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
import numpy as np
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])
>>> y = list([0,1])
>>> print x
[0, 1]
>>> print y
[0, 1]
>>> x==y
True
>>> type(x)
<class '__main__.NewList'>
>>> type(x) is list
False
>>> type(y) is list
True
>>> type(x).__name__
'NewList'
>>> isinstance(x, list)
True
```

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.

`type`

? – Sukrit Kalra May 29 '13 at 6:34