I'm trying to better understand the effect/meaning of `seq`

on `->`

-typed values, or rather what WHNF means for `->`

-values.

The Haskell Report defines `seq`

as

```
seq ⊥ b = ⊥
seq a b = b, if a ≠ ⊥
```

The report also notes that due to those definitions above

```
⊥ is not the same as \x -> ⊥, since seq can be used to distinguish them
```

If I have the following definitions

```
f, g :: () -> ()
g = ⊥
f = \x -> g x
```

Then `f`

should be syntactically equivalent to `g`

(shouldn't it?), but what should the expressions

```
seq f ()
seq g ()
```

according to the Haskell Report evaluate to?

`f`

should be syntactically equivalent to`g`

, shouldn't it?": no, they are not syntactically equivalent. In fact, what you did is called η-expansion (the opposite of η-reduction), and deciding whether or not to include η-reduction when designing a language is a somewhat deep semantic question with some surprising and profound consequences. – Daniel Wagner Sep 10 '11 at 14:48