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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!

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  • 6
    This is silly code that parses strings at compile-time within the type system. If you're a beginner, I'd recommend ignoring this example for now. Oct 18, 2017 at 13:35
  • 2
    This solution abuses the type system so to compute the required function at the type level. It does not produce a working program. It does produce some definitions such that, if one asks GHCi the type of a carefully crafted expression (without evaluating it!), the resulting type will include the wanted answer in some format. Basically, it is a hack to force the type inference engine to do the job we want. It is more like a joke than an intended solution. If you are learning Haskell, this is a clever hack that you should ignore.
    – chi
    Oct 18, 2017 at 13:54
  • I see it now. It's really a clever hack. I will find something else to learn. Thank you for advice. Oct 18, 2017 at 14:48

1 Answer 1

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First, I agree with the comments: don't try to understand this "solution" until you've been using Haskell for a few years. For the sake of completeness, though, here's how to use it...

This solution is implemented as a "type-level computation" that takes place at compile time. I'm a little surprised the author didn't provide an explanation of how to use it, since it's far from obvious.

There may be a better way, but here's one that works. First:

  • Add TypeOperator to the list of extensions -- I couldn't get it to compile under GHC 8.0.2 without that.
  • Add an import Data.Proxy

Then, at the bottom, add:

data Nodes = A | B | C | D | E
u = (Proxy :: BuildTree str (Node A [Node B '[], Node C '[]]) => Proxy str)

This defines some constructors for node labels that get lifted to types by the DataKinds extension. We then define the symbol u as a value of type str subject to a constraint based on the "predicate" BuildTree str t where t is the tree. Note that the value of u isn't important (and in fact it's the boring value "Proxy"); it's u's type that's important...

Haskell's type inference will calculate the type of str which we can display in GHCi like so:

> :t u
u :: Proxy '['Down 'A, 'Down 'B, 'Up, 'Down 'C, 'Up, 'Up]
>

Similarly, adding:

v = (Proxy :: BuildTree (['Down 'A, 'Down 'B, 'Up, 'Down 'C, 'Up, 'Up]) t 
    => Proxy t)

at the bottom gives us the reverse transformation:

> :t v
v :: Proxy ('Node 'A '['Node 'B '[], 'Node 'C '[]])
>

Note that the Proxy is used here just to allow us to assign the type to an object. Without the proxy, we're trying to assign u and v to types with a kind other than * (i.e., the kind of concrete types), and that isn't allowed.

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  • Oh! So the constraint is the predicate BuildTree str t. And Haskell's type inference will calculate the type. And the answer is in the type. I see. Thx! Oct 18, 2017 at 14:36

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