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What does it mean to vectorize for-loops in Python? Is there another way to write nested for-loops?

I am new to Python and on my research, I always come across the NumPy library.

33

Python for loops are inherently slower than their C counterpart.

This is why numpy offers vectorized actions on numpy arrays. It pushes the for loop you would usually do in Python down to the C level, which is much faster. numpy offers vectorized ("C level for loop") alternatives to things that otherwise would need to be done in an element-wise manner ("Python level for loop).

import numpy as np
from timeit import Timer

li = list(range(500000))
nump_arr = np.array(li)

def python_for():
    return [num + 1 for num in li]

def numpy_add():
    return nump_arr + 1

print(min(Timer(python_for).repeat(10, 10)))
print(min(Timer(numpy_add).repeat(10, 10)))

#  0.725692612368003
#  0.010465986942008954

The numpy vectorized addition was x70 times faster.

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  • 1
    For anyone that is wondering why vectorized operations are so much faster (on a hardware level) can find the answer here. – Philipp Apr 29 at 15:00
17

Here's a definition from Wes McKinney:

Arrays are important because they enable you to express batch operations on data without writing any for loops. This is usually called vectorization. Any arithmetic operations between equal-size arrays applies the operation elementwise.

Vectorized version:

>>> import numpy as np
>>> arr = np.array([[1., 2., 3.], [4., 5., 6.]])
>>> arr * arr
array([[  1.,   4.,   9.],
       [ 16.,  25.,  36.]])

The same thing with loops on a native Python (nested) list:

>>> arr = arr.tolist()
>>> res = [[0., 0., 0.], [0., 0., 0.]]
>>> for idx1, row in enumerate(arr):
        for idx2, val2 in enumerate(row):
            res[idx1][idx2] = val2 * val2
>>> res
[[1.0, 4.0, 9.0], [16.0, 25.0, 36.0]]

How do these two operations compare? The NumPy version takes 436 ns; the Python version takes 3.52 ┬Ás (3520 ns). This large difference in "small" times is called microperformance, and it becomes important when you're working with larger data or repeating operations thousands or millions of times.

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