17

What is the equivalent of R's ecdf(x)(x) function in Python, in either numpy or scipy? Is ecdf(x)(x) basically the same as:

import numpy as np
def ecdf(x):
  # normalize X to sum to 1
  x = x / np.sum(x)
  return np.cumsum(x)

or is something else required?

EDIT how can one control the number of bins used by ecdf?

1
18

Try these links:

statsmodels.ECDF

ECDF in python without step function?

Example code

import numpy as np
from statsmodels.distributions.empirical_distribution import ECDF
import matplotlib.pyplot as plt

data = np.random.normal(0,5, size=2000)

ecdf = ECDF(data)
plt.plot(ecdf.x,ecdf.y)
1
  • 5
    Is this not possible with scipy? – Zhubarb Feb 19 '14 at 16:19
23

The OP implementation for ecdf is wrong, you are not supposed to cumsum() the values. So not ys = np.cumsum(x)/np.sum(x) but ys = np.cumsum(1 for _ in x)/float(len(x)) or better ys = np.arange(1, len(x)+1)/float(len(x))

You either go with statmodels's ECDF if you are OK with that extra dependency or provide your own implementation. See below:

import numpy as np
import matplotlib.pyplot as plt
from statsmodels.distributions.empirical_distribution import ECDF
%matplotlib inline

grades = (93.5,93,60.8,94.5,82,87.5,91.5,99.5,86,93.5,92.5,78,76,69,94.5,
          89.5,92.8,78,65.5,98,98.5,92.3,95.5,76,91,95,61)


def ecdf_wrong(x):
    xs = np.sort(x) # need to be sorted
    ys = np.cumsum(xs)/np.sum(xs) # normalize so sum == 1
    return (xs,ys)
def ecdf(x):
    xs = np.sort(x)
    ys = np.arange(1, len(xs)+1)/float(len(xs))
    return xs, ys

xs, ys = ecdf_wrong(grades)
plt.plot(xs, ys, label="wrong cumsum")
xs, ys = ecdf(grades)
plt.plot(xs, ys, label="handwritten", marker=">", markerfacecolor='none')
cdf = ECDF(grades)
plt.plot(cdf.x, cdf.y, label="statmodels", marker="<", markerfacecolor='none')
plt.legend()
plt.show()

ECDF comparison

5

This author has a very nice example of a user-written ECDF function: John Stachurski's Python lectures. His lecture series is geared towards graduate students in computational economics; however they are my go-to resource for anyone learning general scientific computing in Python.

Edit: This is a year old now, but I thought I'd still answer the "Edit" part of your question, in case you (or others) still fin it useful.

There really aren't any "bins" with ECDFs as there are with histograms. If G is your empirical distribution function formed using data vector Z, G(x) is literally the number of occurrences of Z <= x, divided by len(Z). This requires no "binning" to determine. Thus there is a sense in which the ECDF retains all possible information about a dataset (since it must retain the entire dataset for calculations), whereas a histogram actually loses some information about the dataset by binning. I much prefer to work with ecdfs vs histograms when possible, for this reason.

Fun bonus: if you need to create a small-footprint ECDF-like object from very large streaming data, you should look into this "Data Skeletons" paper by McDermott et al.

1
5

The ecdf function in R returns the empirical cumulative distribution function, so the have exact equivalent would be rather:

def ecdf(x):
    x = np.sort(x)
    n = len(x)
    def _ecdf(v):
        # side='right' because we want Pr(x <= v)
        return (np.searchsorted(x, v, side='right') + 1) / n
    return _ecdf

np.random.seed(42)
X = np.random.normal(size=10_000)
Fn = ecdf(X)
Fn([3, 2, 1]) - Fn([-3, -2, -1])
## array([0.9972, 0.9533, 0.682 ])

As shown, it gives the correct 68–95–99.7% probabilities for normal distribution.

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