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What is the difference between iterators and generators? Some examples for when you would use each case would be helpful.

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2 Answers 2

iterator is a more general concept: any object whose class has a next method (__next__ in Python 3) and an __iter__ method that does return self.

Every generator is an iterator, but not vice versa. A generator is built by calling a function that has one or more yield expressions (yield statements, in Python 2.5 and earlier), and is an object that meets the previous paragraph's definition of an iterator.

You may want to use a custom iterator, rather than a generator, when you need a class with somewhat complex state-maintaining behavior, or want to expose other methods besides next (and __iter__ and __init__). Most often, a generator (sometimes, for sufficiently simple needs, a generator expression) is sufficient, and it's simpler to code because state maintenance (within reasonable limits) is basically "done for you" by the frame getting suspended and resumed.

For example, a generator such as:

def squares(start, stop):
    for i in xrange(start, stop):
        yield i * i

or the equivalent generator expression (genexp)

(i*i for i in xrange(start, stop))

would take more code to build as a custom iterator:

class Squares(object):
    def __init__(self, start, stop):
       self.start = start
       self.stop = stop
    def __iter__(self): return self
    def next(self):
       if self.start >= self.stop:
           raise StopIteration
       current = self.start * self.start
       self.start += 1
       return current

But, of course, with class Squares you could easily offer extra methods, i.e.

    def current(self):
       return self.start

if you have any actual need for such extra functionality in your application.

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Great explanation. However, I don't think that generators are iterators. I believe that they are named generators because they generate iterators. –  Tyler Crompton Dec 26 '12 at 17:20
10  
@TylerCrompton generators are in fact iterators. They possess __next__ methods that return the next item and __iter__ methods that return the generator itself. –  tjd.rodgers Dec 27 '12 at 23:42
    
@tjd.rodgers, ah, jumped the gun and didn't do a simple dir to check. –  Tyler Crompton Dec 28 '12 at 1:15
    
more python3 notes, available in Python 2.6 or greater, next(obj) replaces obj.next() -- see also PEP 3114 and theres-no-next-function-in-a-yield-generator-in-python-3 –  here May 4 at 4:06

Iterators:

Iterator are objects which uses next() method to get next value of sequence.

Generators:

A generator is a function that produces or yields a sequence of values using yield method.

Every next() method call on generator object(for ex: f as in below example) returned by generator function(for ex: foo() function in below example), generates next value in sequence.

When a generator function is called, it returns an generator object without even beginning execution of the function. When next() method is called for the first time, the function starts executing until it reaches yield statement which returns the yielded value. The yield keeps track of i.e. remembers last execution. And second next() call continues from previous value.

The following example demonstrates the interplay between yield and call to next method on generator object.

>>> def foo():
...     print "begin"
...     for i in range(3):
...         print "before yield", i
...         yield i
...         print "after yield", i
...     print "end"
...
>>> f = foo()
>>> f.next()
begin
before yield 0
0
>>> f.next()
after yield 0
before yield 1
1
>>> f.next()
after yield 1
before yield 2
2
>>> f.next()
after yield 2
end
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
StopIteration
>>>
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