Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

How would one create an iterable function or class in Python?

share|improve this question
There are two questions here, both important. How to make a class iterable (ie. that you can loop over with for)? And how to make a function that returns a sequence with lazy evaluation? – Colonel Panic Jul 12 '15 at 13:26
A good exercise I think is to write a class that represents the even numbers (an infinite sequence). – Colonel Panic Jul 12 '15 at 13:30
@ColonelPanic: Okay, added the infinite number example to my answer. – Ethan Furman 2 days ago
up vote 308 down vote accepted

Iterator objects in python conform to the iterator protocol, which basically means they provide two methods: __iter__() and next(). The __iter__ returns the iterator object and is implicitly called at the start of loops. The next() method returns the next value and is implicitly called at each loop increment. next() raises a StopIteration exception when there are no more value to return, which is implicitly captured by looping constructs to stop iterating.

Here's a simple example of a counter:

class Counter:
    def __init__(self, low, high):
        self.current = low
        self.high = high

    def __iter__(self):
        return self

    def next(self): # Python 3: def __next__(self)
        if self.current > self.high:
            raise StopIteration
            self.current += 1
            return self.current - 1

for c in Counter(3, 8):
    print c

This will print:


This is easier to write using a generator, as covered in a previous answer:

def counter(low, high):
    current = low
    while current <= high:
        yield current
        current += 1

for c in counter(3, 8):
    print c

The printed output will be the same. Under the hood, the generator object supports the iterator protocol and does something roughly similar to the class Counter.

David Mertz's article, Iterators and Simple Generators, is a pretty good introduction.

share|improve this answer
Note that the next() function does not yield values, it returns them. – John Mee Oct 17 '12 at 7:03
This is invalid in Python 3--- it has to be __next__(). – Aerovistae Sep 23 '13 at 3:42
This is mostly a good answer, but the fact that it returns self is a little sub-optimal. For example, if you used the same counter object in a doubly nested for loop you would probably not get the behavior that you meant. – rodarmor Feb 6 '14 at 23:33
No, iterators SHOULD return themselves. Iterables return iterators, but iterables shouldn't implement __next__. counter is an iterator, but it is not a sequence. It doesn't store its values. You shouldn't be using the counter in a doubly-nested for-loop, for example. – leewangzhong Feb 21 '14 at 8:42

There are four ways to build an iterative function:


# generator
def uc_gen(text):
    for char in text:
        yield char.upper()

# generator expression
def uc_genexp(text):
    return (char.upper() for char in text)

 # iterator protocol
 class uc_iter():
     def __init__(self, text):
         self.text = text
         self.index = 0
     def __iter__(self):
         return self
     def __next__(self):
             result = self.text[self.index].upper()
         except IndexError:
             raise StopIteration
         self.index += 1
         return result

 # getitem method
 class uc_getitem():
     def __init__(self, text):
         self.text = text
     def __getitem__(self, index):
         result = self.text[index].upper()
         return result

To see all four methods in action:

for iterator in uc_gen, uc_genexp, uc_iter, uc_getitem:
    for ch in iterator('abcde'):
        print ch,

Which results in:


To answer Colonel Panic's secondary question about an infinite lazily evaluated iterator, here are those examples, using each of the four methods above:

# generator
def even_gen():
    result = 0
    while True:
        yield result
        result += 2

# generator expression
def even_genexp():
    return (num for num in even_gen())  # or even_iter or even_getitem
                                        # not much value under these circumstances

# iterator protocol
class even_iter():
    def __init__(self):
        self.value = 0
    def __iter__(self):
        return self
    def __next__(self):
        next_value = self.value
        self.value += 2
        return next_value

# getitem method
class even_getitem():
    def __getitem__(self, index):
        return index * 2

import random
for iterator in even_gen, even_genexp, even_iter, even_getitem:
    limit = random.randint(15, 30)
    count = 0
    for even in iterator():
        print even,
        count += 1
        if count >= limit:

Which results in (at least for my sample run):

0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32
share|improve this answer
I like this summary because it is complete. Those three ways (yield, generator expression and iterator) are essentially the same, although some are more convenient than others. The yield operator captures the "continuation" which contains the state (for example the index that we are up to). The information is saved in the "closure" of the continuation. The iterator way saves the same information inside the fields of the iterator, which is essentially the same thing as a closure. The getitem method is a little different because it indexes into the contents and is not iterative in nature. – Ian Jul 5 '13 at 1:04
You aren't incrementing the index in your last approach, uc_getitem() . Actually on reflection, it shouldnt increment the index, because it is not maintaining it. But it also is not a way to abstract iteration. – Terrence Brannon Nov 5 '13 at 15:25
@metaperl: Actually, it is. In all four of the above cases you can use the same code to iterate. – Ethan Furman Nov 5 '13 at 16:37

First of all the itertools module is incredibly useful for all sorts of cases in which an iterator would be useful, but here is all you need to create an iterator in python:


Isn't that cool? Yield can be used to replace a normal return in a function. It returns the object just the same, but instead of destroying state and exiting, it saves state for when you want to execute the next iteration. Here is an example of it in action pulled directly from the itertools function list:

 def count(n=0):
     while True:
         yield n
         n += 1

As stated in the functions description (it's the count() function from the itertools module...) , it produces an iterator that returns consecutive integers starting with n.

Generator expressions are a whole other can of worms (awesome worms!). They may be used in place of a List Comprehension to save memory (list comprehensions create a list in memory that is destroyed after use if not assigned to a variable, but generator expressions can create a Generator Object... which is a fancy way of saying Iterator). Here is an example of a generator expression definition:

gen = (n for n in xrange(0,11))

This is very similar to our iterator definition above except the full range is predetermined to be between 0 and 10.

I just found xrange() (suprised I hadn't seen it before...) and added it to the above example. xrange() is an iterable version of range() which has the advantage of not prebuilding the list. It would be very useful if you had a giant corpus of data to iterate over and only had so much memory to do it in.

share|improve this answer
as of python 3.0 there is no longer an xrange() and the new range() behaves like the old xrange() – hop Dec 18 '08 at 17:30
You should still use xrange in 2._, because 2to3 translates it automatically. – Phob Jul 22 '11 at 18:03

I see some of you doing return self in __iter__. I just wanted to note that __iter__ itself can be a generator (thus removing the need for __next__ and raising StopIteration exceptions)

class range:
  def __init__(self,a,b):
    self.a = a
    self.b = b
  def __iter__(self):
    i = self.a
    while i < self.b:
      yield i

Of course here one might as well directly make a generator, but for more complex classes it can be useful.

share|improve this answer
Great! It so boring writing just return self in __iter__. When I was going to try using yield in it I found your code doing exactly what I want to try. – Ray Feb 5 '13 at 19:32
But in this case, how would one implement next()? return iter(self).next()? – Lenna Apr 5 '13 at 19:52
@Lenna, it is already "implemented" because iter(self) returns an iterator, not a range instance. – Manux Apr 7 '13 at 17:31
@Manux iter(range(5,10)).next() is a bit cumbersome. Admittedly a bad example for next behavior. I'm still interested in how to give the range instance a next attribute. – Lenna Apr 24 '13 at 19:06
This the easiest way of doing it, and doesn't involve having to keep track of e.g. self.current or any other counter. This should be the top-voted answer! – astrofrog Mar 31 '14 at 13:35

Addendum to ars' post: the code sample he provides for the Counter works in Python 2.x, but not in Python 3.x. In Python 3.x, you need to define the method __next__(), not next(). Otherwise it's pretty much the same AFAIK.

Source: PEP 3114

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.