# How to get the index of an integer from a list if the list contains a boolean?

I am just starting with Python.

How to get index of integer `1` from a list if the list contains a boolean `True` object before the `1`?

``````>>> lst = [True, False, 1, 3]
>>> lst.index(1)
0
>>> lst.index(True)
0
>>> lst.index(0)
1
``````

I think Python considers `0` as `False` and `1` as `True` in the argument of the `index` method. How can I get the index of integer `1` (i.e. `2`)?

Also what is the reasoning or logic behind treating boolean object this way in list? As from the solutions, I can see it is not so straightforward.

• It would be better to approach this problem from "Here's what I want to do..." than "Here's what I don't want to do...". e.g. what specifically are you trying to do that you want to search a list for a thing, but want to skip over things that compare equal to the thing you're searching for? The most likely realities of the situation are either that you really do want `list.index(1)` to return `0` despite your surprise or that you really shouldn't be putting yourself in a situation where you need to do this search.
– user1084944
Commented Jun 15, 2015 at 10:57
• I'm no python developer but isn't that a bit odd to store integers together with booleans in the same list ? I see it as listing cars and fruits together... Commented Jun 15, 2015 at 11:03

The documentation says that

Lists are mutable sequences, typically used to store collections of homogeneous items (where the precise degree of similarity will vary by application).

You shouldn't store heterogeneous data in lists. The implementation of `list.index` only performs the comparison using `Py_EQ` (`==` operator). In your case that comparison returns truthy value because `True` and `False` have values of the integers 1 and 0, respectively (the bool class is a subclass of int after all).

However, you could use generator expression and the built-in `next` function (to get the first value from the generator) like this:

``````In [4]: next(i for i, x in enumerate(lst) if not isinstance(x, bool) and x == 1)
Out[4]: 2
``````

Here we check if `x` is an instance of `bool` before comparing `x` to 1.

Keep in mind that `next` can raise `StopIteration`, in that case it may be desired to (re-)raise `ValueError` (to mimic the behavior of `list.index`).

Wrapping this all in a function:

``````def index_same_type(it, val):
gen = (i for i, x in enumerate(it) if type(x) is type(val) and x == val)
try:
return next(gen)
except StopIteration:
raise ValueError('{!r} is not in iterable'.format(val)) from None
``````

Some examples:

``````In [34]: index_same_type(lst, 1)
Out[34]: 2

In [35]: index_same_type(lst, True)
Out[35]: 0

In [37]: index_same_type(lst, 42)
ValueError: 42 is not in iterable
``````

Booleans are integers in Python, and this is why you can use them just like any integer:

``````>>> 1 + True
2
>>> [1][False]
1
``````

[this doesn't mean you should :)]

This is due to the fact that `bool` is a subclass of `int`, and almost always a boolean will behave just like 0 or 1 (except when it is cast to string - you will get `"False"` and `"True"` instead).

Here is one more idea how you can achieve what you want (however, try to rethink you logic taking into account information above):

``````>>> class force_int(int):
...     def __eq__(self, other):
...         return int(self) == other and not isinstance(other, bool)
...
>>> force_int(1) == True
False
>>> lst.index(force_int(1))
2
``````

This code redefines `int`'s method, which is used to compare elements in the `index` method, to ignore booleans.

Here is a very simple naive one-liner solution using `map` and `zip`:

``````>>> zip(map(type, lst), lst).index((int, 1))
2
``````

Here we map the type of each element and create a new list by zipping the types with the elements and ask for the index of `(type, value)`.

And here is a generic iterative solution using the same technique:

``````>>> from itertools import imap, izip
>>> def index(xs, x):
...     it = (i for i, (t, e) in enumerate(izip(imap(type, xs), xs)) if (t, e) == x)
...     try:
...             return next(it)
...     except StopIteration:
...             raise ValueError(x)
...
>>> index(lst, (int, 1))
2
``````

Here we basically do the same thing but iteratively so as to not cost us much in terms of memory/space efficiency. We an iterator of the same expression from above but using `imap` and `izip` instead and build a custom index function that returns the next value from the iterator or a raise a `ValueError` if there is no match.

Try to this.

``````for i, j in enumerate([True, False, 1, 3]):
if not isinstance(j, bool) and j == 1:
print i
``````

Output:

``````2
``````