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I have a function that takes the argument NBins. I want to make a call to this function with a scalar 50 or an array [0, 10, 20, 30]. How can I identify within the function, what the length of NBins is? or said differently, if it is a scalar or a vector?

I tried this:

>>> N=[2,3,5]
>>> P = 5
>>> len(N)
>>> len(P)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: object of type 'int' has no len()

As you see, I can't apply len to P, since it's not an array.... Is there something like isarray or isscalar in python?


share|improve this question
Have you tried testing for it's type? – Sukrit Kalra May 29 '13 at 6:34

9 Answers 9

up vote 60 down vote accepted
>>> isinstance([0, 10, 20, 30], list)
>>> isinstance(50, list)

To support any type of sequence, check collections.Sequence instead of list.

note: isinstance also supports a tuple of classes, check type(x) in (..., ...) should be avoided and is unnecessary.

You may also wanna check not isinstance(x, (str, unicode))

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thanks, I didn't imagine inverting list to get false for scalars... thanks – otmezger May 29 '13 at 6:39
+1 for collections.Sequence – Elazar May 29 '13 at 6:40
+1 wonderful. i usually use type([1,2])==type(N) to check. – suhail May 29 '13 at 9:03
While this is a great answer, collections.Sequence is an ABC for string as well, so that should be taken into account. I'm using something like if type(x) is not str and isinstance(x, collections.Sequence):. This isn't great, but it is reliable. – bbenne10 Aug 4 '14 at 19:47
@bbenne10 sure, but avoid type, and also check not isinstance(x, (str, unicode)) on Python 2 – jamylak Feb 10 at 11:04

Previous answers assume that the array is a python standard list. As someone who uses numpy often, I'd recommend a very pythonic test of:

if hasattr(N, "__len__")
share|improve this answer
strings have a __len__ attribute (so I guess, not technically a scalar type) – xofer Apr 17 '14 at 16:49
if hasattr(N, '__len__') and (not isinstance(N, str)) would properly account for strings. – Thucydides411 Oct 13 '14 at 19:32

While, @jamylak's approach is the better one, here is an alternative approach

>>> N=[2,3,5]
>>> P = 5
>>> type(P) in (tuple, list)
>>> type(N) in (tuple, list)
share|improve this answer
It would have been great if the person who downvoted the answer would have given a reason too. – Sukrit Kalra May 29 '13 at 9:58
i've actually upvoted, but then realized that it deosn't work in 2.7:>>> p=[] >>> type(p) in (list) Traceback (most recent call last): File "<stdin>", line 1, in <module> – Oleg Gryb Jun 12 '14 at 1:14
@OlegGryb: Try type(p) in (list, ). – Sukrit Kalra Jun 12 '14 at 6:25
ah, it's a tuple on the right, not a list, got it, thanks and it works now. I regret, I can't upvote 2 times - the best solution so far :) – Oleg Gryb Jun 12 '14 at 17:42

You can check data type of variable.

N = [2,3,5]
P = 5

It will give you out put as data type of P.

<type 'int'>

So that you can differentiate that it is an integer or an array.

share|improve this answer

Another alternative approach (use of class name property):

N = [2,3,5]
P = 5

type(N).__name__ == 'list'

type(P).__name__ == 'int'

type(N).__name__ in ('list', 'tuple')

No need to import anything.

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Combining @jamylak and @jpaddison3's answers together, if you need to be robust against numpy arrays as the input and handle them in the same way as lists, you should use

import numpy as np
isinstance(P, (list, tuple, np.ndarray))

This is robust against subclasses of list, tuple and numpy arrays.

And if you want to be robust against all other subclasses of sequence as well (not just list and tuple), use

import collections
isinstance(P, (collections.Sequence, np.ndarray))

Why should you do things this way with isinstance and not compare type(P) with a target value? Here is an example, where we make and study the behaviour of NewList, a trivial subclass of list.

>>> class NewList(list):
...     isThisAList = '???'
>>> x = NewList([0,1])
>>> print x
[0, 1]
>>> y = list([0,1])
>>> print y
[0, 1]
>>> x==y
>>> type(y) is list
>>> type(x)
<class '__main__.NewList'>
>>> type(x) is list
>>> type(x).__name__
>>> isinstance(x,list)

Despite x and y comparing as equal, handling them by type would result in different behaviour. However, since x is an instance of a subclass of list, using isinstance(x,list) gives the desired behaviour and treats x and y in the same manner.

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>>> N=[2,3,5]
>>> P = 5
>>> type(P)==type(0)
>>> type([1,2])==type(N)
>>> type(P)==type([1,2])
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I am surprised that such a basic question doesn't seem to have an immediate answer in python. It seems to me that nearly all proposed answers use some kind of type checking, that is usually not advised in python and they seem restricted to a specific case (they fail with different numerical types or generic iteratable objects that are not tuples or lists).

For me, what works better is importing numpy and using array.size, for example:

>>> a=1
>>> np.array(a)
Out[1]: array(1)

>>> np.array(a).size
Out[2]: 1

>>> np.array([1,2]).size
Out[3]: 2

>>> np.array('125')
Out[4]: 1

Note also:

>>> len(np.array([1,2]))

Out[5]: 2


>>> len(np.array(a))
TypeError                                 Traceback (most recent call last)
<ipython-input-40-f5055b93f729> in <module>()
----> 1 len(np.array(a))

TypeError: len() of unsized object
share|improve this answer

Is there an equivalent to isscalar() in numpy? Yes.

>>> np.isscalar(3.1)
>>> np.isscalar([3.1])
>>> np.isscalar(False)
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