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I am building an array with cython element by element. I'd like to store the constant np.inf (or -1 * np.inf) in some entries. However, this will require the overhead of going back into Python to look up inf. Is there a libc.math equivalent of this constant? Or some other value that could easily be used that's equivalent to (-1*np.inf) and can be used from Cython without overhead?

EDIT example, you have:

cdef double value = 0
for k in xrange(...):
  # use -inf here -- how to avoid referring to np.inf and calling back to python?
  value = -1 * np.inf
share|improve this question
up vote 5 down vote accepted

There's no literal for it, but float can parse it from a string:

>>> float('inf')
>>> np.inf == float('inf')

Alternatively, math.h may (almost certainly will) declare a macro that evaluates to inf, in which case you can just use that:

cdef extern from "math.h":
    float INFINITY

(There's no clean way to check if INFINITY is defined in pure Cython, so if you want to cover all your bases you'll need to get hacky. One way of doing it is to create a small C header, say fallbackinf.h:

#ifndef INFINITY
#define INFINITY 0

And then in your .pyx file:

cdef extern from "math.h":
    float INFINITY

cdef extern from "fallbackinf.h":

inf = INFINITY if INFINITY != 0 else float('inf')

(You can't assign to INFINITY, because it's an rvalue. You could do away with the ternary operator if you #defined INFINITY as 1.0/0.0 in your header, but that might raise SIGFPE, depending on your compiler.)

This is definitely in the realm of cargo cult optimisation, though.)

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but if I use float within a Cython loop, will that involve calling back to Python? I edited my answer to give an example. – user248237dfsf Apr 17 '13 at 3:00
Ultimately that calls PyFloat_AsDouble every time, which isn't that slow, but not something you want to do more often than necessary; assign it to a constant once, outside the loop. But I've updated my answer with a different, compile-time method. – Cairnarvon Apr 17 '13 at 3:48
Thanks! your cdef extern... works great. Are there systems/conditions where it might not work, or should it work on any python distribution / OS? – user248237dfsf Apr 17 '13 at 4:16
The INFINITY macro was added in C99; if your math.h is older, it's not guaranteed to be there (though it probably still will be). In practice, it should be fine. – Cairnarvon Apr 17 '13 at 4:29
Not cleanly. I've added what I believe to be the easiest way to my answer. – Cairnarvon Apr 17 '13 at 5:17

You can use Numpy's math library, see here for what's available:

cdef extern from "numpy/npy_math.h":
    double inf "NPY_INFINITY"

When building the Cython extension module, you need to specify the correct include directory and library to link:

>>> from numpy.distutils.misc_util import get_info
>>> get_info('npymath')
{'define_macros': [], 
 'libraries': ['npymath', 'm'], 
 'library_dirs': ['/usr/lib/python2.7/dist-packages/numpy/core/lib'], 
 'include_dirs': ['/usr/lib/python2.7/dist-packages/numpy/core/include']}

The information obtained from that function can be passed onto Python distutils, or whatever build system you use.

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The recommended way of doing this in Cython is:

from numpy.math cimport INFINITY

Note, that this is a "cimport" rather than a regular import. This is Cython's official wrapper around NumPy's npymath.

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I get the error fatal error: 'numpy/npy_math.h' file not found. Anyone else get this? – hlin117 Aug 27 '15 at 6:46

There's also sys.maxint in the standard library

share|improve this answer
That's just the largest integer representable by Python's internal integer type. It doesn't have anything to do with IEEE float infinity, and can't even be used as a kind of value-than-which-nothing-is-bigger; Python can handle larger integers fine, it just stores them as longs. – Cairnarvon Apr 17 '13 at 20:53
You're right. I don't know if I can delete my answer now that you've commented it. – bobrobbob Apr 17 '13 at 20:58

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