patrickaldis/geolog-lsp
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Refactor to add metadata

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This commit is contained in:
George Thomas 2026-03-02 17:05:32 +00:00
parent be5e487e31
commit a1a8f1c6f4
2 changed files with 33 additions and 24 deletions
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8
datalog/src/Datalog/Parser.hs
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@ -37,10 +37,10 @@ comma = () <$ symbol ","
period = () <$ symbol "." period = () <$ symbol "."
parseCon :: (MonadParsec e Text m) => m Term parseCon :: (MonadParsec e Text m) => m Term
parseCon = Con . ConId . T.pack <$> lexeme (liftA2 (:) (numberChar <|> lowerChar) (many alphaNumChar)) parseCon = Con () . ConId . T.pack <$> lexeme (liftA2 (:) (numberChar <|> lowerChar) (many alphaNumChar))
parseVar :: (MonadParsec e Text m) => m Term parseVar :: (MonadParsec e Text m) => m Term
parseVar = Var . VarId . T.pack <$> lexeme (liftA2 (:) upperChar (many alphaNumChar)) parseVar = Var () . VarId . T.pack <$> lexeme (liftA2 (:) upperChar (many alphaNumChar))
parseTerm :: Parser Term parseTerm :: Parser Term
parseTerm = parseVar <|> parseCon parseTerm = parseVar <|> parseCon
@ -49,7 +49,7 @@ parseAtom :: Parser Atom
parseAtom = do parseAtom = do
rel <- RelId . T.pack <$> lexeme (liftA2 (:) lowerChar (many alphaNumChar)) rel <- RelId . T.pack <$> lexeme (liftA2 (:) lowerChar (many alphaNumChar))
args <- parens (parseTerm `sepBy` comma) args <- parens (parseTerm `sepBy` comma)
return (Atom rel args) return (Atom () rel args)
parseQuery :: Parser [Atom] parseQuery :: Parser [Atom]
parseQuery = parseAtom `sepBy` comma parseQuery = parseAtom `sepBy` comma
@ -68,4 +68,4 @@ parseRule = try parseFact <|> do
return (headAtom :- bodyAtoms) return (headAtom :- bodyAtoms)
parseProgram :: Parser Program parseProgram :: Parser Program
parseProgram = Program <$> many parseRule parseProgram = Program () <$> many parseRule

49
datalog/src/Datalog/Syntax.hs
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@ -1,3 +1,5 @@
{-# LANGUAGE PatternSynonyms #-}
module Datalog.Syntax where module Datalog.Syntax where
import Data.Char (isUpper) import Data.Char (isUpper)
@ -15,49 +17,56 @@ newtype VarId = VarId Text
newtype RelId = RelId Text newtype RelId = RelId Text
deriving (Eq, Ord, Show) deriving (Eq, Ord, Show)
data Term = Con ConId | Var VarId type Term = Term' ()
data Term' a = Con a ConId | Var a VarId
deriving (Eq, Ord, Show) deriving (Eq, Ord, Show)
con :: Text -> Term con :: Text -> Term
con = Con . ConId con = Con () . ConId
var :: Text -> Term var :: Text -> Term
var = Var . VarId var = Var () . VarId
term :: Text -> Term term :: Text -> Term
term t = if not (T.null t) && isUpper (T.head t) then var t else con t term t = if not (T.null t) && isUpper (T.head t) then var t else con t
data Atom = Atom RelId [Term] type Atom = Atom' ()
data Atom' a = Atom a RelId [Term' a]
deriving (Eq, Ord, Show) deriving (Eq, Ord, Show)
atom :: Text -> [Text] -> Atom atom :: Text -> [Text] -> Atom
atom relName args = Atom (RelId relName) (map term args) atom relName args = Atom () (RelId relName) (map term args)
data Rule = Atom :- [Atom] type Rule = Rule' ()
data Rule' a = Rule a (Atom' a) [Atom' a]
deriving (Eq, Ord, Show) deriving (Eq, Ord, Show)
{-# COMPLETE (:-) #-}
pattern (:-) :: Atom' () -> [Atom' ()] -> Rule' ()
pattern a :- b = Rule () a b
data Program = Program [Rule] type Program = Program' ()
data Program' a = Program a [Rule' a]
deriving (Eq, Ord, Show) deriving (Eq, Ord, Show)
class HasConstants a where class HasConstants a where
constants :: a -> Set ConId constants :: a -> Set ConId
instance HasConstants Term where instance HasConstants (Term' a) where
constants t = case t of constants t = case t of
Con x -> Set.singleton x Con _ x -> Set.singleton x
Var _ -> Set.empty Var _ _ -> Set.empty
instance HasConstants a => HasConstants [a] where instance HasConstants a => HasConstants [a] where
constants xs = Set.unions (map constants xs) constants xs = Set.unions (map constants xs)
instance HasConstants Atom where instance HasConstants (Atom' a) where
constants (Atom _ ts) = constants ts constants (Atom _ _ ts) = constants ts
instance HasConstants Rule where instance HasConstants (Rule' a) where
constants (h :- b) = Set.union (constants h) (constants b) constants (Rule _ h b) = Set.union (constants h) (constants b)
instance HasConstants Program where instance HasConstants (Program' a) where
constants (Program rs) = constants rs constants (Program _ rs) = constants rs
class Pretty t where class Pretty t where
pretty :: t -> Text pretty :: t -> Text
@ -72,15 +81,15 @@ instance Pretty RelId where
pretty (RelId t) = t pretty (RelId t) = t
instance Pretty Term where instance Pretty Term where
pretty (Con conId) = pretty conId pretty (Con () conId) = pretty conId
pretty (Var varId) = pretty varId pretty (Var () varId) = pretty varId
instance Pretty Atom where instance Pretty Atom where
pretty (Atom relId terms) = pretty relId <> "(" <> T.intercalate "," (map pretty terms) <> ")" pretty (Atom () relId terms) = pretty relId <> "(" <> T.intercalate "," (map pretty terms) <> ")"
instance Pretty Rule where instance Pretty Rule where
pretty (h :- []) = pretty h <> "." pretty (h :- []) = pretty h <> "."
pretty (h :- ts) = pretty h <> " :- " <> T.intercalate ", " (map pretty ts) <> "." pretty (h :- ts) = pretty h <> " :- " <> T.intercalate ", " (map pretty ts) <> "."
instance Pretty Program where instance Pretty Program where
pretty (Program rs) = T.unlines (map pretty rs) pretty (Program () rs) = T.unlines (map pretty rs)