gf-core/src-3.0/GF/Conversion/SimpleToFCFG.hs

----------------------------------------------------------------------
-- |
-- Maintainer  : Krasimir Angelov
-- Stability   : (stable)
-- Portability : (portable)
--
-- Converting SimpleGFC grammars to fast nonerasing MCFG grammar.
--
-- the resulting grammars might be /very large/
--
-- the conversion is only equivalent if the GFC grammar has a context-free backbone.
-----------------------------------------------------------------------------


module GF.Conversion.SimpleToFCFG
    (convertConcrete) where

import GF.Infra.PrintClass

import Control.Monad

import GF.Formalism.Utilities
import GF.Formalism.FCFG

import GF.GFCC.Macros --hiding (prt)
import GF.GFCC.DataGFCC
import GF.GFCC.CId

import GF.Data.BacktrackM
import GF.Data.SortedList
import GF.Data.Utilities (updateNthM, sortNub)

import qualified Data.Map as Map
import qualified Data.Set as Set
import qualified Data.List as List
import qualified Data.ByteString.Char8 as BS
import Data.Array
import Data.Maybe

----------------------------------------------------------------------
-- main conversion function

convertConcrete :: Abstr -> Concr -> FGrammar
convertConcrete abs cnc = fixHoasFuns $ convert abs_defs' conc' cats'
       where abs_defs = Map.assocs (funs abs)
             conc = Map.union (opers cnc) (lins cnc) -- "union big+small most efficient"
             cats = lincats cnc
             (abs_defs',conc',cats') = expandHOAS abs_defs conc cats

expandHOAS :: [(CId,(Type,Exp))] -> TermMap -> TermMap -> ([(CId,(Type,Exp))],TermMap,TermMap)
expandHOAS funs lins lincats = (funs' ++ hoFuns ++ varFuns, 
                                Map.unions [lins, hoLins, varLins], 
                                Map.unions [lincats, hoLincats, varLincat])
    where
      -- replace higher-order fun argument types with new categories
      funs' = [(f,(fixType ty,e)) | (f,(ty,e)) <- funs]
          where
            fixType :: Type -> Type
            fixType ty = let (ats,rt) = typeSkeleton ty in cftype (map catName ats) rt

      hoTypes :: [(Int,CId)]
      hoTypes = sortNub [(n,c) | (_,(ty,_)) <- funs, (n,c) <- fst (typeSkeleton ty), n > 0]
      hoCats = sortNub (map snd hoTypes)
      -- for each Cat with N bindings, we add a new category _NCat
      -- each new category contains a single function __NCat : Cat -> _Var -> ... -> _Var -> _NCat
      hoFuns = [(funName ty,(cftype (c : replicate n varCat) (catName ty),EEq [])) | ty@(n,c) <- hoTypes]
      -- lincats for the new categories
      hoLincats = Map.fromList [(catName ty, modifyRec (++ replicate n (S [])) (lincatOf c)) | ty@(n,c) <- hoTypes]
      -- linearizations of the new functions, lin __NCat v_0 ... v_n-1 x = { s1 = x.s1; ...; sk = x.sk; $0 = v_0.s ...
      hoLins = Map.fromList [ (funName ty, mkLin c n) | ty@(n,c) <- hoTypes]
          where mkLin c n = modifyRec (\fs -> [P (V 0) (C j) | j <- [0..length fs-1]] ++ [P (V i) (C 0) | i <- [1..n]]) (lincatOf c)
      -- for each Cat, we a add a fun _Var_Cat : _Var -> Cat
      varFuns = [(varFunName cat, (cftype [varCat] cat,EEq [])) | cat <- hoCats]
      -- linearizations of the _Var_Cat functions
      varLins = Map.fromList [(varFunName cat, R [P (V 0) (C 0)]) | cat <- hoCats]
      -- lincat for the _Var category
      varLincat = Map.singleton varCat (R [S []])

      lincatOf c = fromMaybe (error $ "No lincat for " ++ prt c) $ Map.lookup c lincats

      modifyRec :: ([Term] -> [Term]) -> Term -> Term
      modifyRec f (R xs) = R (f xs)
      modifyRec _ t = error $ "Not a record: " ++ show t

      varCat = mkCId "_Var"

      catName :: (Int,CId) -> CId
      catName (0,c) = c
      catName (n,c) = mkCId ("_" ++ show n ++ prt c)

      funName :: (Int,CId) -> CId
      funName (n,c) = mkCId ("__" ++ show n ++ prt c)

      varFunName :: CId -> CId
      varFunName c = mkCId ("_Var_" ++ prt c)

-- replaces __NCat with _B and _Var_Cat with _.
-- the temporary names are just there to avoid name collisions.
fixHoasFuns :: FGrammar -> FGrammar
fixHoasFuns (rs, cs) = ([FRule (fixName n) args cat lins | FRule n args cat lins <- rs], cs)
  where fixName (Name (CId n) p) | BS.pack "__"    `BS.isPrefixOf` n = Name (mkCId "_B") p
                                 | BS.pack "_Var_" `BS.isPrefixOf` n = Name wildCId p
        fixName n = n

convert :: [(CId,(Type,Exp))] -> TermMap -> TermMap -> FGrammar
convert abs_defs cnc_defs cat_defs = getFGrammar (loop frulesEnv)
      where
        srules = [
          (XRule id args res (map findLinType args) (findLinType res) term) | 
            (id, (ty,_)) <- abs_defs, let (args,res) = catSkeleton ty, 
            term <- Map.lookup id cnc_defs]
        
        findLinType id = fromMaybe (error $ "No lincat for " ++ show id) (Map.lookup id cat_defs)

        (xrulesMap,frulesEnv) = List.foldl' helper (Map.empty,emptyFRulesEnv) srules
           where
	     helper (xrulesMap,frulesEnv) rule@(XRule id abs_args abs_res cnc_args cnc_res term) = 
	       let xrulesMap' = Map.insertWith (++) abs_res [rule] xrulesMap
	           frulesEnv' = List.foldl' (\env selector -> convertRule cnc_defs selector rule env)
	                                    frulesEnv
	                                    (mkSingletonSelectors cnc_defs cnc_res)
               in xrulesMap' `seq` frulesEnv' `seq` (xrulesMap',frulesEnv')

        loop frulesEnv =
          let (todo, frulesEnv') = takeToDoRules xrulesMap frulesEnv
          in case todo of
               [] -> frulesEnv'
               _  -> loop $! List.foldl' (\env (srules,selector) -> 
                             List.foldl' (\env srule             -> convertRule cnc_defs selector srule env) env srules) frulesEnv' todo

convertRule :: TermMap -> TermSelector -> XRule -> FRulesEnv -> FRulesEnv
convertRule cnc_defs selector (XRule fun args cat ctypes ctype term) frulesEnv =
  foldBM addRule
         frulesEnv
         (convertTerm cnc_defs selector term [([],[])])
         (protoFCat cat, map (\scat -> (protoFCat scat,[])) args, ctype, ctypes)
  where
    addRule linRec (newCat', newArgs', _, _) env0 =
      let (env1, newCat)          = genFCatHead env0 newCat'
          (env2, newArgs,idxArgs) = foldr (\((xcat@(PFCat cat rcs tcs),xpaths),ctype,idx) (env,args,all_args) ->
                                       let xargs          = xcat:[PFCat cat [path] tcs | path <- reverse xpaths]
                                           (env1, xargs1) = List.mapAccumL (genFCatArg cnc_defs ctype) env xargs
                                       in case xcat of
                                            PFCat _ [] _ -> (env ,        args,                       all_args)
                                            _            -> (env1,xargs1++args,(idx,zip xargs1 xargs):all_args)) (env1,[],[]) (zip3 newArgs' ctypes [0..])

          newLinRec = listArray (0,length linRec-1) [translateLin idxArgs path linRec | path <- case newCat' of {PFCat _ rcs _ -> rcs}]

          (_,newProfile) = List.mapAccumL accumProf 0 newArgs'
            where
              accumProf nr (PFCat _ [] _,_     ) = (nr,       Unify []          )
              accumProf nr (_           ,xpaths) = (nr+cnt+1, Unify [nr..nr+cnt])
                where cnt = length xpaths

          rule = FRule (Name fun newProfile) newArgs newCat newLinRec
      in addFRule env2 rule

translateLin idxArgs lbl' []                    = array (0,-1) []
translateLin idxArgs lbl' ((lbl,syms) : lins)
  | lbl' == lbl = listArray (0,length syms-1) (map instSym syms)
  | otherwise   = translateLin idxArgs lbl' lins
  where
    instSym = symbol (\(lbl, nr, xnr) -> instCat lbl nr xnr 0 idxArgs) FSymTok
    instCat lbl nr xnr nr' ((idx,xargs):idxArgs)
      | nr == idx = let (fcat, PFCat _ rcs _) = xargs !! xnr
                    in FSymCat fcat (index lbl rcs 0) (nr'+xnr)
      | otherwise = instCat lbl nr xnr (nr'+length xargs) idxArgs

    index lbl' (lbl:lbls) idx
      | lbl' == lbl = idx
      | otherwise   = index lbl' lbls $! (idx+1)


----------------------------------------------------------------------
-- term conversion

type CnvMonad a = BacktrackM Env a

type Env     = (ProtoFCat, [(ProtoFCat,[FPath])], Term, [Term])
type LinRec  = [(FPath, [Symbol (FPath, FIndex, Int) FToken])]

type TermMap = Map.Map CId Term

convertTerm :: TermMap -> TermSelector -> Term -> LinRec -> CnvMonad LinRec
convertTerm cnc_defs selector (V nr)       ((lbl_path,lin) : lins) = convertArg selector nr []    lbl_path lin lins
convertTerm cnc_defs selector (C nr)       ((lbl_path,lin) : lins) = convertCon selector nr       lbl_path lin lins
convertTerm cnc_defs selector (R record)   ((lbl_path,lin) : lins) = convertRec cnc_defs selector 0 record lbl_path lin lins

convertTerm cnc_defs selector (P term sel)                   lins  = do nr <- evalTerm cnc_defs [] sel
                                                                        convertTerm cnc_defs (TuplePrj nr selector) term lins
convertTerm cnc_defs selector (FV vars)                      lins  = do term <- member vars
                                                                        convertTerm cnc_defs selector term lins
convertTerm cnc_defs selector (S ts)       ((lbl_path,lin) : lins) = do projectHead lbl_path
                                                                        foldM (\lins t -> convertTerm cnc_defs selector t lins) ((lbl_path,lin) : lins) (reverse ts)
convertTerm cnc_defs selector (K (KS str)) ((lbl_path,lin) : lins) = 
  do projectHead lbl_path
     return ((lbl_path,Tok str : lin) : lins)
convertTerm cnc_defs selector (K (KP strs vars))((lbl_path,lin) : lins) = 
  do projectHead lbl_path
     toks <- member (strs:[strs' | Var strs' _ <- vars])
     return ((lbl_path, map Tok toks ++ lin) : lins)
convertTerm cnc_defs selector (RP _ term)                    lins  = convertTerm cnc_defs selector term lins
convertTerm cnc_defs selector (F id)                         lins  = do term <- Map.lookup id cnc_defs
                                                                        convertTerm cnc_defs selector term lins
convertTerm cnc_defs selector (W s t)     ((lbl_path,lin) : lins) = do
  ss <- case t of
    R ss -> return ss
    F f -> do
      t <- Map.lookup f cnc_defs 
      case t of
        R ss -> return ss
  convertRec cnc_defs selector 0 [K (KS (s ++ s1)) | K (KS s1) <- ss] lbl_path lin lins
convertTerm cnc_defs selector x lins  = error ("convertTerm ("++show x++")")


convertArg (TupleSel record)  nr path lbl_path lin lins =
  foldM (\lins (lbl,  selector) -> convertArg selector nr (lbl:path)  (lbl:lbl_path) lin lins) lins record
convertArg (TuplePrj lbl selector) nr path lbl_path lin lins = 
  convertArg selector nr (lbl:path) lbl_path lin lins
convertArg (ConSel indices) nr path lbl_path lin lins = do
  index <- member indices
  restrictHead lbl_path index
  restrictArg nr path index
  return lins
convertArg StrSel nr path lbl_path lin lins = do
  projectHead lbl_path
  xnr <- projectArg nr path
  return ((lbl_path, GF.Formalism.Utilities.Cat (path, nr, xnr) : lin) : lins)

convertCon (ConSel indices) index lbl_path lin lins = do
  guard (index `elem` indices)
  restrictHead lbl_path index
  return lins
convertCon x _ _ _ _ = error $ "SimpleToFCFG,convertCon: " ++ show x

convertRec cnc_defs selector                   index []           lbl_path lin lins = return lins
convertRec cnc_defs selector@(TupleSel fields) index (val:record) lbl_path lin lins = select fields
  where
    select []                          = convertRec cnc_defs selector (index+1) record lbl_path lin lins
    select ((index',sub_sel) : fields)
      | index == index'                = do lins <- convertTerm cnc_defs sub_sel val ((index:lbl_path,lin) : lins)
                                            convertRec cnc_defs selector (index+1) record lbl_path lin lins
      | otherwise                      = select fields
convertRec cnc_defs (TuplePrj index' sub_sel) index record lbl_path lin lins = do
  convertTerm cnc_defs sub_sel (record !! (index'-index)) ((lbl_path,lin) : lins)


------------------------------------------------------------
-- eval a term to ground terms

evalTerm :: TermMap -> FPath -> Term -> CnvMonad FIndex
evalTerm cnc_defs path (V nr)       = do term <- readArgCType nr
                                         unifyPType nr (reverse path) (selectTerm path term)
evalTerm cnc_defs path (C nr)       = return nr
evalTerm cnc_defs path (R record)   = case path of
                                        (index:path) -> evalTerm cnc_defs path (record !! index)
evalTerm cnc_defs path (P term sel) = do index <- evalTerm cnc_defs [] sel
                                         evalTerm cnc_defs (index:path) term
evalTerm cnc_defs path (FV terms)   = member terms >>= evalTerm cnc_defs path
evalTerm cnc_defs path (RP alias _) = evalTerm cnc_defs path alias
evalTerm cnc_defs path (F id)       = do term <- Map.lookup id cnc_defs
                                         evalTerm cnc_defs path term
evalTerm cnc_defs path x = error ("evalTerm ("++show x++")")

unifyPType :: FIndex -> FPath -> Term -> CnvMonad FIndex
unifyPType nr path (C max_index) =
    do (_, args, _, _) <- readState
       let (PFCat _ _ tcs,_) = args !! nr
       case lookup path tcs of
         Just index -> return index
         Nothing    -> do index <- member [0..max_index]
		          restrictArg nr path index
		          return index
unifyPType nr path (RP alias _) = unifyPType nr path alias

unifyPType nr path t = error $ "unifyPType " ++ show t ---- AR 2/10/2007

selectTerm :: FPath -> Term -> Term
selectTerm []           term        = term
selectTerm (index:path) (R  record) = selectTerm path (record !! index)
selectTerm path         (RP _ term) = selectTerm path term


----------------------------------------------------------------------
-- FRulesEnv

data FRulesEnv = FRulesEnv {-# UNPACK #-} !Int FCatSet [FRule]
type FCatSet   = Map.Map CId (Map.Map [FPath] (Map.Map [(FPath,FIndex)] (Either FCat FCat)))

data ProtoFCat = PFCat CId [FPath] [(FPath,FIndex)]

protoFCat :: CId -> ProtoFCat
protoFCat cat = PFCat cat [] []

emptyFRulesEnv = FRulesEnv 0 (ins fcatString (mkCId "String") [[0]] [] $
                              ins fcatInt    (mkCId "Int")    [[0]] [] $
                              ins fcatFloat  (mkCId "Float")  [[0]] [] $
                              ins fcatVar    (mkCId "_Var")   [[0]] [] $
                              Map.empty) []
  where
    ins fcat cat rcs tcs fcatSet =
      Map.insertWith (\_ -> Map.insertWith (\_ -> Map.insert tcs right_fcat) rcs tmap_s) cat rmap_s fcatSet
      where
        right_fcat = Right fcat
        tmap_s = Map.singleton tcs right_fcat
        rmap_s = Map.singleton rcs tmap_s

addFRule :: FRulesEnv -> FRule -> FRulesEnv
addFRule (FRulesEnv last_id fcatSet rules) rule = FRulesEnv last_id fcatSet (rule:rules)

getFGrammar :: FRulesEnv -> FGrammar
getFGrammar (FRulesEnv last_id fcatSet rules) = (rules, Map.map getFCatList fcatSet)
  where
    getFCatList rcs = Map.fold (\tcs lst -> Map.fold (\x lst -> either id id x : lst) lst tcs) [] rcs

genFCatHead :: FRulesEnv -> ProtoFCat -> (FRulesEnv, FCat)
genFCatHead env@(FRulesEnv last_id fcatSet rules) (PFCat cat rcs tcs) =
  case Map.lookup cat fcatSet >>= Map.lookup rcs >>= Map.lookup tcs of
    Just (Left  fcat) -> (FRulesEnv last_id (ins fcat) rules, fcat)
    Just (Right fcat) -> (env, fcat)
    Nothing           -> let fcat = last_id+1
                         in (FRulesEnv fcat (ins fcat) rules, fcat)
  where
    ins fcat = Map.insertWith (\_ -> Map.insertWith (\_ -> Map.insert tcs right_fcat) rcs tmap_s) cat rmap_s fcatSet
      where
        right_fcat = Right fcat
        tmap_s = Map.singleton tcs right_fcat
        rmap_s = Map.singleton rcs tmap_s

genFCatArg :: TermMap -> Term -> FRulesEnv -> ProtoFCat -> (FRulesEnv, FCat)
genFCatArg cnc_defs ctype env@(FRulesEnv last_id fcatSet rules) (PFCat cat rcs tcs) =
  case Map.lookup cat fcatSet >>= Map.lookup rcs of
    Just tmap -> case Map.lookup tcs tmap of
                   Just (Left  fcat) -> (env,   fcat)
                   Just (Right fcat) -> (env,   fcat)
                   Nothing           -> ins tmap
    Nothing   -> ins Map.empty
  where
    ins tmap =
      let fcat = last_id+1
          (either_fcat,last_id1,tmap1,rules1)
                  = foldBM (\tcs st (either_fcat,last_id,tmap,rules) ->
                                   let (last_id1,tmap1,fcat_arg) = addArg tcs last_id tmap
                                       rule = FRule (Name wildCId [Unify [0]]) [fcat_arg] fcat
                                                    (listArray (0,length rcs-1) [listArray (0,0) [FSymCat fcat_arg lbl 0] | lbl <- [0..length rcs-1]])
                                   in if st
                                        then (Right fcat, last_id1,tmap1,rule:rules)
                                        else (either_fcat,last_id, tmap,      rules))
                           (Left fcat,fcat,Map.insert tcs either_fcat tmap,rules)
                           (gen_tcs ctype [] [])
                           False
          rmap1 = Map.singleton rcs tmap1
      in (FRulesEnv last_id1 (Map.insertWith (\_ -> Map.insert rcs tmap1) cat rmap1 fcatSet) rules1, fcat)
      where
        addArg tcs last_id tmap =
	  case Map.lookup tcs tmap of
	    Just (Left  fcat) -> (last_id, tmap, fcat)
	    Just (Right fcat) -> (last_id, tmap, fcat)
	    Nothing           -> let fcat = last_id+1
                                 in (fcat, Map.insert tcs (Left fcat) tmap, fcat)

    gen_tcs :: Term -> FPath -> [(FPath,FIndex)] -> BacktrackM Bool [(FPath,FIndex)]
    gen_tcs (R record)    path acc = foldM (\acc (label,ctype) -> gen_tcs ctype (label:path) acc) acc (zip [0..] record)
    gen_tcs (S _)         path acc = return acc
    gen_tcs (RP _ term)   path acc = gen_tcs term path acc
    gen_tcs (C max_index) path acc =
      case List.lookup path tcs of
        Just index -> return $! addConstraint path index acc
        Nothing    -> do writeState True
                         index <- member [0..max_index]
                         return $! addConstraint path index acc
      where
        addConstraint path0 index0 (c@(path,index) : cs)
	  | path0 > path = c:addConstraint path0 index0 cs
        addConstraint path0 index0 cs  = (path0,index0) : cs
    gen_tcs (F id)        path acc = case Map.lookup id cnc_defs of
                                        Just term -> gen_tcs term path acc
                                        Nothing   -> error ("unknown identifier: "++prt id)



------------------------------------------------------------
-- TODO queue organization

type XRulesMap = Map.Map CId [XRule]
data XRule     = XRule CId     {- function -}
                       [CId]   {- argument types -}
                       CId     {- result   type  -}
                       [Term]  {- argument lin-types representation -}
                       Term    {- result   lin-type  representation -}
                       Term    {- body -}

takeToDoRules :: XRulesMap -> FRulesEnv -> ([([XRule], TermSelector)], FRulesEnv)
takeToDoRules xrulesMap (FRulesEnv last_id fcatSet rules) = (todo,FRulesEnv last_id fcatSet' rules)
  where
    (todo,fcatSet') =
          Map.mapAccumWithKey (\todo cat rmap ->
                let (todo1,rmap1) = Map.mapAccumWithKey (\todo rcs tmap -> 
                                          let (tcss,tmap') = Map.mapAccumWithKey (\tcss tcs either_xcat ->
                                                                   case either_xcat of
                                                                     Left  xcat -> (tcs:tcss,Right xcat)
                                                                     Right xcat -> (    tcss,either_xcat)) [] tmap
                                          in case tcss of
                                               [] -> (                               todo,tmap )
                                               _  -> ((srules,mkSelector rcs tcss) : todo,tmap')) todo rmap
                    mb_srules   = Map.lookup cat xrulesMap
                    Just srules = mb_srules

                in case mb_srules of
                     Just srules -> (todo1,rmap1)
                     Nothing     -> (todo ,rmap1)) [] fcatSet


------------------------------------------------------------
-- The TermSelector

data TermSelector
  = TupleSel [(FIndex, TermSelector)]
  | TuplePrj   FIndex  TermSelector
  | ConSel   [FIndex]
  | StrSel
  deriving Show

mkSingletonSelectors :: TermMap 
                     -> Term               -- ^ Type representation term
                     -> [TermSelector]     -- ^ list of selectors containing just one string field
mkSingletonSelectors cnc_defs term = sels0
  where
    (sels0,tcss0) = loop [] ([],[]) term

    loop path st          (R record) = List.foldl' (\st (index,term) -> loop (index:path) st term) st (zip [0..] record)
    loop path st          (RP _ t)   = loop path st t
    loop path (sels,tcss) (C i)      = (                          sels,map ((,) path) [0..i] : tcss)
    loop path (sels,tcss) (S _)      = (mkSelector [path] tcss0 : sels,                        tcss)
    loop path (sels,tcss) (F id)     = case Map.lookup id cnc_defs of
                                         Just term -> loop path (sels,tcss) term
                                         Nothing   -> error ("unknown identifier: "++prt id)

mkSelector :: [FPath] -> [[(FPath,FIndex)]] -> TermSelector
mkSelector rcs tcss =
  List.foldl' addRestriction (case xs of
                                (path:xs) -> List.foldl' addProjection (path2selector StrSel path) xs) ys
  where
    xs = [ reverse path       |               path       <- rcs]
    ys = [(reverse path,term) | tcs <- tcss, (path,term) <- tcs]
    
    addRestriction :: TermSelector -> (FPath,FIndex) -> TermSelector
    addRestriction (ConSel indices)  ([]          ,n_index) = ConSel (add indices)
      where
        add []                      = [n_index]
        add (index':indices)
          | n_index == index'       = index':    indices
          | otherwise               = index':add indices
    addRestriction (TupleSel fields) (index : path,n_index) = TupleSel (add fields)
      where
        add []                      = [(index,path2selector (ConSel [n_index]) path)]
        add (field@(index',sub_sel):fields)
          | index == index'         = (index',addRestriction sub_sel (path,n_index)):fields
          | otherwise               = field : add fields

    addProjection :: TermSelector -> FPath -> TermSelector
    addProjection StrSel            []             = StrSel
    addProjection (TupleSel fields) (index : path) = TupleSel (add fields)
      where
        add []                      = [(index,path2selector StrSel path)]
        add (field@(index',sub_sel):fields)
          | index == index'         = (index',addProjection sub_sel path):fields
          | otherwise               = field : add fields
    
    path2selector base []             = base
    path2selector base (index : path) = TupleSel [(index,path2selector base path)]

------------------------------------------------------------
-- updating the MCF rule

readArgCType :: FIndex -> CnvMonad Term
readArgCType nr = do (_, _, _, ctypes) <- readState
		     return (ctypes !! nr)

restrictArg :: FIndex -> FPath -> FIndex -> CnvMonad ()
restrictArg nr path index = do
  (head, args, ctype, ctypes) <- readState 
  args' <- updateNthM (\(xcat,xs) -> do xcat <- restrictProtoFCat path index xcat
                                        return (xcat,xs)                         ) nr args
  writeState (head, args', ctype, ctypes)

projectArg :: FIndex -> FPath -> CnvMonad Int
projectArg nr path = do
  (head, args, ctype, ctypes) <- readState
  (xnr,args') <- updateArgs nr args
  writeState (head, args', ctype, ctypes)
  return xnr
  where
    updateArgs :: FIndex -> [(ProtoFCat,[FPath])] -> CnvMonad (Int,[(ProtoFCat,[FPath])])
    updateArgs 0 ((a@(PFCat _ rcs _),xpaths) : as)
      | path `elem` rcs = return (length xpaths+1,(a,path:xpaths):as)
      | otherwise       = do a <- projectProtoFCat path a
                             return (0,(a,xpaths):as)
    updateArgs n (a : as) = do
      (xnr,as) <- updateArgs (n-1) as
      return (xnr,a:as)

readHeadCType :: CnvMonad Term
readHeadCType = do (_, _, ctype, _) <- readState
		   return ctype

restrictHead :: FPath -> FIndex -> CnvMonad ()
restrictHead path term
    = do (head, args, ctype, ctypes) <- readState
	 head' <- restrictProtoFCat path term head
	 writeState (head', args, ctype, ctypes)

projectHead :: FPath -> CnvMonad ()
projectHead path
    = do (head, args, ctype, ctypes) <- readState
	 head' <- projectProtoFCat path head
	 writeState (head', args, ctype, ctypes)

restrictProtoFCat :: FPath -> FIndex -> ProtoFCat -> CnvMonad ProtoFCat
restrictProtoFCat path0 index0 (PFCat cat rcs tcs) = do
  tcs <- addConstraint tcs
  return (PFCat cat rcs tcs)
  where
    addConstraint (c@(path,index) : cs)
        | path0 >  path = liftM (c:) (addConstraint cs)
        | path0 == path = guard (index0 == index) >>
                          return (c : cs)
    addConstraint cs    = return ((path0,index0) : cs)

projectProtoFCat :: FPath -> ProtoFCat -> CnvMonad ProtoFCat
projectProtoFCat path0 (PFCat cat rcs tcs) = do
  return (PFCat cat (addConstraint rcs) tcs)
  where
    addConstraint (path : rcs)
        | path0 >  path = path  : addConstraint rcs
        | path0 == path = path  : rcs
    addConstraint rcs   = path0 : rcs