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 ...
In Haskell, is it possible to test if a value has been evaluated to weak head normal form? If a function already exists, I would expect it to have a signature like evaluated :: a -> IO Bool ...
In Haskell, lambdas are considered to be in WHNF, while unapplied user-defined functions are not. What was the motivation behind this distinction?
I've been playing with some examples from Simon Marlow's book about parallel and concurrent programming in Haskell and stumbled across an interesting behavior that I don't really understand. This is ...
The Haskell definition says: An expression is in weak head normal form (WHNF), if it is either: a constructor (eventually applied to arguments) like True, Just (square 42) or (:) 1 a ...
I've read lots on weak head normal form and seq. But I'm still have trouble imagining the logic behind Haskell's order of evaluation A common example demonstrating when and how to use but I still ...
I have this code: import Data.List newList_bad lst = foldl' (\acc x -> acc ++ [x*2])  lst newList_good lst = foldl' (\acc x -> x*2 : acc)  lst These functions return lists with each ...
What does Weak Head Normal Form (WHNF) mean? What does Head Normal form (HNF) and Normal Form (NF) mean? Real World Haskell states: The familiar seq function evaluates an expression to what we ...