Suppose that you have two NumPy arrays, a and b, and you want to test whether any value of a is greater than the corresponding value of b.

Now you could calculate a boolean array and call its any method:

(a > b).any()

This will do all the looping internally, which is good, but it suffers from the need to perform the comparison on all the pairs even if, say, the very first result evaluates as True.

Alternatively, you could do an explicit loop over scalar comparisons. An example implementation in the case where a and b are the same shape (so broadcasting is not required) might look like:

any(ai > bi for ai, bi in zip(a.flatten(), b.flatten()))

This will benefit from the ability to stop processing after the first True result is encountered, but with all the costs associated with an explicit loop in Python (albeit inside a comprehension).

Is there any way, either in NumPy itself or in an external library, that you could pass in a description of the operation that you wish to perform, rather than the result of that operation, and then have it perform the operation internally (in optimised low-level code) inside an "any" loop that can be broken out from?

One could imagine hypothetically some kind of interface like:

from array_operations import GreaterThan, Any

expression1 = GreaterThan('x', 'y')
expression2 = Any(expression1)

print(expression2.evaluate(x=a, y=b))

If such a thing exists, clearly it could have other uses beyond efficient evaluation of all and any, in terms of being able to create functions dynamically.

Is there anything like this?

  • Thinking about it further, in my hypothetical interface one would probably actually want something like GreaterThan(Argument('x'), Argument('y')) in order to distinguish between an argument name and a string constant. But you get the general idea. – alani Jun 27 '20 at 10:19

One way to solve this is with delayed/deferred/lazy evaluation. The C++ community uses something called "expression templates" to achieve this; you can find an accessible overview here: http://courses.csail.mit.edu/18.337/2015/projects/TylerOlsen/18337_tjolsen_ExpressionTemplates.pdf

In Python the easiest way to do this is using Numba. You basically just write the function you need in Python using for loops, then you decorate it with @numba.njit and it's done. Like this:

def any_greater(a, b):
    for ai, bi in zip(a.flatten(), b.flatten()): 
        if ai > bi: 
            return True 
    return False 

There is/was a NumPy enhancement proposal that could help your use case, but I don't think it has been implemented: https://docs.scipy.org/doc/numpy-1.13.0/neps/deferred-ufunc-evaluation.html

  • Lots of interesting info there thanks, especially numba. – alani Jun 27 '20 at 10:27
  • @alaniwi: You're welcome. I tested that any_greater implementation now and fixed it so it actually works with Numba exactly as written. – John Zwinck Jun 28 '20 at 3:52

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