concrete StructuralHun of Structural = CatHun ** open Prelude, ResHun, ParadigmsHun in { {- ------- -- Ad* lin almost_AdA = mkAdA "" ; lin almost_AdN = ss "" ; lin at_least_AdN = ss "" ; lin at_most_AdN = ss "" ; lin so_AdA = mkAdA "" ; lin too_AdA = mkAdA "" ; lin very_AdA = mkAdA "" ; -} lin as_CAdv = {s = "olyan" ; p = "mint"} ; {- lin less_CAdv = { s = "" ; p = [] } ; lin more_CAdv = { s = "" ; p = [] } ; lin how_IAdv = ss "" : lin how8much_IAdv = ss "" ; lin when_IAdv = ss "" ; lin where_IAdv = ss "" : lin why_IAdv = ss "" : lin always_AdV = ss "" ; lin everywhere_Adv = ss "" ; lin here7from_Adv = ss "" ; lin here7to_Adv = ss "" ; lin here_Adv = ss "" ; lin quite_Adv = ss "" ; lin somewhere_Adv = ss "" ; lin there7from_Adv = ss "" ; lin there7to_Adv = ss "" ; lin there_Adv = ss "" ; -} ------- -- Conj lin and_Conj = mkConj "és" Pl ; lin or_Conj = mkConj "vagy" Sg ; -- lin if_then_Conj = -- lin both7and_DConj = lin either7or_DConj = mkDConj "vagy" "vagy" Sg ; {- lin but_PConj = ss "" ; lin otherwise_PConj = ss "" ; lin therefore_PConj = ss "" ; ----------------- -- *Det and Quant lin how8many_IDet = ; lin all_Predet = {s = ""} ; lin not_Predet = {s = ""} ; lin only_Predet = {s = ""} ; lin most_Predet = {s = ""} ; -} --lin every_Det = lin few_Det = mkDet "kevés" Indef Sg False ; lin many_Det = mkDet "sok" Indef Sg False ; --lin much_Det = lin someSg_Det, somePl_Det = mkDet2 "néhány" "néhányat" Indef Sg False ; --lin no_Quant = lin that_Quant = let az : Quant = mkQuant "az" "az" ; in az ** {s = \\n,c => az.s ! n ! c ++ pre {"a" ; "az" / v }} ; lin this_Quant = let ez : Quant = mkQuant "ez" "ez" ; in ez ** {s = \\n,c => ez.s ! n ! c ++ pre {"a" ; "az" / v }} ; {-lin which_IQuant = ----- -- NP lin everybody_NP = defNP "" N.NumPl ; lin everything_NP = defNP "" N.NumSg ; lin nobody_NP = mkVerb; "" lin nothing_NP = defNP "" N.NumSg ; lin somebody_NP = defNP "" N.NumSg ; -} lin something_NP = defNPPrefix "vala" "mi" Sg ; -- vowel harmony according to mi ------- -- Prep -- List of postpositions requiring case: -- https://en.wiktionary.org/wiki/Appendix:Hungarian_postpositions#Postpositions_Requiring_Case lin above_Prep = nomAdp "fölött" ; -- lin after_Prep = mkPrep "" -- lin before_Prep = mkPrep "" ; -- lin behind_Prep = mkPrep "" ; -- lin between_Prep = = mkPrep "" ; lin by8agent_Prep = nomAdp "által" ; lin by8means_Prep = caseAdp Ins ; -- lin during_Prep = mkPrep ; -- lin except_Prep = mkPrep ; lin for_Prep = caseAdp Dat ; -- lin from_Prep = mkPrep "" ; -- lin in8front_Prep = mkPrep "" ; lin in_Prep = caseAdp Ine ; lin on_Prep = caseAdp Sup ; -- lin part_Prep = casePrep ; -- lin possess_Prep = -- Suffix attaches to possessee, not possessor -- lin through_Prep = mkPrep ; lin to_Prep = caseAdp All ; lin under_Prep = nomAdp "alatt" ; -- lin with_Prep = mkPrep "" ; -- lin without_Prep = mkPrep "" ; ------- -- Pron -- Pronouns are closed class, no constructor in ParadigmsHun. -- it_Pron = i_Pron = pronTable ! ; youPol_Pron, youSg_Pron = pronTable ! ; he_Pron, she_Pron = pronTable ! ; we_Pron = pronTable ! ; youPl_Pron = pronTable ! ; they_Pron = pronTable ! ; --lin whatPl_IP = ; --lin whatSg_IP = : --lin whoPl_IP = ; --lin whoSg_IP = ; ------- -- Subj -- lin although_Subj = -- lin because_Subj = -- lin if_Subj = -- lin that_Subj = -- lin when_Subj = ------ -- Utt lin language_title_Utt = ss "magyar" ; lin no_Utt = ss "nem" ; lin yes_Utt = ss "igen" ; ------- -- Verb lin have_V2 = datV2 copula ; -- uncomment if prefer def obj with megvan -- ** { -- s = table {Indef => copula.s } ; -- - Def => megvan.s } ; -- } ; {-lin can8know_VV = can_VV ; -- can (capacity) lin can_VV = mkVV "" ; -- can (possibility) lin must_VV = mkVV "" ; lin want_VV = mkVV "" subjunctive ; ------ -- Voc lin please_Voc = ss "" ; -} }