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I'm trying to create a function that returns itself in a tuple of values. Basically the idea is that the caller would get back transformed values, along with a new (curried) version of the function to use further along in the processing.

However, at the moment, I'm stuck trying to come up with a no-op (i.e. do-nothing) version of this function. So the following snippet is obviously fine - this is a no-op which doesn't return itself:

noOp s as xs = (s, as, xs)

But if I change to this:

noOp s as xs = (s, as, xs, noOp)

I get the "infinite type" error:

Occurs check: cannot construct the infinite type:
  t3 = t0 -> t1 -> t2 -> (t0, t1, t2, t3)
In the expression: noop
In the expression: (s, as, xs, noop)
In an equation for `noop': noop s as xs = (s, as, xs, noop)

There's plenty of discussion on SO about handling the infinite type error - but I can't quite figure out how to apply to my problem.

Any advice welcomed...

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Why in the first place you want to return the same function again ? – Satvik Aug 15 '13 at 9:14
Try writing the the type and you will understand why ghc complains. – Satvik Aug 15 '13 at 9:15
Introduce a new type (data or newtype) somewhere to make the a recursive type. E.g., make a new type for the return type of noOp. – augustss Aug 15 '13 at 9:16
I'm returning the same function again, because the normal use will be a curried function which takes an argument with some state info. So the basic idea is that the real (not the no-op version) function will return a new version of the itself with different state. – Richard Wilson Aug 15 '13 at 9:23
up vote 9 down vote accepted

To express something like this, you'd need a recursive type. Since Haskell doesn't support equirecursive types, you'll need to use newtype/data.

So you might define newtype Foo s = Foo { runFoo :: s -> (s, Foo s) }, for instance, and then write noOp :: Foo (A,B,C); noOp = Foo (\(a,b,c) -> ((a,b,c), noOp)).

This looks like a Mealy machine. The package machines exports a similar type: newtype Mealy i o = Mealy { runMealy :: i -> (o, Mealy i o) }

share|improve this answer
I'm not sure I quite understand how to use that. How would I create a new Foo, call the noOp func, and then extract the tuple of a,b,c and noOp fund from the return? With apologies for the stupid question - I'm new to Haskell, and working through the tutorials while trying experiments for myself... – Richard Wilson Aug 15 '13 at 12:32
I gave an example there. It'll compile if you change (A,B,C) to some types you actually have. E.g. for Int state, you can write noOp :: Foo Int; noOp = Foo (\x -> (x, noOp)). Then noOp :: Foo Int. To get a function out of it, you can just use runFoo: runFoo noOp :: Int -> (Int, Foo Int). – shachaf Aug 15 '13 at 19:00

Just answering what @augustss was trying to say. The way to go is to use recursive types like

data Foo a = Foo a (a -> Foo a)
noop :: a -> Foo a
noop a = Foo a noop
share|improve this answer
For what it's worth, relating to my answer, this Foo is a Moore machine. data Moore i o = Moore o (i -> Moore i o). But you can also define these in terms of each other: Mealy i o = i -> Moore i o; Moore i o = (o, Mealy i o). – shachaf Aug 15 '13 at 9:28

The problem you are facing is that you have an infinitely recursive type! The type of noOp is something along the lines of

noOp :: a -> b -> c -> (a,b,c,a -> b -> c -> (a,b,c,a -> b -> c -> (a,b,c,...))))

As you can see, we can never fully write out the type of noOp because it relies on the type of noOp. If only we could encapsulate the type of noOp we could refer to it by name.

But, in fact, we can do that!

data Foo a b c = Foo (a -> b -> c -> (a,b,c,Foo a b c))

As you can see, the recursion is captured because we refer to the type by Foo a b c. Now it is necessary to wrap and unwrap:

runFoo (Foo f) = f

noOp s as xs = Foo (s, as, xs, noOp)

Now, I agree, this seems a bit inconvenient, but for a real application you could possibly find a more suitable data structure than Foo to hold your values, possibly something along the lines of

data Bar s as xs = Bar s as xs (Bar s as xs)
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