I'm sure it has something to do with lazy evaluation, but still, I just can't give myself an explanation of why it acts this way. Why does evaluating the right hand side in verboseAdd2
reverse the debug traces output?
This is the code:
import Debug.Trace
data BinaryTree = Empty | Node Int BinaryTree BinaryTree
instance Show BinaryTree where
show Empty = "_"
show (Node x Empty right) = unwords [ show x, show right]
show (Node x left right) = unwords [show left, show x, show right]
add :: Int -> BinaryTree -> BinaryTree
add v Empty = Node v Empty Empty
add v a@(Node x left right)
| v == x = a
| v < x = Node x (add v left) right
| v > x = Node x left (add v right)
verboseAdd :: Int -> BinaryTree -> BinaryTree
verboseAdd v a = trace ("[1] Adding v=" ++ show v) (add v a)
verboseAdd2 :: Int -> BinaryTree -> BinaryTree
verboseAdd2 v a = trace ("[2] Adding v=" ++ show v ++ " to " ++ show a) (add v a)
verbosePlus :: (Num a, Show a) => a -> a -> a
verbosePlus left right = trace (show left ++ " + " ++ show right)
(left + right)
main :: IO()
main = do
let seq = [1,2,3,4,5]
in do print $ foldr verbosePlus 0 seq
putStrLn ""
print $ foldr verboseAdd Empty seq
putStrLn ""
print $ foldr verboseAdd2 Empty seq
This is the output:
5 + 0
4 + 5
3 + 9
2 + 12
1 + 14
15
[1] Adding v=1
[1] Adding v=2
[1] Adding v=3
[1] Adding v=4
[1] Adding v=5
1 _ 2 _ 3 _ 4 _ 5 _
[2] Adding v=5 to _
[2] Adding v=4 to 5 _
[2] Adding v=3 to 4 _ 5 _
[2] Adding v=2 to 3 _ 4 _ 5 _
[2] Adding v=1 to 2 _ 3 _ 4 _ 5 _
1 _ 2 _ 3 _ 4 _ 5 _
v
to trace but the second one forcesa
too (remembera
here is the rest of your expression ;) ) - and while it will eval thisa
all the other traces happen ;)foldr
(or better the structure you return) is lazy this all will end up in a big thunk and will only get evaluated when you start doing your final show (of"1 _ 2 _ 3 _ 4 _ 5 _"
)