# Expression Evaluation In Haskell: Fixing the type of a sub-expression causes parent expression to be evaluated to different degrees

I am not able to explain the following behavior:

``````Prelude> let x = 1 + 2
Prelude> let y = (x,x)
Prelude> :sprint y
Prelude> y = _
``````

Now when I specify a type for x:

``````Prelude> let x = 1 + 2 ::Int
Prelude> let y = (x,x)
Prelude> :sprint y
Prelude> y = (_,_)
``````

Why does the specification of x's type force y to its weak head normal form (WHNF)?

I accidentally discovered this behavior while reading Simon Marlow's Parallel and Concurrent Programming In Haskell.

• See also sprint for polymorphic values, though I find it puzzling that `y`'s tuple constructor is visible here even in the monomorphic case, so perhaps it is not a duplicate. – Daniel Wagner Sep 3 '15 at 21:48

Here's an informed guess. In your first example,

``````x :: Num a => a
``````

So

``````y :: Num a => (a, a)
``````

In GHC core, this `y` is a function that takes a `Num` dictionary and gives a pair. If you were to evaluate `y`, then GHCi would default it for you and apply the `Integer` dictionary. But from what you've shown, it seems likely that doesn't happen with `sprint`. Thus you don't yet have a pair; you have a function that produces one.

When you specialize to `Int`, the dictionary is applied to `x`, so you get

``````x :: Int
y :: (Int, Int)
``````

Instead of a function from a dictionary, `x` is now a thunk. Now no dictionary needs to be applied to evaluate `y`! `y` is just the application of the pair constructor to two pointers to the `x` thunk. Applying a constructor doesn't count as computation, so it's never delayed lazily.