{-# Language FlexibleInstances, GeneralizedNewtypeDeriving #-} {- | Module : Language.Egison.Desugar Copyright : Satoshi Egi Licence : MIT This module provide desugar functions. -} module Language.Egison.Desugar ( DesugarM , runDesugarM , desugarTopExpr , desugarExpr , desugar ) where import Control.Applicative (Applicative) import Control.Applicative ((<$>), (<*>), (<*), (*>), pure) import qualified Data.Sequence as Sq import Data.Sequence (ViewL(..), (<|)) import qualified Data.Set as S import Data.Set (Set) import Data.Char (toUpper) import Control.Monad.Error import Control.Monad.Reader import Language.Egison.Types type Subst = [(String, EgisonExpr)] newtype DesugarM a = DesugarM { unDesugarM :: ReaderT Subst (ErrorT EgisonError Fresh) a } deriving (Functor, Applicative, Monad, MonadError EgisonError, MonadFresh, MonadReader Subst) runDesugarM :: DesugarM a -> Fresh (Either EgisonError a) runDesugarM = runErrorT . flip runReaderT [] . unDesugarM desugarTopExpr :: EgisonTopExpr -> EgisonM EgisonTopExpr desugarTopExpr (Define name expr) = do expr' <- liftEgisonM $ runDesugarM $ desugar expr return (Define name expr') desugarTopExpr (Test expr) = do expr' <- liftEgisonM $ runDesugarM $ desugar expr return (Test expr') desugarTopExpr (Execute expr) = do expr' <- liftEgisonM $ runDesugarM $ desugar expr return (Execute expr') desugarTopExpr expr = return expr desugarExpr :: EgisonExpr -> EgisonM EgisonExpr desugarExpr expr = liftEgisonM $ runDesugarM $ desugar expr desugar :: EgisonExpr -> DesugarM EgisonExpr desugar (AlgebraicDataMatcherExpr patterns) = do matcherName <- fresh matcherRef <- return $ VarExpr matcherName matcher <- genMatcherClauses patterns matcherRef return $ LetRecExpr [([matcherName], matcher)] matcherRef where genMatcherClauses :: [(String, [EgisonExpr])] -> EgisonExpr -> DesugarM EgisonExpr genMatcherClauses patterns matcher = do main <- genMainClause patterns matcher body <- mapM genMatcherClause patterns footer <- genSomethingClause clauses <- return $ [main] ++ body ++ [footer] return $ MatcherDFSExpr clauses genMainClause :: [(String, [EgisonExpr])] -> EgisonExpr -> DesugarM (PrimitivePatPattern, EgisonExpr, [(PrimitiveDataPattern, EgisonExpr)]) genMainClause patterns matcher = do clauses <- genClauses patterns return (PPValuePat "val", TupleExpr [] ,[(PDPatVar "tgt", (MatchExpr (TupleExpr [(VarExpr "val"), (VarExpr "tgt")]) (TupleExpr [matcher, matcher]) clauses))]) where genClauses :: [(String, [EgisonExpr])] -> DesugarM [MatchClause] genClauses patterns = (++) <$> mapM genClause patterns <*> pure [((TuplePat [WildCard, WildCard]), matchingFailure)] genClause :: (String, [EgisonExpr]) -> DesugarM MatchClause genClause pattern = do (pat0, pat1) <- genMatchingPattern pattern return (TuplePat [pat0, pat1], matchingSuccess) genMatchingPattern :: (String, [EgisonExpr]) -> DesugarM (EgisonPattern, EgisonPattern) genMatchingPattern (name, patterns) = do names <- mapM (const fresh) patterns return $ ((InductivePat name (map PatVar names)) ,(InductivePat name (map (ValuePat . VarExpr) names))) genMatcherClause :: (String, [EgisonExpr]) -> DesugarM (PrimitivePatPattern, EgisonExpr, [(PrimitiveDataPattern, EgisonExpr)]) genMatcherClause pattern = do (ppat, matchers) <- genPrimitivePatPat pattern (dpat, body) <- genPrimitiveDataPat pattern return (ppat, TupleExpr matchers, [(dpat, CollectionExpr [ElementExpr . TupleExpr $ body]), (PDWildCard, matchingFailure)]) where genPrimitivePatPat :: (String, [EgisonExpr]) -> DesugarM (PrimitivePatPattern, [EgisonExpr]) genPrimitivePatPat (name, matchers) = do patterns' <- mapM (const $ return PPPatVar) matchers return (PPInductivePat name patterns', matchers) genPrimitiveDataPat :: (String, [EgisonExpr]) -> DesugarM (PrimitiveDataPattern, [EgisonExpr]) genPrimitiveDataPat (name, patterns) = do patterns' <- mapM (const fresh) patterns return (PDInductivePat (capitalize name) $ map PDPatVar patterns', map VarExpr patterns') capitalize :: String -> String capitalize (x:xs) = toUpper x : xs genSomethingClause :: DesugarM (PrimitivePatPattern, EgisonExpr, [(PrimitiveDataPattern, EgisonExpr)]) genSomethingClause = return (PPPatVar, (TupleExpr [SomethingExpr]), [(PDPatVar "tgt", CollectionExpr [ElementExpr (VarExpr "tgt")])]) matchingSuccess :: EgisonExpr matchingSuccess = CollectionExpr [ElementExpr $ TupleExpr []] matchingFailure :: EgisonExpr matchingFailure = CollectionExpr [] desugar (MatchAllLambdaExpr matcher clause) = do name <- fresh matcher' <- desugar matcher clause' <- desugarMatchClause clause return $ LambdaExpr [name] (MatchAllExpr (VarExpr name) matcher' clause') desugar (MatchLambdaExpr matcher clauses) = do name <- fresh matcher' <- desugar matcher clauses' <- desugarMatchClauses clauses return $ LambdaExpr [name] (MatchExpr (VarExpr name) matcher' clauses') desugar (ArrayRefExpr expr nums) = case nums of (TupleExpr nums') -> desugar $ IndexedExpr expr nums' _ -> desugar $ IndexedExpr expr [nums] desugar (IndexedExpr expr indices) = IndexedExpr <$> desugar expr <*> (mapM desugar indices) desugar (PowerExpr expr1 expr2) = do expr1' <- desugar expr1 expr2' <- desugar expr2 return $ ApplyExpr (VarExpr "**'") (TupleExpr [expr1', expr2']) desugar (ArrayBoundsExpr expr) = do expr' <- desugar expr return $ ArrayBoundsExpr expr' desugar (InductiveDataExpr name exprs) = do exprs' <- mapM desugar exprs return $ InductiveDataExpr name exprs' desugar (TupleExpr exprs) = do exprs' <- mapM desugar exprs return $ TupleExpr exprs' desugar expr@(CollectionExpr []) = return expr desugar (CollectionExpr ((ElementExpr elm):inners)) = do elm' <- desugar elm (CollectionExpr inners') <- desugar (CollectionExpr inners) return $ CollectionExpr (ElementExpr elm':inners') desugar (CollectionExpr ((SubCollectionExpr sub):inners)) = do sub' <- desugar sub (CollectionExpr inners') <- desugar (CollectionExpr inners) return $ CollectionExpr (SubCollectionExpr sub':inners') desugar (LambdaExpr names expr) = do expr' <- desugar expr return $ LambdaExpr names expr' desugar (MemoizedLambdaExpr names expr) = do expr' <- desugar expr return $ MemoizedLambdaExpr names expr' desugar (MemoizeExpr memoizeBindings expr) = do memoizeBindings' <- mapM (\(x,y,z) -> do x' <- desugar x y' <- desugar y z' <- desugar z return (x',y',z')) memoizeBindings expr' <- desugar expr return $ MemoizeExpr memoizeBindings' expr' desugar (CambdaExpr name expr) = do expr' <- desugar expr return $ CambdaExpr name expr' --desugar (MacroExpr names expr) = do -- expr' <- desugar expr -- return $ MacroExpr names expr' desugar (PatternFunctionExpr names pattern) = do pattern' <- desugarPattern pattern return $ PatternFunctionExpr names pattern' desugar (IfExpr expr0 expr1 expr2) = do expr0' <- desugar expr0 expr1' <- desugar expr1 expr2' <- desugar expr2 return $ IfExpr expr0' expr1' expr2' desugar (LetRecExpr binds expr) = do binds' <- desugarBindings binds expr' <- desugar expr return $ LetRecExpr binds' expr' desugar (LetExpr binds expr) = do binds' <- desugarBindings binds expr' <- desugar expr return $ LetExpr binds' expr' desugar (LetStarExpr binds expr) = do binds' <- desugarBindings binds expr' <- desugar expr return $ foldr (\bind ret -> LetExpr [bind] ret) expr' binds' desugar (MatchExpr expr0 expr1 clauses) = do expr0' <- desugar expr0 expr1' <- desugar expr1 clauses' <- desugarMatchClauses clauses return (MatchExpr expr0' expr1' clauses') desugar (MatchAllExpr expr0 expr1 clause) = do expr0' <- desugar expr0 expr1' <- desugar expr1 clause' <- desugarMatchClause clause return $ MatchAllExpr expr0' expr1' clause' desugar (DoExpr binds expr) = do binds' <- desugarBindings binds expr' <- desugar expr return $ DoExpr binds' expr' desugar (IoExpr expr) = do expr' <- desugar expr return $ IoExpr expr' desugar (SeqExpr expr0 expr1) = do expr0' <- desugar expr0 expr1' <- desugar expr1 return $ SeqExpr expr0' expr1' desugar (GenerateArrayExpr fnExpr (fstExpr, lstExpr)) = do fnExpr' <- desugar fnExpr fstExpr' <- desugar fstExpr lstExpr' <- desugar lstExpr return $ GenerateArrayExpr fnExpr' (fstExpr', lstExpr') desugar (GenerateTensorExpr fnExpr sizeExpr) = do fnExpr' <- desugar fnExpr sizeExpr' <- desugar sizeExpr return $ GenerateTensorExpr fnExpr' sizeExpr' desugar (TensorMapExpr fnExpr tExpr) = do fnExpr' <- desugar fnExpr tExpr' <- desugar tExpr return $ TensorMapExpr fnExpr' tExpr' desugar (TensorMap2Expr fnExpr t1Expr t2Expr) = do fnExpr' <- desugar fnExpr t1Expr' <- desugar t1Expr t2Expr' <- desugar t2Expr return $ TensorMap2Expr fnExpr' t1Expr' t2Expr' desugar (ApplyExpr expr0 expr1) = do expr0' <- desugar expr0 expr1' <- desugar expr1 return $ ApplyExpr expr0' expr1' desugar (CApplyExpr expr0 expr1) = do expr0' <- desugar expr0 expr1' <- desugar expr1 return $ CApplyExpr expr0' expr1' desugar (VarExpr name) = do asks $ maybe (VarExpr name) id . lookup name desugar (MatcherBFSExpr matcherInfo) = do matcherInfo' <- desugarMatcherInfo matcherInfo return $ MatcherBFSExpr matcherInfo' desugar (MatcherDFSExpr matcherInfo) = do matcherInfo' <- desugarMatcherInfo matcherInfo return $ MatcherDFSExpr matcherInfo' desugar (PartialVarExpr n) = return $ VarExpr $ "::" ++ show n desugar RecVarExpr = return $ VarExpr "::" desugar (PartialExpr n expr) = do expr' <- desugar expr if n == 0 then return $ LetRecExpr [(["::"], LambdaExpr [] expr')] (LambdaExpr [] expr') else return $ LetRecExpr [(["::"], LambdaExpr (annonVars (fromIntegral n)) expr')] (LambdaExpr (annonVars (fromIntegral n)) expr') where annonVars n = take n $ map (((++) "::") . show) [1..] desugar expr = return expr desugarPattern :: EgisonPattern -> DesugarM EgisonPattern desugarPattern pattern = LetPat (map makeBinding $ S.elems $ collectName pattern) <$> desugarPattern' pattern where collectNames :: [EgisonPattern] -> Set String collectNames patterns = S.unions $ map collectName patterns collectName :: EgisonPattern -> Set String collectName (NotPat pattern) = collectName pattern collectName (AndPat patterns) = collectNames patterns collectName (TuplePat patterns) = collectNames patterns collectName (InductivePat _ patterns) = collectNames patterns collectName (PApplyPat _ patterns) = collectNames patterns collectName (DApplyPat _ patterns) = collectNames patterns collectName (LoopPat _ (LoopRange _ _ endNumPat) pattern1 pattern2) = collectName endNumPat `S.union` collectName pattern1 `S.union` collectName pattern2 -- collectName (LoopPat _ (LoopRange _ _ endNumPat) pattern1 pattern2) = collectName pattern1 `S.union` collectName pattern2 collectName (LetPat _ pattern) = collectName pattern collectName (IndexedPat (PatVar name) _) = S.singleton name collectName (OrPat patterns) = collectNames patterns collectName _ = S.empty makeBinding :: String -> BindingExpr makeBinding name = ([name], HashExpr []) desugarPattern' :: EgisonPattern -> DesugarM EgisonPattern desugarPattern' (ValuePat expr) = ValuePat <$> desugar expr desugarPattern' (PredPat expr) = PredPat <$> desugar expr desugarPattern' (NotPat pattern) = NotPat <$> desugarPattern' pattern desugarPattern' (AndPat patterns) = AndPat <$> mapM desugarPattern' patterns desugarPattern' (OrPat patterns) = OrPat <$> mapM desugarPattern' patterns desugarPattern' (OrderedOrPat []) = return (NotPat WildCard) desugarPattern' (OrderedOrPat (pattern:patterns)) = do pattern' <- desugarPattern' pattern pattern'' <- desugarPattern' (OrderedOrPat patterns) return $ OrPat [pattern', AndPat [(NotPat pattern'), pattern'']] desugarPattern' (TuplePat patterns) = TuplePat <$> mapM desugarPattern' patterns desugarPattern' (InductivePat name patterns) = InductivePat name <$> mapM desugarPattern' patterns desugarPattern' (IndexedPat pattern exprs) = IndexedPat <$> desugarPattern' pattern <*> mapM desugar exprs desugarPattern' (PApplyPat expr patterns) = PApplyPat <$> desugar expr <*> mapM desugarPattern' patterns desugarPattern' (DApplyPat pattern patterns) = DApplyPat <$> desugarPattern' pattern <*> mapM desugarPattern' patterns desugarPattern' (LoopPat name range pattern1 pattern2) = LoopPat name <$> desugarLoopRange range <*> desugarPattern' pattern1 <*> desugarPattern' pattern2 desugarPattern' (LetPat binds pattern) = LetPat <$> desugarBindings binds <*> desugarPattern' pattern desugarPattern' pattern = return pattern desugarLoopRange :: LoopRange -> DesugarM LoopRange desugarLoopRange (LoopRange sExpr eExpr pattern) = do sExpr' <- desugar sExpr eExpr' <- desugar eExpr pattern' <- desugarPattern' pattern return $ LoopRange sExpr' eExpr' pattern' desugarBinding :: BindingExpr -> DesugarM BindingExpr desugarBinding (name, expr) = do expr' <- desugar expr return $ (name, expr') desugarBindings :: [BindingExpr] -> DesugarM [BindingExpr] desugarBindings (bind:rest) = do bind' <- desugarBinding bind rest' <- desugarBindings rest return $ bind' : rest' desugarBindings [] = return [] desugarMatchClause :: MatchClause -> DesugarM MatchClause desugarMatchClause (pattern, expr) = do pattern' <- desugarPattern pattern expr' <- desugar expr return $ (pattern', expr') desugarMatchClauses :: [MatchClause] -> DesugarM [MatchClause] desugarMatchClauses (clause:rest) = do clause' <- desugarMatchClause clause rest' <- desugarMatchClauses rest return $ clause' : rest' desugarMatchClauses [] = return [] desugarMatcherInfo :: MatcherInfo -> DesugarM MatcherInfo desugarMatcherInfo [] = return [] desugarMatcherInfo ((pp, matcher, pds):matcherInfo) = do matcher' <- desugar matcher pds' <- desugarPrimitiveDataMatchClauses pds matcherInfo' <- desugarMatcherInfo matcherInfo return $ (pp, matcher', pds'):matcherInfo' desugarPrimitiveDataMatchClauses :: [(PrimitiveDataPattern, EgisonExpr)] -> DesugarM [(PrimitiveDataPattern, EgisonExpr)] desugarPrimitiveDataMatchClauses [] = return [] desugarPrimitiveDataMatchClauses ((pd, expr):pds) = do expr' <- desugar expr pds' <- desugarPrimitiveDataMatchClauses pds return $ (pd, expr'):pds'