gf-core/lib/resource/hindi/StructuralHin.gf

concrete StructuralHin of Structural = CatHin ** 
  open MorphoHin, (P = ParadigmsHin), Prelude in {

  flags optimize=all ;

  lin
--  above_Prep = ss "above" ;
--  after_Prep = ss "after" ;
--  all_Predet = ss "all" ;
--  almost_AdA, almost_AdN = ss "almost" ;
--  although_Subj = ss "although" ;
--  always_AdV = ss "always" ;
--  and_Conj = sd2 [] "and" ** {n = Pl} ;
-----b  and_Conj = ss "and" ** {n = Pl} ;
--  because_Subj = ss "because" ;
--  before_Prep = ss "before" ;
--  behind_Prep = ss "behind" ;
--  between_Prep = ss "between" ;
--  both7and_DConj = sd2 "both" "and" ** {n = Pl} ;
--  but_PConj = ss "but" ;
--  by8agent_Prep = ss "by" ;
--  by8means_Prep = ss "by" ;
--  can8know_VV, can_VV = {
--    s = table { 
--      VVF VInf => ["be able to"] ;
--      VVF VPres => "can" ;
--      VVF VPPart => ["been able to"] ;
--      VVF VPresPart => ["being able to"] ;
--      VVF VPast => "could" ;      --# notpresent
--      VVPastNeg => "couldn't" ;   --# notpresent
--      VVPresNeg => "can't"
--      } ;
--    isAux = True
--    } ;
--  during_Prep = ss "during" ;
--  either7or_DConj = sd2 "either" "or" ** {n = Sg} ;
--  everybody_NP = regNP "everybody" Sg ;
--  every_Det = mkDeterminer Sg "every" ;
--  everything_NP = regNP "everything" Sg ;
--  everywhere_Adv = ss "everywhere" ;
--  few_Det = mkDeterminer Pl "few" ;
-----  first_Ord = ss "first" ; DEPRECATED
--  for_Prep = ss "for" ;
--  from_Prep = ss "from" ;
  he_Pron = personalPronoun P3 Sg ** {a = Ag Masc Sg P3} ;
--  here_Adv = ss "here" ;
--  here7to_Adv = ss ["to here"] ;
--  here7from_Adv = ss ["from here"] ;
--  how_IAdv = ss "how" ;
--  how8many_IDet = mkDeterminer Pl ["how many"] ;
--  if_Subj = ss "if" ;
--  in8front_Prep = ss ["in front of"] ;
  i_Pron = personalPronoun P1 Sg ** {a = Ag Masc Sg P1} ;
  in_Prep = ss "meN" ;
--  it_Pron  = mkNP "it" "it" "its" Sg P3 Neutr ;
--  less_CAdv = ss "less" ;
--  many_Det = mkDeterminer Pl "many" ;
--  more_CAdv = ss "more" ;
--  most_Predet = ss "most" ;
--  much_Det = mkDeterminer Sg "much" ;
--  must_VV = {
--    s = table {
--      VVF VInf => ["have to"] ;
--      VVF VPres => "must" ;
--      VVF VPPart => ["had to"] ;
--      VVF VPresPart => ["having to"] ;
--      VVF VPast => ["had to"] ;      --# notpresent
--      VVPastNeg => ["hadn't to"] ;      --# notpresent
--      VVPresNeg => "mustn't"
--      } ;
--    isAux = True
--    } ;
-----b  no_Phr = ss "no" ;
--  no_Utt = ss "no" ;
--  on_Prep = ss "on" ;
------  one_Quant = mkDeterminer Sg "one" ; -- DEPRECATED
--  only_Predet = ss "only" ;
--  or_Conj = sd2 [] "or" ** {n = Sg} ;
--  otherwise_PConj = ss "otherwise" ;
--  part_Prep = ss "of" ;
--  please_Voc = ss "please" ;
--  possess_Prep = ss "of" ;
--  quite_Adv = ss "quite" ;
--  she_Pron = mkNP "she" "her" "her" Sg P3 Fem ;
--  so_AdA = ss "so" ;
--  somebody_NP = regNP "somebody" Sg ;
--  someSg_Det = mkDeterminer Sg "some" ;
--  somePl_Det = mkDeterminer Pl "some" ;
--  something_NP = regNP "something" Sg ;
--  somewhere_Adv = ss "somewhere" ;
--  that_Quant = mkQuant "that" "those" ;
--  there_Adv = ss "there" ;
--  there7to_Adv = ss "there" ;
--  there7from_Adv = ss ["from there"] ;
--  therefore_PConj = ss "therefore" ;
--  they_Pron = mkNP "they" "them" "their" Pl P3 Masc ; ---- 
--  this_Quant = mkQuant "this" "these" ;
--  through_Prep = ss "through" ;
--  too_AdA = ss "too" ;
--  to_Prep = ss "to" ;
--  under_Prep = ss "under" ;
--  very_AdA = ss "very" ;
--  want_VV = P.mkVV (P.regV "want") ;
  we_Pron = personalPronoun P1 Pl ** {a = Ag Masc Pl P1} ;

--  whatPl_IP = mkIP "what" "what" "what's" Sg ;
--  whatSg_IP = mkIP "what" "what" "what's" Sg ;
--  when_IAdv = ss "when" ;
--  when_Subj = ss "when" ;
--  where_IAdv = ss "where" ;
--  which_IQuant = {s = \\_ => "which"} ;
-----b  whichPl_IDet = mkDeterminer Pl ["which"] ;
-----b  whichSg_IDet = mkDeterminer Sg ["which"] ;
--  whoSg_IP = mkIP "who" "whom" "whose" Sg ;
--  whoPl_IP = mkIP "who" "whom" "whose" Pl ;
--  why_IAdv = ss "why" ;
--  without_Prep = ss "without" ;
--  with_Prep = ss "with" ;
-----b  yes_Phr = ss "yes" ;
--  yes_Utt = ss "yes" ;
--  youSg_Pron = mkNP "you" "you" "your" Sg P2 Masc ;
--  youPl_Pron = mkNP "you" "you" "your" Pl P2 Masc ;
--  youPol_Pron = mkNP "you" "you" "your" Sg P2 Masc ;
--
--
--oper
--  mkQuant : Str -> Str -> {s : Number => Str} = \x,y -> {
--    s = table Number [x ; y]
--    } ;
--
}
--