concrete NounGer of Noun = CatGer ** open ResGer, MorphoGer, Prelude in { flags optimize=all_subs ; lin DetCN det cn = { s = \\c => det.s ! cn.g ! c ++ (let k = (prepC c).c in cn.s ! adjfCase det.a k ! det.n ! k) ; a = agrgP3 cn.g det.n ; isPron = det.isDef ; -- ich sehe den Mann nicht vs. ich sehe nicht einen Mann rc = cn.rc ! det.n ; adv = cn.adv ; ext = cn.ext } ; DetNP det = { s = \\c => det.sp ! Neutr ! c ; -- more genders in ExtraGer a = agrP3 det.n ; isPron = det.isDef ; rc, adv, ext = [] } ; UsePN pn = { s = \\c => usePrepC c (\k -> pn.s ! k) ; a = agrgP3 pn.g Sg ; isPron = True ; --- means: this is not a heavy NP, but comes before negation rc, adv, ext = [] } ; UsePron pron = { s = \\c => usePrepC c (\k -> pron.s ! NPCase k) ; a = pron.a ; isPron = True ; rc, adv, ext = [] } ; PredetNP pred np = let ag = case pred.a of {PAg n => agrP3 n ; _ => np.a} in np ** { s = \\c0 => let c = case pred.c.k of {NoCase => c0 ; PredCase k => k} in pred.s ! numberAgr ag ! genderAgr np.a ! c0 ++ pred.c.p ++ np.s ! c ; a = ag ; isPron = False } ; PPartNP np v2 = np ** { s = \\c => np.s ! c ++ v2.s ! VPastPart APred ; --- invar part isPron = False } ; {- possibly structures such as "sie ist eine erfolgreiche Frau geliebt von vielen" but only with v2 not possible in German? -} AdvNP np adv = np ** { adv = np.adv ++ adv.s ; isPron = False } ; ExtAdvNP np adv = np ** { adv = np.adv ++ embedInCommas adv.s ; isPron = False } ; DetQuantOrd quant num ord = let n = num.n ; a = quant.a in { s = \\g,c => quant.s ! num.isNum ! n ! g ! c ++ (let k = (prepC c).c in num.s!g!k ++ ord.s ! agrAdj g (adjfCase a k) n k) ; sp = \\g,c => quant.sp ! num.isNum ! n ! g ! c ++ (let k = (prepC c).c in num.s!g!k ++ ord.s ! agrAdj g (adjfCase quant.aPl k) n k) ; n = n ; a = case n of {Sg => a ; Pl => quant.aPl} ; isDef = case of { => False ; _ => True} ; } ; DetQuant quant num = let n = num.n ; a = quant.a in { s = \\g,c => quant.s ! num.isNum ! n ! g ! c ++ (let k = (prepC c).c in num.s!g!k) ; sp = \\g,c => quant.sp ! num.isNum ! n ! g ! c ++ (let k = (prepC c).c in num.s!g!k) ; n = n ; a = case n of {Sg => a ; Pl => quant.aPl} ; isDef = case of { => False ; _ => True} ; } ; PossPron p = { s = \\_,n,g,c => usePrepC c (\k -> p.s ! NPPoss (gennum g n) k) ; sp = \\_,n,g,c => usePrepC c (\k -> p.s ! NPPoss (gennum g n) k) ; a = Strong ; aPl = Weak ; } ; NumCard n = n ** {isNum = True} ; NumPl = {s = \\g,c => []; n = Pl ; isNum = False} ; NumSg = {s = \\g,c => []; n = Sg ; isNum = False} ; NumDigits numeral = {s = \\g,c => numeral.s ! NCard g c; n = numeral.n } ; OrdDigits numeral = {s = \\af => numeral.s ! NOrd af} ; NumNumeral numeral = {s = \\g,c => numeral.s ! NCard g c; n = numeral.n } ; OrdNumeral numeral = {s = \\af => numeral.s ! NOrd af} ; AdNum adn num = {s = \\g,c => adn.s ++ num.s!g!c; n = num.n } ; OrdSuperl a = {s = a.s ! Superl} ; OrdNumeralSuperl n a = {s = \\af => n.s ! NOrd APred ++ Predef.BIND ++ a.s ! Superl ! af} ; -- drittbeste DefArt = { s = \\_,n,g,c => artDefContr (gennum g n) c ; sp = \\_,n,g,c => artDefContr (gennum g n) c ; ---- deren, denem... a, aPl = Weak } ; IndefArt = { s = table { True => \\_,_,c => usePrepC c (\k -> []) ; False => table { Sg => \\g,c => usePrepC c (\k -> "ein" + pronEnding ! GSg g ! k) ; Pl => \\_,c => usePrepC c (\k -> []) } } ; sp = table { True => \\_,_,c => usePrepC c (\k -> []) ; False => table { Sg => \\g,c => usePrepC c (\k -> (detLikeAdj False Sg "ein").s ! g ! NPC k) ; Pl => \\_,c => usePrepC c (\k -> caselist "einige" "einige" "einigen" "einiger" ! k) } } ; a, aPl = Strong } ; MassNP cn = { s = \\c => usePrepC c (\k -> cn.s ! Strong ! Sg ! k) ; a = agrgP3 cn.g Sg ; isPron = False ; rc = cn.rc ! Sg ; adv = cn.adv ; ext = cn.ext } ; UseN, UseN2 = \n -> { s = \\_ => n.s ; g = n.g ; rc = \\_ => [] ; ext,adv = [] } ; ComplN2 f x = { s = \\_,n,c => f.s ! n ! c ++ appPrepNP f.c2 x ; g = f.g ; rc = \\_ => [] ; ext,adv = [] } ; ComplN3 f x = { s = \\n,c => f.s ! n ! c ++ appPrepNP f.c2 x ; co = f.co ++ appPrepNP f.c2 x ; ---- should not occur at all; the abstract syntax is problematic in giving N2 uncap = { s = \\n,c => f.uncap.s ! n ! c ++ appPrepNP f.c2 x ; co = f.uncap.co ++ appPrepNP f.c2 x ; ---- should not occur at all; the abstract syntax is problematic in giving N2 } ; g = f.g ; c2 = f.c3 ; rc = \\_ => [] ; ext,adv = [] } ; Use2N3 f = f ; Use3N3 f = f ** { c2 = f.c3; } ; AdjCN ap cn = let g = cn.g in cn ** { s = \\a,n,c => preOrPost ap.isPre (ap.c.p1 ++ ap.c.p2 ++ ap.s ! agrAdj g a n c ++ ap.ext) (cn.s ! a ! n ! c) ; g = g } ; RelCN cn rs = cn ** {rc = \\n => embedInCommas (rs.s ! RGenNum (gennum cn.g n))} ; RelNP np rs = np ** { rc = embedInCommas (rs.s ! RGenNum (gennum (genderAgr np.a) (numberAgr np.a))) ; isPron = False } ; SentCN cn s = cn ** {ext = embedInCommas s.s} ; AdvCN cn a = cn ** {adv = a.s} ; ApposCN cn np = let g = cn.g in cn ** { s = \\a,n,c => cn.s ! a ! n ! c ++ np.s ! NPC c ++ bigNP np } ; PossNP cn np = cn ** { s = \\a,n,c => cn.s ! a ! n ! c ++ np.s ! NPP CVonDat ++ bigNP np } ; }