I have a NumPy array 'boolarr' of boolean type. I want to count the number of elements whose values are True
. Is there a NumPy or Python routine dedicated for this task? Or, do I need to iterate over the elements in my script?

4For pandas: stackoverflow.com/questions/26053849/… – Private Apr 3 '17 at 8:16
You have multiple options. Two options are the following.
numpy.sum(boolarr)
numpy.count_nonzero(boolarr)
Here's an example:
>>> import numpy as np
>>> boolarr = np.array([[0, 0, 1], [1, 0, 1], [1, 0, 1]], dtype=np.bool)
>>> boolarr
array([[False, False, True],
[ True, False, True],
[ True, False, True]], dtype=bool)
>>> np.sum(boolarr)
5
Of course, that is a bool
specific answer. More generally, you can use numpy.count_nonzero
.
>>> np.count_nonzero(boolarr)
5

2Thanks, David. They look neat. About the method with sum(..), is True always equal to 1 in python (or at least in numpy)? If it is not guaranteed, I will add a check, 'if True==1:' beforehand. About count_nonzero(..), unfortunately, it seems not implemented in my numpy module at version 1.5.1, but I may have a chance to use it in the future. – norio Dec 3 '11 at 1:52

4@norio Regarding
bool
: boolean values are treated as 1 and 0 in arithmetic operations. See "Boolean Values" in the Python Standard Library documentation. Note that NumPy'sbool
and Pythonbool
are not the same, but they are compatible (see here for more information). – David Alber Dec 3 '11 at 4:39 
1@norio Regarding
numpy.count_nonzero
not being in NumPy v1.5.1: you are right. According to this release announcement, it was added in NumPy v1.6.0. – David Alber Dec 3 '11 at 4:41 
18FWIW,
numpy.count_nonzero
is about a thousand times faster, in my Python interpreter, at least.python m timeit s "import numpy as np; bools = np.random.uniform(size=1000) >= 0.5" "np.count_nonzero(bools)"
vs.python m timeit s "import numpy as np; bools = np.random.uniform(size=1000) >= 0.5" "sum(bools)"
– chbrown Nov 19 '13 at 21:10 
3@chbrown you are right. But you should compare to
np.sum(bools)
instead! However,np.count_nonzero(bools)
is still ~12x faster. – mab Nov 23 '15 at 18:15
That question solved a quite similar question for me and I thought I should share :
In raw python you can use sum()
to count True
values in a list
:
>>> sum([True,True,True,False,False])
3
But this won't work :
>>> sum([[False, False, True], [True, False, True]])
TypeError...

You should "flatten" the array of arrays first. unfortunately, there's no builtin method, see stackoverflow.com/questions/2158395/… – tommy chheng Dec 7 '12 at 23:32

2
In terms of comparing two numpy arrays and counting the number of matches (e.g. correct class prediction in machine learning), I found the below example for two dimensions useful:
import numpy as np
result = np.random.randint(3,size=(5,2)) # 5x2 random integer array
target = np.random.randint(3,size=(5,2)) # 5x2 random integer array
res = np.equal(result,target)
print result
print target
print np.sum(res[:,0])
print np.sum(res[:,1])
which can be extended to D dimensions.
The results are:
Prediction:
[[1 2]
[2 0]
[2 0]
[1 2]
[1 2]]
Target:
[[0 1]
[1 0]
[2 0]
[0 0]
[2 1]]
Count of correct prediction for D=1: 1
Count of correct prediction for D=2: 2
If you wish to do a perrow count, supply axis=1
to sum
:
boolarr
# array([[False, False, True],
# [ True, False, True],
# [ True, False, True]], dtype=bool)
boolarr.sum(axis=1)
# array([1, 2, 2])
Similarly, with np.count_nonzero
:
np.count_nonzero(boolarr, axis=1)
# array([1, 2, 2])