I am trying to understand iterator. I notice Python documentation considers iterator to be a functional-style construct. I don't really understand it.

Isn't it true that iterator has a state inside it. So when you call it.__next__(), you mutate the state of the iterator. As far as I know, mutating state of an object is not considered functional, since functional programming emphasize on immutability and compose-ability of object/closure.

Actually, the problem comes up because I want to write a Scheme procedure/function which takes tokens and return a iterator.

(define tokens->iterator
  (lambda ls
    (lambda ()
      (if (null? ls)
          (let ((tok (car ls)))
            (set! ls (cdr ls))

Notice I have to use set! to mutate ls, this is how I comes up with this question.

To use it,

(define it (tokens->iterator 1 '+ 2))

To test it,

scheme@(guile-user)> (it)
$2 = 1
scheme@(guile-user)> (it)
$3 = +
scheme@(guile-user)> (it)
$4 = 2
scheme@(guile-user)> (it)
$5 = *eoi*
scheme@(guile-user)> (it)
$6 = *eoi*

Just for fun, I also translate this to Python:

def tokens_to_iterator(*tup):
    ls = list(tup)
    def iterator():
        if not ls:
            return "*eoi*"
            tok = ls.pop(0)
            return tok
    return iterator

Similarly, the pop() method removes and return the first element by mutating the list.

To use it,

it = tokens_to_iterator(1, "+", 2)

To test it,

>>> it()
>>> it()
>>> it()
>>> it()
>>> it()

Can anyone clarify on this? By the way, I am using Python 3 and Guile Scheme in case anyone is interested in trying the examples.

  • 5
    "Functional" and "mutable-state-free" are not the same thing. – zwol Mar 17 '16 at 15:21
  • because this state is hidden inside, and inaccessible from the outside; it is encapsulated. It changes automatically on each next call, and the validity of the object is preserved. From point of view of the outside observer, it behaves according to some laws, is consistent, and this can't be arbitrarily changed from the outside. this state is just an implementational detail. – Will Ness Mar 17 '16 at 15:27
  • @zwol There is also "side-effect-free". Is it the same as "mutable-state-free"? Why is "Functional" and "mutable-state-free" not the same? Isn't all "functional" language emphasis on "mutable-state-free"? Am I missing sth here? – Alex Vong Mar 17 '16 at 15:34
  • 1
    @Will Ness Isn't OOP also has data encapsulation? For example, state is encapsulated inside an object. All you can do is to invoke an object's method. What exactly makes iterator functional? – Alex Vong Mar 17 '16 at 15:44
  • 1
    for a related example, see http://3e8.org/pub/scheme/doc/lisp-pointers/v1i4/p23-clinger.pdf and the author's remarks on problems with using generators. With two consumers, the sequence as observed by either one is jumbled up. So, this is fragile, depending on the use protocol. The other thing in that paper, streams, in effect add storage, where the results produced by a generator are stored, so both consumers observe the same (shared) sequence (because they pull from storage, not from generator itself). That's also what itertools.tee() does, IIRC. Or something like that. – Will Ness Mar 18 '16 at 11:22

You have an excellent point. Iterators are certainly not "purely functional," the term often used to describe idioms that use no mutation at all. The broader term "functional," though, is more loosely defined to indicate programs that use relatively little mutation, that make use of higher-order and first-class functions, and perhaps most broadly of all, "use weird abstractions that don't look like C."

I think, to be frank, that I would not call iterators functional. That is: I agree with you.

  • 4
    "use weird abstractions that don't look like C", like monad... – Alex Vong Mar 17 '16 at 15:59

The functional style is to work with lists of data as a whole, rather than a collection of values you can change at a whim. For instance, if you have a list of numbers, and you want to change the 3rd element, the non-functional approach is to directly change it:

>>> lst = ["a", "b", "c", "d", "e"]
>>> lst[3] = "Z"
>>> lst
["a", "b", "c", "Z", "e"]

The functional approach is to write a function that take the original sequence and returns a new list with the change made, leaving the original unchanged.

>>> lst = ["a", "b", "c", "d", "e"]
>>> new_lst = [x if i != 3 else "Z" for (i, x) in enumerate(lst)]
>>> lst
["a", "b", "c", "d", "e"]
>>> new_lst
["a", "b", "c", "Z", "e"]

Neither of your iterators is purely functional, because they do maintain mutable state, although treated as a black box you can use them functionally because the user of the iterator cannot affect that state directly.

A purely functional iterator would be a function that takes as input the list and the current state, and return a value and a new state to be passed to the next call of the function.

>>> state = 0
>>> def it(lst, state):
...   if state is None:
...       return None
...   return lst[state], state + 1
>>> lst = ["a", "b", "c", "d", "e"]
>>> value, new_state = it(lst, state)
>>> value
>>> state, new_state
(0, 1)
>>> it(lst, new_state)
('b', 2)
>>> state, new_state
(0, 1)
  • Fixed. It's difficult to demonstrate purely functional techniques in Python since it doesn't have let bindings to temporarily name a function result, which is not quite the same as variable assignment. (The big difference is that you can bind a name once; you can't change the binding later.) – chepner Mar 17 '16 at 16:25
  • I see, so state is passed in explicitly, making your iterator purely functional, since the same lst and same state, the iterator will return the same element. Can I further claim Python's iterator is not purely functional because it.__next__() will return different element with the same input (which is nothing in this case), an evidence that the iterator is maintaining state internally? – Alex Vong Mar 17 '16 at 16:42
  • Correct. That's one reason why, after passing an iterator to itertools.tee, you are only supposed to use one of the iterators returned by the function, not the original iterator itself. – chepner Mar 17 '16 at 16:53
  • 1
    (Note to future readers: someone commented on my original use of a variable to pass state between successive calls to it; my first comment and subsequent edit is a response to that. I wish that user had not deleted his comment; it was a valid point.) – chepner Mar 17 '16 at 16:55

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