I am currently learning Haskell, and there is one thing that baffles me:

When I build a complex expression (whose computation will take some time) and this expression is constant (meaning it is build only of known, hard coded values), the expression is not evaluated at compile time.

Comming from a C/C++ background I am used to such kind of optimization.

What is the reason to **NOT** perform such optimization (by default) in Haskell / GHC ? What are the advantages, if any?

```
data Tree a =
EmptyTree
| Node a (Tree a) (Tree a)
deriving (Show, Read, Eq)
elementToTree :: a -> Tree a
elementToTree x = Node x EmptyTree EmptyTree
treeInsert :: (Ord a) => a -> Tree a -> Tree a
treeInsert x EmptyTree = elementToTree x
treeInsert x (Node a left right)
| x == a = Node x left right
| x < a = Node a (treeInsert x left) right
| x > a = Node a left (treeInsert x right)
treeFromList :: (Ord a) => [a] -> Tree a
treeFromList [] = EmptyTree
treeFromList (x:xs) = treeInsert x (treeFromList xs)
treeElem :: (Ord a) => a -> Tree a -> Bool
treeElem x EmptyTree = False
treeElem x (Node a left right)
| x == a = True
| x < a = treeElem x left
| x > a = treeElem x right
main = do
let tree = treeFromList [0..90000]
putStrLn $ show (treeElem 3 tree)
```

As this will *always* print `True`

I would expect the compiled programm to print and exit
almost immediately.

uselazy evaluation, and it doesn't even have to use the same evaluation strategy for all "constants". – Ben Mar 31 '14 at 1:53