What are the most common operations that would cause a NaN
, in Python, which originate while working with NumPy or SciPy?
For example:
1e500 - 1e500
>>> nan
What is the reasoning for this behavior and why does it not return 0?
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What are the most common operations that would cause a NaN
, in Python, which originate while working with NumPy or SciPy?
For example:
1e500 - 1e500
>>> nan
What is the reasoning for this behavior and why does it not return 0?
If you do any of the following without horsing around with the floating-point environment, you should get a NaN where you didn't have one before:
0/0
(either sign on top and bottom)inf/inf
(either sign on top and bottom)inf - inf
or (-inf) + inf
or inf + (-inf)
or (-inf) - (-inf)
0 * inf
and inf * 0
(either sign on both factors)sqrt(x)
when x < 0
fmod(x, y)
when y = 0
or x
is infinite; here fmod
is floating-point remainder.The canonical reference for these aspects of machine arithmetic is the IEEE 754 specification. Section 7.1 describes the invalid operation exception, which is the one that is raised when you're about to get a NaN. "Exception" in IEEE 754 means something different than it does in a programming language context.
Lots of special function implementations document their behaviour at singularities of the function they're trying to implement. See the man page for atan2
and log
, for instance.
You're asking specifically about NumPy and SciPy. I'm not sure whether this is simply to say "I'm asking about the machine arithmetic that happens under the hood in NumPy" or "I'm asking about eig()
and stuff." I'm assuming the former, but the rest of this answer tries to make a vague connection to the higher-level functions in NumPy. The basic rule is: If the implementation of a function commits one of the above sins, you get a NaN.
For fft
, for instance, you're liable to get NaN
s if your input values are around 1e1010
or larger and a silent loss of precision if your input values are around 1e-1010
or smaller. Apart from truly ridiculously scaled inputs, though, you're quite safe with fft
.
For things involving matrix math, NaNs can crop up (usually through the inf - inf
route) if your numbers are huge or your matrix is extremely ill-conditioned. A complete discussion of how you can get screwed by numerical linear algebra is too long to belong in an answer. I'd suggest going over a numerical linear algebra book (Trefethen and Bau is popular) over the course of a few months instead.
One thing I've found useful when writing and debugging code that "shouldn't" generate NaNs is to tell the machine to trap if a NaN occurs. In GNU C, I do this:
#include <fenv.h>
feenableexcept(FE_INVALID);
nan + <anything>
, nan * <anything>
, etc. (Of course, you did say "where you didn't have one before", which excludes those. Still probably worth explicitly mentioning that nan's propagate through any calculation.)
– Joe Kington
Aug 26 '14 at 18:21
0/0
in Python raises a ZeroDivisionError, with numpy (using C under the hood), you'll get a NaN. – user707650 Aug 26 '14 at 12:55nan
out of a code and you don't know why. If the OP rephrases the question to ask what are the most common/likely causes of anan
when working withnumpy/scipy
, that do not originate from other libraries, I would vote to reopen it. – gg349 Aug 26 '14 at 15:26