I was trying to learn Haskell by 99 Haskell problems and bumped into "4 Problem 70". It's about "Tree construction from a node string". (the description is here)
And I just don't understand the last solution there.
The exercise was really designed for Prolog, and calls for a bidirectional predicate. The closest thing to that, in Haskell, is a class! This is really a parsing/pretty-printing solution, with the names to match. Rather than trying to work with strings and a special "up" character (which won't really work at the type level), we use lists of explicit instructions. The requested predicate is BuildTree.
{-# language MultiParamTypeClasses, FunctionalDependencies,
FlexibleContexts, FlexibleInstances, UndecidableInstances,
DataKinds, PolyKinds #-}
import Data.Tree
data Instr c = Up | Down c
class ParseTree str t '[]
=> BuildTree (str :: [Instr c]) (t :: Tree c) | str -> t, t -> str
instance ParseTree str t '[]
=> BuildTree str t
We use two helpers to implement it:
class ParseTree (str :: [Instr c]) (t :: Tree c) (rem :: [Instr c])
| str -> t rem, t rem -> str
class ParseForest (str :: [Instr c]) (ts :: [Tree c]) (rem :: [Instr c])
| str -> ts rem, ts rem -> str
instance ParseTree ('Down c ': 'Up ': r) ('Node c '[]) r
instance ParseForest ('Down d ': is) (t ': ts) r
=> ParseTree ('Down c ': 'Down d ': is) ('Node c (t ': ts)) r
instance ParseForest ('Up ': is) '[] is
instance ( ParseTree ('Down c ': is) t r
, ParseForest r ts r')
=> ParseForest ('Down c ': is) (t ': ts) r'
And I ghci this code and can't find a function ready to use.
The requested predicate is BuildTree.
Does that mean I have to write this predicate?
Thank you for help!