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I'm encountering FloatingPointError: invalid value encountered in subtract in a piece of test code. The exception started being raised without any changes being made in the code itself, so I'm having a great deal of trouble understanding it.

My question: What causes the invalid value encountered in subtract exception? Why would it behave differently on different installs of python+numpy?


This MWE does not raise a FloatingPointError:

>>> import numpy as np
>>> np.__version__
>>> x = np.arange(5,dtype='float64')
>>> y = np.ones(5,dtype='float64')
>>> x[2]=np.nan
>>> x-y
# array([ -1.,   0.,  nan,   2.,   3.])

However, deep within a piece of code, I subtract two np.float64 ndarray objects, and get a floating point exception. The arrays causing the exception contain some pretty enormous and tiny numbers (e.g., 1e307 and 1e-307) and some nans, but I haven't made any combination of these numbers result in an exception testing on my own.

Much more disturbingly, I have a large grid of Jenkins tests running the exact same code with many versions of numpy, matplotlib, python, and scipy, and NONE of them raise this exception. I'm lost at this point - I don't know if there is a bug, or if there is, how to track it down.

In case you're morbidly curious, the code in question is pyspeckit and the test is failing on line 20 of

EDIT: Follow-up - I think this little snippet: np.seterr(invalid='raise') was being called in a module I was importing, specifically pymc, and a pull request has since prevented this change from being made.

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You can raise the exception doing np.seterr(invalid='raise');np.array(1e309) - np.array(1e309) or ignore it setting invalid='ignore'. Thus, I'd say that somehow this is changing between versions. – jorgeca Aug 20 '12 at 18:42
Thanks, that helped me track it a little further (or at least, pointed me in the right direction). Now the strangeness is that I'm taking np.diff(np.array(arr)) (where arr is a subclass of np.ndarray) and the error (and nan values) occurs in the diff, but not in the input array. – keflavich Aug 20 '12 at 19:20
The array in np.diff, a=asanyarray(a) does not equal the input array; it contains NaNs and a variety of values that are tens to hundreds of orders of magnitude different. I found this out through the interactive debugger. – keflavich Aug 20 '12 at 19:27
What happens if you do a=array(a, subok=False)? It won't return your subclass, but does it equal the input array? (Disclaimer: I don't really understand what's happening, these are just things I'd check) – jorgeca Aug 20 '12 at 19:39
np.all(array(arr, subok=False) == array(arr)) is True. Within np.diff, np.array(a, subok=False) == np.array(a) is False (not even a vector quantity). Unfortunately, because of where the Exception is raised, I can't evaluate "a" within np.diff before it is set to a=asanyarray(a) – keflavich Aug 20 '12 at 19:48

1 Answer 1

up vote 1 down vote accepted

Numpy has configurable behaviour as to how errors are treated. By default some errors are ignored, others cause a warning. For each category you can change this behaviour. Someone must have set it to raising errors, without changing it back.

You can suppress this exception by calling numpy.seterr(invalid='warn'), or, alternatively, invalid='ignore'. For a full list of possible errors, read through the documentation of numpy.seterr.

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