Why did Haskell choose to lift type products?

You can justify this design choice without appealing to laziness or refutable patterns.
The same design choice is made ML for reasons of supporting polymorphism. Consider

```
fst (x, y) = x
snd (x, y) = y
```

Now if `(a, (b, c))`

is syntactic sugar for `(a, b, c)`

, it's quite difficult to see how to specialize `fst`

and `snd`

to take this type as an argument. But

```
fst :: (a, (b, c)) -> a
snd :: (a, (b, c)) -> (b, c)
```

are perfectly reasonable. Because polymorphic functions like `fst`

and `snd`

are so incredibly useful, both Haskell and ML give the programmer the ability to distinguish `(a, (b, c))`

and `((a, b), c)`

from `(a, b, c)`

.

(For people who care about costs, the type structure is also a reasonable guide to the size of the type and the number of indirections (loads) needed to get its elements. Some programmers need or want to know about such things and to have some small degree of control over them.)

`(a, (b, (c, ())))`

like HList – yairchu Mar 22 '10 at 23:27