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GF/src is now for 2.9, and the new sources are in src-3.0 - keep it this way until the release of GF 3
This commit is contained in:
aarne
239
src-3.0/GF/Devel/Compile/Rename.hs
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239
src-3.0/GF/Devel/Compile/Rename.hs
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----------------------------------------------------------------------
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-- |
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-- Module : Rename
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-- Maintainer : AR
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-- Stability : (stable)
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-- Portability : (portable)
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--
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-- > CVS $Date: 2005/05/30 18:39:44 $
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-- > CVS $Author: aarne $
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-- > CVS $Revision: 1.19 $
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--
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-- AR 14\/5\/2003
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-- The top-level function 'renameGrammar' does several things:
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--
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-- - extends each module symbol table by indirections to extended module
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--
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-- - changes unqualified and as-qualified imports to absolutely qualified
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--
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-- - goes through the definitions and resolves names
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--
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-----------------------------------------------------------------------------
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module GF.Devel.Compile.Rename (
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renameModule
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) where
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import GF.Devel.Grammar.Grammar
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import GF.Devel.Grammar.Construct
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import GF.Devel.Grammar.Macros
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import GF.Devel.Grammar.PrGF
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import GF.Infra.Ident
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import GF.Devel.Grammar.Lookup
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import GF.Data.Operations
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import Control.Monad
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import qualified Data.Map as Map
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import Data.List (nub)
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import Debug.Trace (trace)
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{-
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-- | this gives top-level access to renaming term input in the cc command
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renameSourceTerm :: SourceGrammar -> Ident -> Term -> Err Term
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renameSourceTerm g m t = do
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mo <- lookupErr m (modules g)
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status <- buildStatus g m mo
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renameTerm status [] t
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-}
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renameModule :: GF -> SourceModule -> Err SourceModule
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renameModule gf sm@(name,mo) = case mtype mo of
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MTInterface -> return sm
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_ | not (isCompleteModule mo) -> return sm
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_ -> errIn ("renaming module" +++ prt name) $ do
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let gf1 = gf {gfmodules = Map.insert name mo (gfmodules gf)}
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let rename = renameTerm (gf1,sm) []
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mo1 <- termOpModule rename mo
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let mo2 = mo1 {mopens = nub [(i,i) | (_,i) <- mopens mo1]}
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return (name,mo2)
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type RenameEnv = (GF,SourceModule)
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renameIdentTerm :: RenameEnv -> Term -> Err Term
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renameIdentTerm (gf, (name,mo)) trm = case trm of
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Vr i -> looks i
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Con i -> looks i
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Q m i -> getQualified m >>= look i
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QC m i -> getQualified m >>= look i
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_ -> return trm
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where
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looks i = do
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let ts = nub [t | m <- pool, Ok t <- [look i m]]
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case ts of
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[t] -> return t
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[] | elem i [IC "Int",IC "Float",IC "String"] -> ---- do this better
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return (Q (IC "PredefAbs") i)
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[] -> prtBad "identifier not found" i
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t:_ ->
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trace (unwords $ "WARNING":"identifier":prt i:"ambiguous:" : map prt ts)
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(return t)
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---- _ -> fail $ unwords $ "identifier" : prt i : "ambiguous:" : map prt ts
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look i m = do
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ju <- lookupIdent gf m i
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return $ case jform ju of
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JLink -> if isConstructor ju then QC (jlink ju) i else Q (jlink ju) i
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_ -> if isConstructor ju then QC m i else Q m i
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pool = nub $ name :
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maybe name id (interfaceName mo) :
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IC "Predef" :
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map fst (mextends mo) ++
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map snd (mopens mo)
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getQualified m = case Map.lookup m qualifMap of
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Just n -> return n
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_ -> prtBad "unknown qualifier" m
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qualifMap = Map.fromList $
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mopens mo ++
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concat [ops | (_,ops) <- minstances mo] ++
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[(m,m) | m <- pool]
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---- TODO: check uniqueness of these names
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renameTerm :: RenameEnv -> [Ident] -> Term -> Err Term
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renameTerm env vars = ren vars where
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ren vs trm = case trm of
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Abs x b -> liftM (Abs x) (ren (x:vs) b)
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Prod x a b -> liftM2 (Prod x) (ren vs a) (ren (x:vs) b)
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Typed a b -> liftM2 Typed (ren vs a) (ren vs b)
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Vr x
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| elem x vs -> return trm
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| otherwise -> renid trm
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Con _ -> renid trm
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Q _ _ -> renid trm
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QC _ _ -> renid trm
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Eqs eqs -> liftM Eqs $ mapM (renameEquation env vars) eqs
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T i cs -> do
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i' <- case i of
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TTyped ty -> liftM TTyped $ ren vs ty -- the only annotation in source
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_ -> return i
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liftM (T i') $ mapM (renCase vs) cs
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Let (x,(m,a)) b -> do
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m' <- case m of
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Just ty -> liftM Just $ ren vs ty
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_ -> return m
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a' <- ren vs a
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b' <- ren (x:vs) b
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return $ Let (x,(m',a')) b'
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P t@(Vr r) l -- for constant t we know it is projection
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| elem r vs -> return trm -- var proj first
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| otherwise -> case renid (Q r (label2ident l)) of -- qualif second
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Ok t -> return t
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_ -> case liftM (flip P l) $ renid t of
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Ok t -> return t -- const proj last
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_ -> prtBad "unknown qualified constant" trm
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EPatt p -> do
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(p',_) <- renpatt p
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return $ EPatt p'
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_ -> composOp (ren vs) trm
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renid = renameIdentTerm env
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renCase vs (p,t) = do
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(p',vs') <- renpatt p
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t' <- ren (vs' ++ vs) t
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return (p',t')
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renpatt = renamePattern env
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-- | vars not needed in env, since patterns always overshadow old vars
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renamePattern :: RenameEnv -> Patt -> Err (Patt,[Ident])
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renamePattern env patt = case patt of
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PMacro c -> do
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c' <- renid $ Vr c
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case c' of
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Q p d -> renp $ PM p d
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_ -> prtBad "unresolved pattern" patt
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PC c ps -> do
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c' <- renid $ Vr c
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case c' of
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QC p d -> renp $ PP p d ps
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Q p d -> renp $ PP p d ps
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_ -> prtBad "unresolved pattern" c' ---- (PC c ps', concat vs)
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PP p c ps -> do
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(p', c') <- case renid (QC p c) of
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Ok (QC p' c') -> return (p',c')
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_ -> return (p,c) --- temporarily, for bw compat
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psvss <- mapM renp ps
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let (ps',vs) = unzip psvss
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return (PP p' c' ps', concat vs)
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PV x -> case renid (Vr x) of
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Ok (QC m c) -> return (PP m c [],[])
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_ -> return (patt, [x])
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PR r -> do
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let (ls,ps) = unzip r
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psvss <- mapM renp ps
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let (ps',vs') = unzip psvss
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return (PR (zip ls ps'), concat vs')
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PAlt p q -> do
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(p',vs) <- renp p
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(q',ws) <- renp q
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return (PAlt p' q', vs ++ ws)
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PSeq p q -> do
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(p',vs) <- renp p
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(q',ws) <- renp q
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return (PSeq p' q', vs ++ ws)
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PRep p -> do
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(p',vs) <- renp p
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return (PRep p', vs)
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PNeg p -> do
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(p',vs) <- renp p
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return (PNeg p', vs)
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PAs x p -> do
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(p',vs) <- renp p
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return (PAs x p', x:vs)
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_ -> return (patt,[])
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where
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renp = renamePattern env
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renid = renameIdentTerm env
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renameParam :: RenameEnv -> (Ident, Context) -> Err (Ident, Context)
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renameParam env (c,co) = do
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co' <- renameContext env co
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return (c,co')
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renameContext :: RenameEnv -> Context -> Err Context
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renameContext b = renc [] where
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renc vs cont = case cont of
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(x,t) : xts
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| isWildIdent x -> do
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t' <- ren vs t
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xts' <- renc vs xts
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return $ (x,t') : xts'
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| otherwise -> do
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t' <- ren vs t
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let vs' = x:vs
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xts' <- renc vs' xts
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return $ (x,t') : xts'
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_ -> return cont
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ren = renameTerm b
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-- | vars not needed in env, since patterns always overshadow old vars
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renameEquation :: RenameEnv -> [Ident] -> Equation -> Err Equation
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renameEquation b vs (ps,t) = do
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(ps',vs') <- liftM unzip $ mapM (renamePattern b) ps
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t' <- renameTerm b (concat vs' ++ vs) t
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return (ps',t')
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