module Language.Prolog.NanoProlog.NanoProlog (
Env
, LowerCase
, Result(..)
, Rule((:<-:))
, Subst(..)
, Taggable(..)
, Term(..)
, emptyEnv
, enumerateDepthFirst
, matches
, pFun
, pRule
, pTerm
, pTerms
, show'
, solve
, startParse
, unify
) where
import Data.ListLike.Base (ListLike)
import Data.List (intercalate)
import Data.Map (Map)
import qualified Data.Map as M
import Text.ParserCombinators.UU
import Text.ParserCombinators.UU.BasicInstances
import Text.ParserCombinators.UU.Utils
type UpperCase = String
type LowerCase = String
type Tag = String
data Term = Var UpperCase
| Fun LowerCase [Term]
deriving (Eq, Ord)
type TaggedTerm = (Tag, Term)
data Rule = Term :<-: [Term]
deriving Eq
class Taggable a where
tag :: Tag -> a -> a
instance Taggable Term where
tag n (Var x) = Var (x ++ n)
tag n (Fun x xs) = Fun x (tag n xs)
instance Taggable Rule where
tag n (c :<-: cs) = tag n c :<-: tag n cs
instance Taggable a => Taggable [a] where
tag n = map (tag n)
type Env = Map UpperCase Term
emptyEnv :: Maybe (Map UpperCase t)
emptyEnv = Just M.empty
data Result = Done Env
| ApplyRules [(Tag, Rule, Result)]
type Proofs = [(Tag, Rule)]
class Subst t where
subst :: Env -> t -> t
instance Subst a => Subst [a] where
subst e = map (subst e)
instance Subst Term where
subst env (Var x) = maybe (Var x) (subst env) (M.lookup x env)
subst env (Fun x cs) = Fun x (subst env cs)
instance Subst Rule where
subst env (c :<-: cs) = subst env c :<-: subst env cs
matches :: (Term, Term) -> Maybe Env -> Maybe Env
matches _ Nothing = Nothing
matches (t, u) env@(Just m) = match(subst m t) u
where match (Var x) y = Just (M.insert x y m)
match (Fun x xs) (Fun y ys)
| x == y && length xs == length ys = foldr matches env (zip xs ys)
match _ _ = Nothing
unify :: (Term, Term) -> Maybe Env -> Maybe Env
unify _ Nothing = Nothing
unify (t, u) env@(Just m) = uni (subst m t) (subst m u)
where uni (Var x) y = Just (M.insert x y m)
uni x (Var y) = Just (M.insert y x m)
uni (Fun x xs) (Fun y ys)
| x == y && length xs == length ys = foldr unify env (zip xs ys)
| otherwise = Nothing
solve :: [Rule] -> Maybe Env -> [TaggedTerm] -> Result
solve _ Nothing _ = ApplyRules []
solve _ (Just e) [] = Done e
solve rules e ((tg,t):ts) = ApplyRules
[ let cts = map ((tg ++) . ('.' :) . show) ([1..] :: [Int]) `zip` cs ++ ts
in (tg, rule, solve rules (unify (t, c) e) cts)
| rule@(c :<-: cs) <- tag tg rules
]
enumerateDepthFirst :: Proofs -> Result -> [(Proofs, Env)]
enumerateDepthFirst proofs (Done env) = [(proofs, env)]
enumerateDepthFirst proofs (ApplyRules bs) =
[ s | (tag', rule, subTree) <- bs
, s <- enumerateDepthFirst ((tag', rule):proofs) subTree
]
show' :: Env -> String
show' env = intercalate ", " . filter (not.null) . map showBdg $ M.assocs env
where showBdg (x, t) | isGlobVar x = x ++ " <- " ++ showTerm t
| otherwise = ""
showTerm t@(Var _) = showTerm (subst env t)
showTerm (Fun f []) = f
showTerm (Fun f ts) = f ++ "(" ++ intercalate ", " (map showTerm ts) ++ ")"
isGlobVar x = head x `elem` ['A'..'Z'] && last x `notElem` ['0'..'9']
instance Show Term where
show (Var i) = i
show (Fun i [] ) = i
show (Fun i ts ) = i ++ "(" ++ showCommas ts ++ ")"
instance Show Rule where
show (t :<-: [] ) = show t ++ "."
show (t :<-: ts ) = show t ++ ":-" ++ showCommas ts ++ "."
showCommas :: Show a => [a] -> String
showCommas l = intercalate ", " (map show l)
startParse :: (ListLike s b, Show b) => P (Str b s LineColPos) a -> s
-> (a, [Error LineColPos])
startParse p inp = parse ((,) <$> p <*> pEnd)
$ createStr (LineColPos 0 0 0) inp
pSepDot :: Parser String -> Parser [String]
pSepDot p = (:) <$> p <*> pFoldr list_alg ((:) <$> pDot <*> p)
pTerm, pVar, pFun :: Parser Term
pTerm = pVar <|> pFun
pVar = Var <$> lexeme ((++) <$> pList1 pUpper <*> (concat <$> pSepDot (pList1 pDigit) <|> pure []))
pFun = Fun <$> pLowerCase <*> (pParens pTerms `opt` [])
where pLowerCase :: Parser String
pLowerCase = (:) <$> pLower <*> lexeme (pList (pLetter <|> pDigit))
pRule :: Parser Rule
pRule = (:<-:) <$> pFun <*> (pSymbol ":-" *> pTerms `opt` []) <* pDot
pTerms :: Parser [Term]
pTerms = pListSep pComma pTerm