........................
3.93779919e-03, 4.15788216e-03, 4.38513011e-03, 4.61925890e-03,
4.85992626e-03, 5.10672757e-03, 5.35919187e-03, 5.61677855e-03])