concrete StructuralLat of Structural = CatLat ** open ResLat, (P = ParadigmsLat), Prelude in { flags optimize=all ; lin above_Prep = mkPrep "super" Acc ; after_Prep = mkPrep "post" Acc ; -- all_Predet = ss "all" ; almost_AdA, almost_AdN = ss "quasi" ; -- although_Subj = ss "although" ; always_AdV = ss "semper" ; -- and_Conj = sd2 [] "and" ** {n = Pl} ; -----b and_Conj = ss "and" ** {n = Pl} ; -- because_Subj = ss "because" ; before_Prep = mkPrep "ante" Acc ; -- behind_Prep = ss "behind" ; between_Prep = mkPrep "inter" Acc ; -- both7and_DConj = sd2 "both" "and" ** {n = Pl} ; but_PConj = ss "sed" ; by8agent_Prep = mkPrep "a" Abl ; by8means_Prep = mkPrep "per" Acc ; -- 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 = mkPrep "pro" Abl ; from_Prep = mkPrep "de" Abl ; he_Pron = personalPronoun Masc Sg P3 ; here_Adv = ss "hic" ; -- 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 = mkPrep "coram" Abl ; i_Pron = personalPronoun Masc Sg P1 ; in_Prep = mkPrep "in" Abl ; it_Pron = personalPronoun Neutr Sg P3 ; -- 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 "non" ; -- on_Prep = ss "on" ; ------ one_Quant = mkDeterminer Sg "one" ; -- DEPRECATED only_Predet = ss "tantum" ; -- or_Conj = sd2 [] "or" ** {n = Sg} ; -- otherwise_PConj = ss "otherwise" ; part_Prep = mkPrep [] Gen ; -- please_Voc = ss "please" ; possess_Prep = mkPrep [] Gen ; -- quite_Adv = ss "quite" ; she_Pron = personalPronoun Fem Sg P3 ; so_AdA = ss "sic" ; -- 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 = ille_Quantifier ; -- there_Adv = ss "there" ; -- there7to_Adv = ss "there" ; -- there7from_Adv = ss ["from there"] ; -- therefore_PConj = ss "therefore" ; they_Pron = personalPronoun Masc Pl P3 ; this_Quant = hic_Quantifier ; -- through_Prep = ss "through" ; -- too_AdA = ss "too" ; -- to_Prep = ss "to" ; under_Prep = mkPrep "sub" Acc ; very_AdA = ss "valde" ; -- want_VV = P.mkVV (P.regV "want") ; we_Pron = personalPronoun Masc Pl P1 ; -- whatPl_IP = mkIP "what" "what" "what's" Pl ; -- 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"] ; -- whoPl_IP = mkIP "who" "whom" "whose" Pl ; -- whoSg_IP = mkIP "who" "whom" "whose" Sg ; -- why_IAdv = ss "why" ; without_Prep = mkPrep "sine" Abl ; with_Prep = mkPrep "cum" Abl ; yes_Utt = ss "sic" ; youSg_Pron = personalPronoun Masc Sg P2 ; youPl_Pron = personalPronoun Masc Pl P2 ; youPol_Pron = personalPronoun Masc Sg P2 ; lin language_title_Utt = ss "latina" ; }