How to make these dynamically typed functions type-safe?

Is there any programming language (or type system) in which you could express the following Python-functions in a statically typed and type-safe way (without having to use casts, runtime-checks etc)?

`#1`:

``````# My function - What would its type be?
def Apply(x):
return x(x)

# Example usage
print Apply(lambda _: 42)
``````

`#2`:

``````white = None
black = None

def White():
for x in xrange(1, 10):
print ("White move #%s" % x)
yield black

def Black():
for x in xrange(1, 10):
print ("Black move #%s" % x)
yield white

white = White()
black = Black()

# What would the type of the iterator objects be?
for it in white:
it = it.next()
``````
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Is this homework? –  S.Lott Jul 3 '09 at 13:14
No! Why do you think so? –  Dario Jul 3 '09 at 15:50

1# This is not typeable with a finite type. This means that very few (if any) programming languages will be able to type this.

However, as you have demonstrated, there is a specific type for x that allows the function to be typed:

``````x :: t -> B
``````

Where `B` is some concrete type. This results in `apply` being typed as:

``````apply :: (t -> B) -> B
``````

Note that Hindley-Milner will not derive this type.

2# This is easy to represent in Haskell (left as an exercise to the reader...)

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To #2: Could you give a concrete example? I think one would implement this in Haskell in a quite different way (monads/continuations), but wouldn't typing the iterators be the same problem as in #1? –  Dario Jul 6 '09 at 17:08

I found a Haskell solution for #1 using Rank-N-Types (just for GHCi)

``````{-# LANGUAGE RankNTypes #-}
apply :: (forall a . a -> r) -> r
apply x = x x

apply \$ const 42 -- Yields 42
``````
-

When it comes to example #1, you would have to specify the return type of Apply(), and then all functions x that you pass also must return this. Most statically typed languages would not be able to do that safely without checks, as the x function you pass in can return whatever.

In example #2 the type of the iterator objects are that they are iterators. If you mean what they return, they return iterators. I don't see why that wouldn't be possible in a static system, but maybe I'm missing something.

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Iterators are also generic since you need to know the type of the value it contains (Iterator<int>). –  Dario Jul 3 '09 at 12:50
contains? Why? You need to know what they return, and in this case they return another iterator. –  Lennart Regebro Jul 3 '09 at 13:23
Wait, you mean that we can't be sure that the iterator the iterator returns returns an iterator, and that's true. In short, no, in a static language, if use generic functions and pass them around, then no, you don't know what they return. In fact, this is typically something you do in a static language when you end up needing dynamic functionality. ;) –  Lennart Regebro Jul 3 '09 at 13:28