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I have a disordered list named d that looks like:

[0.0000, 123.9877,0.0000,9870.9876, ...]

I just simply want to plot a cdf graph based on this list by using Matplotlib in Python. But don't know if there's any function I can use

d = []
d_sorted = []
for line in fd.readlines():
    (addr, videoid, userag, usertp, timeinterval) = line.split()

d_sorted = sorted(d)

class discrete_cdf:
    def __init__(data):
        self._data = data # must be sorted
        self._data_len = float(len(data))

    def __call__(point):
        return (len(self._data[:bisect_left(self._data, point)]) / 

cdf = discrete_cdf(d_sorted)
xvalues = range(0, max(d_sorted))
yvalues = [cdf(point) for point in xvalues]
plt.plot(xvalues, yvalues)

Now I am using this code, but the error message is :

Traceback (most recent call last):
File "hitratioparea_0117.py", line 43, in <module>
cdf = discrete_cdf(d_sorted)
TypeError: __init__() takes exactly 1 argument (2 given)
share|improve this question
Like the one shown here (3rd figure)? –  chl Feb 21 '12 at 14:01
@chl yes, something like that –  manxing Feb 21 '12 at 14:05
Your error __init__() takes exactly 1 argument (2 given) comes from the fact that your class method __init__ should take in itself def __init__(self, data). –  Hooked Feb 21 '12 at 14:45
possible duplicate of How to plot empirical cdf in matplotlib in Python? –  Dave Feb 4 at 15:32

3 Answers 3

up vote 9 down vote accepted

As mentioned, cumsum from numpy works well. Make sure that your data is a proper PDF (ie. sums to one), otherwise the CDF won't end at unity as it should. Here is a minimal working example:

import numpy as np
from pylab import *

# Create some test data
dx = .01
X  = np.arange(-2,2,dx)
Y  = exp(-X**2)

# Normalize the data to a proper PDF
Y /= (dx*Y).sum()

# Compute the CDF
CY = np.cumsum(Y*dx)

# Plot both


enter image description here

share|improve this answer
Since we are normalizing Y (with Y /= (dx*Y).sum() ) to make a PDF, shouldn't the Y.sum() also be equal to 1 instead of 100? –  fixxxer Mar 28 '13 at 10:03
@fixxxer Y.sum() post normalization should not be one, because that total would change if we changed our step size. What should be one is the integral over the domain, i.e. $\int_{-2}^{2} f(x) dx = 1$. Technically the normalization should be Y /= np.trapz(Y,X) but since we are using equally spaced steps they are essentially the same thing. –  Hooked Mar 28 '13 at 13:54
import matplotlib.pyplot as plt
for i in range(2,l+1):

I guess this would do,for the procedure refer http://www.youtube.com/watch?v=vcoCVVs0fRI

share|improve this answer
1.] The code, as is, does not even work (what is c?). 2.] More importantly, this is NOT the CDF, just the data added to itself. Try it with some sample data to see the difference. –  Hooked Aug 28 '13 at 13:40

The numpy function to compute cumulative sums cumsum can be useful here

In [1]: from numpy import cumsum
In [2]: cumsum([.2, .2, .2, .2, .2])
Out[2]: array([ 0.2,  0.4,  0.6,  0.8,  1. ])
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