16

I'm trying to create a CDF but at the end of the graph, there is a vertical line, shown below:

plot

I've read that his is because matplotlib uses the end of the bins to draw the vertical lines, which makes sense, so I added into my code as:

bins = sorted(X) + [np.inf]

where X is the data set I'm using and set the bin size to this when plotting:

plt.hist(X, bins = bins, cumulative = True, histtype = 'step', color = 'b')

This does remove the line at the end and produce the desired effect, however when I normalise this graph now it produces an error:

ymin = max(ymin*0.9, minimum) if not input_empty else minimum

UnboundLocalError: local variable 'ymin' referenced before assignment

Is there anyway to either normalise the data with

bins = sorted(X) + [np.inf]

in my code or is there another way to remove the line on the graph?

2
  • 1
    Not sure why this got down-voted. This is an artifact of how hist + step works. You may be better off computing the cumulative histogram and then using ax.step.
    – tacaswell
    Sep 27 '16 at 16:19
  • Do you want a CDF or a histogram? If it's a CDF, which one? Sep 27 '16 at 16:48
12

An alternative way to plot a CDF would be as follows (in my example, X is a bunch of samples drawn from the unit normal):

import numpy as np
import matplotlib.pyplot as plt

X = np.random.randn(10000)
n = np.arange(1,len(X)+1) / np.float(len(X))
Xs = np.sort(X)
fig, ax = plt.subplots()
ax.step(Xs,n) 

enter image description here

3
  • This is a brilliant and beautiful alternative!
    – merlin2011
    Jan 18 '17 at 9:01
  • 1
    The problem that appears is that plot will be linearly interpolated inbetween dots, but the true cumulative function should have these "jumps".
    – RomaValcer
    Mar 5 '17 at 10:34
  • Yes, that's probably a fair point - although it won't make much difference for large samples of data. Nonetheless, I have updated my answer to use plt.step instead. Thanks! Mar 13 '17 at 14:09
8

I needed a solution where I would not need to alter the rest of my code (using plt.hist(...) or, with pandas, dataframe.plot.hist(...)) and that I could reuse easily many times in the same jupyter notebook.

I now use this little helper function to do so:

def fix_hist_step_vertical_line_at_end(ax):
    axpolygons = [poly for poly in ax.get_children() if isinstance(poly, mpl.patches.Polygon)]
    for poly in axpolygons:
        poly.set_xy(poly.get_xy()[:-1])

Which can be used like this (without pandas):

import numpy as np
import matplotlib as mpl
import matplotlib.pyplot as plt

X = np.sort(np.random.randn(1000))

fig, ax = plt.subplots()
plt.hist(X, bins=100, cumulative=True, density=True, histtype='step')

fix_hist_step_vertical_line_at_end(ax)

Or like this (with pandas):

import numpy as np
import pandas as pd
import matplotlib as mpl
import matplotlib.pyplot as plt

df = pd.DataFrame(np.random.randn(1000))

fig, ax = plt.subplots()
ax = df.plot.hist(ax=ax, bins=100, cumulative=True, density=True, histtype='step', legend=False)

fix_hist_step_vertical_line_at_end(ax)

result

This works well even if you have multiple cumulative density histograms on the same axes.

Warning: this may not lead to the wanted results if your axes contain other patches falling under the mpl.patches.Polygon category. That was not my case so I prefer using this little helper function in my plots.

1
  • Thanks! That worked for me. I have a complementary CDF, so I just needed to change poly.set_xy(poly.get_xy()[:-1]) to poly.set_xy(poly.get_xy()[1:]) Aug 30 '19 at 13:59
0

Assuming that your intentions are pure aesthetic, add a vertical line, of the same color as your plot background:

ax.axvline(x = value, color = 'white', linewidth = 2)

Where "value" stands for the right extreme of the rightmost bin.

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