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I've learnt from the official documentation of python 2.7.8 how to work with iterators and generators. I've got a question related on a curiosity.

it = iter("abcde")
print it
>>> <iterator object at 0x7ff4c2b3bad0>

class example1():
    def __init__(self, word):
        self.word = word
        self.index = len(word)
    def __iter__(self):
        for x in range(self.index - 1, -1, -1):
            yield self.word[x]

a = example1("altalena")
print iter(a)
>>> <generator object __iter__ at 0x7f24712000a0>

In the above examples, when I print the iterators, i read "generator","iterator" object and the hexadecimal ID. Why I can't do the same with the following code?

class example2():
    def __init__(self, word):
        self.word = word
        self.index = len(word)
    def __iter__(self):
        return self
    def next (self):
        if self.index == 0:
            raise StopIteration
        self.index = self.index - 1
        return self.word[self.index]
a = example2()
print iter(a)
>>> <__main__.example2 instance at 0x7f89ee2de440>

I think it is caused by "return self" in iter, that leads to the class instance, but i don't know the solution to get a more right output. It may be useless but I don't know why it is an how to avoid it.

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  • If you want to change what print does to your instance, you have to play with __repr__ and/or __str__ Aug 4, 2014 at 12:09
  • Please, try to respect PEP8 in the future Aug 4, 2014 at 12:12
  • So I have made no mistakes, right? I've just to create the behaviour that I like, in order to obtain a returning string with the proper style. I've made this a few times to solve other problems related to im_data and im_self... but how can i obtain the memory ID of the iterator and not of the class instance? Aug 4, 2014 at 12:14
  • what says PEP8? i'm reading python doc from the beginning section "tutorial", although in the past i've learned python in general, now i want to study all the documentation and so i'm still learning. Aug 4, 2014 at 12:16
  • Lazy solution: make print iter(a) show whatever you want by defining example2's __str__ method, returning the desired string. Now it will no longer show <main.example2 instance...
    – Kevin
    Aug 4, 2014 at 12:16

2 Answers 2

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Generators are a type of iterator. Your example1 class is returning a generator because you used yield in the __iter__; it is a separate iterator object, returned from __iter__. This makes your example1 class iterable, not an iterator itself.

In your second example your class __iter__ returns self. It is not just iterable, it is its own iterator. Because it is returning self, there is no separate object here.

Python makes an explicit distinction between iterable and iterator. An iterable can potentially be iterated over. An iterator does the actual work when iterating. By using iter() you ask Python to produce an iterator for a given iterable.

This is why iter(stringobject) returns a new object; you have produced an iterator from the iterable string.

You need this distinction because the process of iterating requires something that keeps state; namely where in the process are we now. An iterator is the object that keeps track of that, so that each time you call the .next() method on the iterator, you get the next value, or StopIteration is raised if there is no next value to produce anymore.

So in your example, the string and example1 are both just iterable, and calling iter() on them produced a new separate iterator.

However, your example2 is it's own iterator. Calling iter() on it does not produce a separate object. You cannot create separate iterators from something that already is an iterator.

If you want to produce a new independent iterator for your example2 class, you need to return a distinct, separate object from __iter__:

class ExampleIterator(object):
    def __init__(self, source):
        self.source = source
        self.position = len(source)

    def __iter__(self):
        return self

    def next(self):
        if self.position <= 0:
            raise StopIteration
        self.position -= 1
        return self.source[self.position]

class Example2():
    def __init__(self, word):
        self.word = word

    def __iter__(self):
        return ExampleIterator(self)

Here Example2 is just a iterable again, not an iterator. The __iter__ method returns a new, distinct ExampleIterator() instance, and it is responsible for keeping track of the iteration state.

7
  • ok so it's already an iterator. so why i get "instance" instead of "iterator"? simply because it is an object obtained by instantation of a class? Aug 4, 2014 at 12:31
  • You are looking at the default __repr__ representation string for custom classes. If you want it to say something different, implement your own __repr__ method.
    – Martijn Pieters
    Aug 4, 2014 at 12:35
  • If you did not call iter() on the object it would also use the same representation string.
    – Martijn Pieters
    Aug 4, 2014 at 12:35
  • correct me if i'm saying something wrong: since example2 in my example is already iterator & iterable, calling the function iter(example2) doesn't return any effect, and so it is useless. Aug 4, 2014 at 12:39
  • @PatrickRoncagliolo: it is not useless. The iterator for an iterator is the object itself, but code that always uses iter() to support iterables doesn't have to know about this detail.
    – Martijn Pieters
    Aug 4, 2014 at 12:42
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I think you don't have a problem, you just don't understand what happens here.

In general, iter(object) returns an iterator for this iterable object.

This is obtained either via calling __iter__() or, if that doesn't exist, by providing a wrapper object which calls __getitem__() until it is exhausted (raises IndexError).

The object returned by __iter__() can either be the iterable itself (like in your 2nd example) or something else. Especially, it can be a generator object if you make __iter__() a generator function as you do in your 1st example.

The iteration itself happens with the iterator object and its next() resp. __next__() method.

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