# Why do NaN values make min and max sensitive to order? [duplicate]

``````> import numpy as np

> min(50, np.NaN)
50
> min(np.NaN, 50)
nan
``````

(Same behaviour occurs with `max`)

I know that I can avoid this behaviour by using `numpy.nanmin`. But what causes the change when the order is reversed? Is `min` sensitive to input order?

• And, if you didn't know there was a `NaN` in your data set then `min(my raw list)` and `min(my sorted list)` could be different, I suppose? – mrblewog Jun 29 at 11:14
• The reason behind the behaviour is likely because it assumes that (x < y) if and only if ~(x >= y). This doesn't work with NaN. – freakish Jun 29 at 11:16
• Note that `np.min` is more consistent: `np.min([2., np.nan]) , np.min([np.nan, 2.])` both return `nan` – Demi-Lune Jun 29 at 11:25

Is min sensitive to input order?

Yes.

https://docs.python.org/3/library/functions.html#min

"If multiple items are minimal, the function returns the first one encountered."

The documentation does not specify exactly how "minimal" is defined in the face of items that don't have a consistent order, but it's likely that min is based on looping over the elements and using the < operator to determine if the new element is smaller than the smallest item found so-far.

To confirm this hypothosis we can read the sourcecode (search for builtin_min and min_max in https://github.com/python/cpython/blob/c96d00e88ead8f99bb6aa1357928ac4545d9287c/Python/bltinmodule.c ) , it's slightly confusing because the implementations for min and max are combined and the variable names seem to be based on it being a max function but it's not too hard to follow.

And it does indeed loop through the elements in order and performs the comparision with a call to PyObject_RichCompareBool with an "opid" of Py_LT which is the C API equivilent of the python < operator.

Comparisons between NaN and numbers return false, so in a list containing numbers and NaNs if there is a NaN in the first postition it will be considered the minimum as no number will be "less than" it. On the other hand if the NaN is not in the first position then it will be effectively skipped over as it is not "less than" any number.

Yes `nan` breaks proper ordering, because it always compares as `False`. A lot of things with `nan` are inconsistent:

``````In : 3.0 < float('nan')
Out: False

In : float('nan') < 3.0
Out: False

In : float('nan') == 3.0
Out: False
``````

`min` and `max` can only give you consistent results of you are working with well-defined orderings, which numeric types are not if you can have `nan`

• This begs the question of exactly how min and max are defined in terms of comparison. We can infer that it's defined like C++ `std::min`, though, like `a < b ? a : b;`. See also What is the instruction that gives branchless FP min and max on x86? for more detail on exactly what happens with `NaN` for `min`, as opposed to C functions like `fmin` that reliably do NaN propagation, always giving NaN if either input was NaN. – Peter Cordes Jun 29 at 22:51
• @PeterCordes it is probably implemented in a "naive" fashion, but note, `min` works on arbitrary iterables of arbitrary objects, and likely, no provision is made for special-casing `float` objects, or even numeric object in particular. – juanpa.arrivillaga Jun 29 at 22:56
• It's implemented in the obvious manner, a loop with the C API equivilent of the python < operator. Dealing with particular types is left up to the implementation of said operator. – plugwash Jun 30 at 12:54