9dd5dff279
Also change the constructors for the Pattern ADT
130 lines
3.9 KiB
Haskell
130 lines
3.9 KiB
Haskell
module Generate.Cases (toMatch, Match (..), Clause (..), matchSubst, newVar) where
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import Control.Applicative ((<$>))
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import Control.Arrow (first)
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import Control.Monad.State
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import Data.List (groupBy,sortBy)
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import Data.Maybe (fromMaybe)
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import SourceSyntax.Annotation
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import SourceSyntax.Expression
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import SourceSyntax.Literal
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import qualified SourceSyntax.Pattern as P
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import qualified SourceSyntax.Variable as V
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import Transform.Substitute
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toMatch :: [(P.Pattern, Expr)] -> State Int (String, Match)
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toMatch patterns = do
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v <- newVar
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(,) v <$> match [v] (map (first (:[])) patterns) Fail
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newVar :: State Int String
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newVar = do n <- get
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modify (+1)
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return $ "_v" ++ show n
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data Match
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= Match String [Clause] Match
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| Break
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| Fail
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| Other Expr
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| Seq [Match]
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deriving Show
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data Clause =
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Clause (Either String Literal) [String] Match
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deriving Show
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matchSubst :: [(String,String)] -> Match -> Match
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matchSubst _ Break = Break
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matchSubst _ Fail = Fail
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matchSubst pairs (Seq ms) = Seq (map (matchSubst pairs) ms)
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matchSubst pairs (Other (A a e)) =
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Other . A a $ foldr ($) e $ map (\(x,y) -> subst x (rawVar y)) pairs
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matchSubst pairs (Match n cs m) =
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Match (varSubst n) (map clauseSubst cs) (matchSubst pairs m)
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where varSubst v = fromMaybe v (lookup v pairs)
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clauseSubst (Clause c vs m) =
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Clause c (map varSubst vs) (matchSubst pairs m)
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isCon (p:_, _) =
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case p of
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P.Data _ _ -> True
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P.Literal _ -> True
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_ -> False
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isVar p = not (isCon p)
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match :: [String] -> [([P.Pattern],Expr)] -> Match -> State Int Match
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match [] [] def = return def
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match [] [([],e)] Fail = return $ Other e
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match [] [([],e)] Break = return $ Other e
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match [] cs def = return $ Seq (map (Other . snd) cs ++ [def])
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match vs@(v:_) cs def
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| all isVar cs' = matchVar vs cs' def
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| all isCon cs' = matchCon vs cs' def
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| otherwise = matchMix vs cs' def
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where
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cs' = map (dealias v) cs
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dealias v c@(p:ps, A a e) =
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case p of
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P.Alias x pattern -> (pattern:ps, A a $ subst x (rawVar v) e)
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_ -> c
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matchVar :: [String] -> [([P.Pattern],Expr)] -> Match -> State Int Match
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matchVar (v:vs) cs def = match vs (map subVar cs) def
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where
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subVar (p:ps, (A a e)) = (ps, A a $ subOnePattern p e)
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where
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subOnePattern pattern e =
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case pattern of
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P.Var x -> subst x (rawVar v) e
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P.Anything -> e
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P.Record fs ->
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foldr (\x -> subst x (Access (A a (rawVar v)) x)) e fs
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matchCon :: [String] -> [([P.Pattern],Expr)] -> Match -> State Int Match
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matchCon (v:vs) cs def = (flip (Match v) def) <$> mapM toClause css
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where
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css = groupBy eq (sortBy cmp cs)
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cmp (p1:_,_) (p2:_,_) =
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case (p1,p2) of
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(P.Data n1 _, P.Data n2 _) -> compare n1 n2
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_ -> compare p1 p2
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eq (p1:_,_) (p2:_,_) =
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case (p1,p2) of
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(P.Data n1 _, P.Data n2 _) -> n1 == n2
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_ -> p1 == p2
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toClause cs =
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case head cs of
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(P.Data name _ : _, _) -> matchClause (Left name) (v:vs) cs Break
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(P.Literal lit : _, _) -> matchClause (Right lit) (v:vs) cs Break
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matchClause :: Either String Literal
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-> [String]
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-> [([P.Pattern],Expr)]
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-> Match
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-> State Int Clause
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matchClause c (_:vs) cs def =
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do vs' <- getVars
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Clause c vs' <$> match (vs' ++ vs) (map flatten cs) def
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where
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flatten (p:ps, e) =
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case p of
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P.Data _ ps' -> (ps' ++ ps, e)
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P.Literal _ -> (ps, e)
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getVars =
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case head cs of
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(P.Data _ ps : _, _) -> forM ps (const newVar)
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(P.Literal _ : _, _) -> return []
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matchMix :: [String] -> [([P.Pattern],Expr)] -> Match -> State Int Match
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matchMix vs cs def = foldM (flip $ match vs) def (reverse css)
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where css = groupBy (\p1 p2 -> isCon p1 == isCon p2) cs
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