What is the problem with this code?

l = [1,2,3,4,5,6]
for val in iter(l, 4):
    print (val)

It returns

TypeError: iter(v, w): v must be callable

Why does callable(list) return True but callable(l) does not?

EDIT What method should be preferred here:

  1. manual breaks
  2. hundred others

7 Answers 7


From iter help:

iter(collection) -> iterator
iter(callable, sentinel) -> iterator

Get an iterator from an object.  In the first form, the argument must
supply its own iterator, or be a sequence.
In the second form, the callable is called until it returns the sentinel.

You are mixing two variants of iter function. First one accepts collections, second accepts two arguments - function and sentinel value. You're trying to pass collection and sentinel value, which is wrong.

Short note: you can get a lot of interesting info from python's built-in help function. Simply type in python's console help(iter) and you'll get documentation on it.

Why does callabe(list) return true but callable(l) does not?

Because list is function which returns new list object. Function is callable (that's what function does - it gets called), while instance which this function returns - new list object - is not.

  • nice but I am still stuck on the callable(list) vs callable(list_instance) why they are different?
    – alphadog
    Nov 8, 2013 at 8:24
  • 3
    Actually, list is not a function, it's a type. Every function is callable, but not every callable is a function.
    – georg
    Nov 8, 2013 at 8:32
  • @thg435 the list has to implement __init__ method so it can initialize new list objects. but how does this type become callable - by implementation of the __call__ method? or implementation of __init__ make it callable?
    – aga
    Nov 8, 2013 at 8:38
  • @aga: no, the type type implements __call__, that's why all types (=classes) are callable. Not their instances.
    – georg
    Nov 8, 2013 at 8:42
  • @thg435 thanks for the explanation, seems like I have a mess in my head about types and classes in python. :) I'll read about it today's evening.
    – aga
    Nov 8, 2013 at 8:44

When called with two arguments, iter takes a callable and a sentinel value. It's behavior is like it was implemented so:

def iter2args(f, sentinel):
    value = f()
    while value != sentinel:
        yield value
        value = f()

What gets passed in as f must be callable, which just means that you can call it like a function. The list builtin is a type object, which you use to create new list instances, by calling it like a function:

>>> list('abcde')
['a', 'b', 'c', 'd', 'e']

The list l you passed in is an existing list instance, which can't be used like a function:

>>> l = [1,2,3,4,5,6]
>>> l(3)
Traceback (most recent call last):
  File "<pyshell#20>", line 1, in <module>
TypeError: 'list' object is not callable

Thus, there is a large and important difference between the list type object and list instances, which shows up when using with iter.

To iterate through a list until a sentinel is reached, you can use itertools.takewhile:

import itertools
for val in itertools.takewhile(l, lambda x: x!= 4):
  • The last example causes the error "'function' object is not iterable" for python 3...
    – 576i
    Jan 21, 2018 at 16:13

It has to do with the second value being pass (a so called sentinel value), this ensures that the object being iterated over is a callable ie. a function. So for every iteration that iter()does it calls __next__() on the object being passed.

iter() has two distinct behaviors,

  • without a sentinel value
  • with a sentinel value

The example in the documentation is great for understanding it

with open("mydata.txt") as fp:
    for line in iter(fp.readline, "STOP"): #fp.readline is a function here.

Have a look at docs: http://docs.python.org/2/library/functions.html#iter

When second argument in iter is present then first argument is treated very differently. It is supposed to be a function which is called in each step. If it returns sentinel (i.e. the second argument), then the iteration stops. For example:


index = -1
def fn():
    global index
    index += 1
    return l[index]

for val in iter(fn, 4):
    print (val)

EDIT: If you want to just loop over a list and stop when you see a sentinel, then I recommend doing simply this:

for val in l:
    # main body
    if val == 4:
  • so what is the best way of do a iteration over that list using a sentinel value?
    – alphadog
    Nov 8, 2013 at 8:20
  • @new-kid If you want to use the iter(callable, sentinel) to do that, just use iter(the_list.__next__, 4). [in python2 replace __next__ with next]
    – Bakuriu
    Nov 8, 2013 at 8:30
  • 3
    @new-kid I find iter(the_list.__next__,4) ugly and not easy to read unlike breaks. Also "private" methods (i.e. those starting with __) should not be used directly. But it is a matter of choice.
    – freakish
    Nov 8, 2013 at 9:04
  • 1
    @new-kid I agree with freakish: just use a break. By the way, I just realized my suggestion wasn't 100% correct because lists do not have a __next__. You'd have to do: iter(iter(the_list).__next__, 4) which is really ugly.
    – Bakuriu
    Nov 8, 2013 at 9:08
  • 1
    @freakish I'd expect it to be slower. Note that when doing for element in iter(callable, sentinel) the interpreter has to perform a generic call (PyObject_Call) for each iteration, while using for element in iterable the interpreter can safely call PyObject_Next on the iterable, without the overhead of the generic call. Note however that using iter(callable, sentinel) is faster than the equivalent solution using while True + calling the function and explicit break (which I often see used).
    – Bakuriu
    Nov 8, 2013 at 12:10

Remember that classes are objects in Python.

>>> callable(list)

Means that list itself is callable, rather than instances of it being callable. As you've seen, they aren't:

>>> callable([])

In fact, all classes in Python are callable - if they don't have literals like list, this is the usual way to instantiate them. Consider:

def MyClass:

a = MyClass()

The last line calls the MyClass class object, which creates an instance - so, MyClass must be callable. But you wouldn't expect that instance to be callable, since MyClass itself doesn't define an __call__.

On the other hand, the class of MyClass (ie, its metaclass, type) does:

>>> type.__call__
<slot wrapper '__call__' of 'type' objects>

which is what makes MyClass callable.


Why does callabe(list) return true but callable(l) does not?

Because list is a Python builtin function while l is a list.

  • so is l not an instance of the list class?
    – alphadog
    Nov 8, 2013 at 8:18
  • 2
    @new-kid Your comment doesn't make any sense. list is a class and all classes are callable (you call them to create instances). The instances need not be callable. Think about it: what should [1,2,3]() do? or 1()? The int class is callable but int instances aren't.
    – Bakuriu
    Nov 8, 2013 at 8:33

Maybe you are looking for something like this?

>>> l = [1,2,3,4,5,6]
>>> l_it = iter(l)
>>> while True:
...     next_val = next(l_it, None)
...     if not next_val:
...             break
...     print(next_val)

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