concrete StructuralGer of Structural = CatGer ** open MorphoGer, MakeStructuralGer, (X = ConstructX), (P = ParadigmsGer), IrregGer, Prelude, (R = ResGer) in { flags optimize=all ; coding=utf8 ; lin above_Prep = mkPrep "über" P.dative ; after_Prep = mkPrep "nach" P.dative ; -- all_Predet = {s = appAdj (regA "all") ; c = noCase ; a = PAgNone} ; all_Predet = {s = appAdj (regA "all") ; c = noCase ; a = PAg Pl} ; -- HL 5/2022 almost_AdA, almost_AdN = ss "fast" ; although_Subj = ss "obwohl" ; always_AdV = ss "immer" ; and_Conj = {s1 = [] ; s2 = "und" ; n = Pl} ; because_Subj = ss "weil" ; before_Prep = mkPrep "vor" P.dative ; behind_Prep = mkPrep "hinter" P.dative ; between_Prep = mkPrep "zwischen" P.dative ; both7and_DConj = sd2 "sowohl" ["als auch"] ** {n = Sg} ; but_PConj = ss "aber" ; by8agent_Prep = mkPrep "durch" P.accusative ; by8means_Prep = mkPrep "mit" P.dative ; can8know_VV, can_VV = auxVV (mkV "können" "kann" "kannst" "kann" "könnt" "könn" "konnte" "konntest" "konnten" "konntet" "könnte" "gekonnt" [] VHaben) ; during_Prep = mkPrep "während" P.genitive ; --- no variants in the rgl | P.mkPrep P.accusative "über" ; either7or_DConj = sd2 "entweder" "oder" ** {n = Sg} ; everybody_NP = nameNounPhrase Masc {s = caselist "jeder" "jeden" "jedem" "jedes"} ; every_Det = let tab = (detUnlikeAdj False Sg "jed").s in {s,sp = asQuant tab ; n = Sg ; a = Weak ; isDef = False ; hasDefArt = False} ; everything_NP = nameNounPhrase Neutr {s = caselist "alles" "alles" "allem" "alles"} ; everywhere_Adv = ss "überall" ; few_Det = let tab = (detLikeAdj False Pl "wenig").s in {s,sp = asQuant tab ; n = Pl ; a = Weak ; isDef = False ; hasDefArt = False} ; ---- first_Ord = {s = (regA "erst").s ! Posit} ; for_Prep = mkPrep "für" P.accusative ; from_Prep = mkPrep "aus" P.dative ; he_Pron = mkPronPers "er" "ihn" "ihm" "seiner" "sein" Masc Sg P3 ; here7to_Adv = ss ["hierher"] ; here7from_Adv = ss ["hieraus"] ; here_Adv = ss "hier" ; how_IAdv = ss "wie" ; how8much_IAdv = ss "wieviel" ; how8many_IDet = {s = \\g,c => (detUnlikeAdj False Pl "wie viel").s ! g ! c ; n = Pl} ; if_Subj = ss "wenn" ; --- no variants in the RGL! | ss "falls" ; in8front_Prep = mkPrep "vor" P.dative ; i_Pron = mkPronPers "ich" "mich" "mir" "meiner" "mein" Masc Sg P1 ; -- in_Prep = mkPrep [] (NPP CInDat) ; in_Prep = P.inDat_Prep ; -- HL 7/2022 it_Pron = mkPronPers "es" "es" "ihm" "seiner" "sein" Neutr Sg P3 ; less_CAdv = X.mkCAdv "weniger" "als" ; many_Det = let tab = (detLikeAdj False Pl "viel").s in {s,sp = asQuant tab ; n = Pl ; a = Weak ; isDef = False ; hasDefArt = False} ; more_CAdv = X.mkCAdv "mehr" "als" ; most_Predet = { -- HL 5/2022 s = \\n,g,c => let gn = R.gennum g n ; adj = (P.mkA "viel" "mehr" "meiste").s ! Superl in R.artDef ! gn ! c ++ adj ! (agrAdj g Weak n c) ; c = {p = [] ; k = PredCase Gen} ; a = PAg Pl} ; much_Det = {s = asQuant (\\_,_ => "viel") ; sp = asQuant (\\_,_ => "vieles") ; n = Sg ; a = Weak ; isDef = False ; hasDefArt = False} ; must_VV = auxVV (mkV "müssen" "muss" "musst" "muss" "müsst" "müss" "musste" "musstest" "mussten" "musstet" "müsste" "gemusst" [] VHaben) ; --- one_Quant = DEPREC only_Predet = {s = \\_,_,_ => "nur" ; c = noCase ; a = PAgNone} ; no_Utt = ss "nein" ; ---b no_Phr = ss "nein" ; -- on_Prep = mkPrep "auf" P.dative ; on_Prep = P.mkPrep "auf" "auf den" "auf die" "aufs" P.accusative ; -- test HL 7/2022 or_Conj = {s1 = [] ; s2 = "oder" ; n = Sg} ; otherwise_PConj = ss "sonst" ; part_Prep = P.von_Prep ; -- obsolete, use PartNP cn np please_Voc = ss "bitte" ; possess_Prep = P.von_Prep ; -- obsolete, use PossNP cn np quite_Adv = ss "ziemlich" ; she_Pron = mkPronPers "sie" "sie" "ihr" "ihrer" "ihr" Fem Sg P3 ; so_AdA = ss "so" ; somebody_NP = nameNounPhrase Masc {s = caselist "jemand" "jemanden" "jemandem" "jemands"} ; somePl_Det = let tab = (detLikeAdj True Pl "einig").s in {s,sp = asQuant tab ; isDef = True ; n = Pl ; a = Weak ; hasDefArt = False} ; someSg_Det = { s,sp = asQuant (\\g,c => "ein" + pronEnding ! GSg g ! c) ; ---- einer,eines n = Sg ; a = Strong ; hasNum = True ; isDef = False ; hasDefArt = False } ; something_NP = nameNounPhrase Neutr {s = \\_ => "etwas"} ; somewhere_Adv = ss "irgendwo" ; that_Quant = let jener : Number => Gender => Case => Str = \\n => (detUnlikeAdj True n "jen").s in {s,sp = \\_,_ => jener ; a,aPl = Weak ; hasDefArt = False} ; ---b that_NP = nameNounPhrase Neutr {s = caselist "das" "das" "dem" "dessen"} ; ---- there_Adv = ss "da" ; --- no variants in the rgl | ss "dort" ; there7to_Adv = ss "dahin" ; there7from_Adv = ss ["daher"] ; therefore_PConj = ss "deshalb" ; ---b these_NP = {s = caselist "diese" "diese" "diesen" "dieser" ; a = agrP3 Pl} ; they_Pron = mkPronPers "sie" "sie" "ihnen" "ihrer" "ihr" Fem Pl P3 ; this_Quant = let dieser : Number => Gender => Case => Str = \\n => (detUnlikeAdj True n "dies").s in {s,sp = \\_,_ => dieser ; a,aPl = Weak ; hasDefArt = False} ; ---b this_NP = nameNounPhrase Neutr {s = caselist "dies" "dies" "diesem" "dieses"} ; ---- ---b those_NP = {s = caselist "jene" "jene" "jenen" "jener" ; a = agrP3 Pl} ; through_Prep = mkPrep "durch" P.accusative ; too_AdA = ss "zu" ; to_Prep = mkPrep "nach" P.dative ; under_Prep = mkPrep "unter" P.dative ; very_AdA = ss "sehr" ; want_VV = auxVV (mkV "wollen" "will" "willst" "will" "wollt" "woll" "wollte" "wolltest" "wollten" "wolltet" "wollte" "gewollt" [] VHaben) ; we_Pron = mkPronPers "wir" "uns" "uns" "unser" "unser" Fem Pl P1 ; whatSg_IP = {s = caselist "was" "was" "was" "wessen" ; n = Sg} ; ---- whatPl_IP = {s = caselist "was" "was" "was" "wessen" ; n = Pl} ; -- HL 6/2016 when_IAdv = ss "wann" ; when_Subj = ss "wenn" ; where_IAdv = ss "wo" ; which_IQuant = {s = \\n,g,c => (detUnlikeAdj True n "welch").s ! g ! c} ; whoSg_IP = {s = caselist "wer" "wen" "wem" "wessen" ; n = Sg} ; whoPl_IP = {s = caselist "wer" "wen" "wem" "wessen" ; n = Sg} ; -- HL 6/2016 why_IAdv = ss "warum" ; without_Prep = mkPrep "ohne" P.accusative ; with_Prep = mkPrep "mit" P.dative ; youSg_Pron = mkPronPers "du" "dich" "dir" "deiner" "dein" Fem Sg P2 ; youPl_Pron = mkPronPers "ihr" "euch" "euch" "eurer" "euer" Fem Pl P2 ; ---- poss youPol_Pron = mkPronPers "Sie" "Sie" "Ihnen" "Ihrer" "Ihr" Fem Pl P3 ; yes_Utt = ss "ja" ; not_Predet = {s = \\_,_,_ => "nicht" ; c = noCase ; a = PAgNone} ; no_Quant = let keiner : Number => Gender => Case => Str = table { Sg => \\g,c => "kein" + pronEnding ! GSg g ! c ; Pl => (detUnlikeAdj False Pl "kein").s } in {s,sp = \\_,_ => keiner ; a = Strong ; aPl = Weak ; hasDefArt = False} ; ---- sp if_then_Conj = {s1 = "wenn" ; s2 = "dann" ; n = Sg ; lock_Conj = <>} ; nobody_NP = nameNounPhrase Masc {s = caselist "niemand" "niemanden" "niemandem" "niemands"} ; nothing_NP = nameNounPhrase Neutr {s = \\_ => "nichts"} ; --maybe add: nameNounPhrase {s = \\_ => "garnichts"} at_least_AdN = ss "wenigstens" ; at_most_AdN = ss "höchstens" ; except_Prep = mkPrep "außer" P.dative ; as_CAdv = X.mkCAdv "ebenso" "wie" ; have_V2 = P.dirV2 IrregGer.haben_V ; that_Subj = ss "dass" ; lin language_title_Utt = ss "Deutsch" ; oper asQuant : (Gender => Case => Str) -> (Bool => Gender => Case => Str) = \tab -> \\_,g,c => tab ! g ! c ; asNum : (Gender => Case => Str) -> (Gender => Case => {quant,num:Str}) = \tab -> \\g,c => {quant = []; num = tab ! g ! c} ; pairTable : (Gender => Case => Str) -> (Gender => Case => Str) -> (Gender => Case => {quant,num:Str}) = \qt,nt -> \\g,c => {quant = qt ! g ! c; num = nt ! g ! c} ; appAdjDegAdjf : Adjective -> Degree -> Adjf -> Number => Gender => Case => Str = \adj,deg,adjf -> \\n,g,c => adj.s ! deg ! (agrAdj g adjf n c) ; }