assigning points to bins
What is a good way to bin numerical values into a certain range? For example, suppose I have a list of values and I want to bin them into N bins by their range. Right now, I do something like this:
from scipy import *
num_bins = 3 # number of bins to use
values = # some array of integers...
min_val = min(values) - 1
max_val = max(values) + 1
my_bins = linspace(min_val, max_val, num_bins)
# assign point to my bins
for v in values:
best_bin = min_index(abs(my_bins - v))
where min_index returns the index of the minimum value. The idea is that you can find the bin the point falls into by seeing what bin it has the smallest difference with.
But I think this has weird edge cases. What I am looking for is a good representation of bins, ideally ones that are half closed half open (so that there is no way of assigning one point to two bins), i.e.
bin1 = [x1, x2)
bin2 = [x2, x3)
bin3 = [x3, x4)
etc...
what is a good way to do this in Python, using numpy/scipy? I am only concerned here with binning integer values.
thanks very much for your help.
Answer
numpy.histogram() does exactly what you want.
The function signature is:
numpy.histogram(a, bins=10, range=None, normed=False, weights=None, new=None)
We're mostly interested in a and bins. a is the input data that needs to be binned. bins can be a number of bins (your num_bins), or it can be a sequence of scalars, which denote bin edges (half open).
import numpy
values = numpy.arange(10, dtype=int)
bins = numpy.arange(-1, 11)
freq, bins = numpy.histogram(values, bins)
# freq is now [0 1 1 1 1 1 1 1 1 1 1]
# bins is unchanged
To quote the documentation:
All but the last (righthand-most) bin is half-open. In other words, if
binsis:[1, 2, 3, 4]then the first bin is
[1, 2)(including 1, but excluding 2) and the second[2, 3). The last bin, however, is[3, 4], which includes 4.
Edit: You want to know the index in your bins of each element. For this, you can use numpy.digitize(). If your bins are going to be integral, you can use numpy.bincount() as well.
>>> values = numpy.random.randint(0, 20, 10)
>>> values
array([17, 14, 9, 7, 6, 9, 19, 4, 2, 19])
>>> bins = numpy.linspace(-1, 21, 23)
>>> bins
array([ -1., 0., 1., 2., 3., 4., 5., 6., 7., 8., 9.,
10., 11., 12., 13., 14., 15., 16., 17., 18., 19., 20.,
21.])
>>> pos = numpy.digitize(values, bins)
>>> pos
array([19, 16, 11, 9, 8, 11, 21, 6, 4, 21])
Since the interval is open on the upper limit, the indices are correct:
>>> (bins[pos-1] == values).all()
True
>>> import sys
>>> for n in range(len(values)):
... sys.stdout.write("%g <= %g < %g\n"
... %(bins[pos[n]-1], values[n], bins[pos[n]]))
17 <= 17 < 18
14 <= 14 < 15
9 <= 9 < 10
7 <= 7 < 8
6 <= 6 < 7
9 <= 9 < 10
19 <= 19 < 20
4 <= 4 < 5
2 <= 2 < 3
19 <= 19 < 20