incomplete concrete CatScand of Cat = CommonX -[Tense,Temp] ** open (RS = ResScand), Prelude, CommonScand, (R = ParamX) in { flags optimize=all_subs ; coding=utf8 ; lincat -- Tensed/Untensed S = {s : Order => Str} ; QS = {s : QForm => Str} ; RS = {s : Agr => RCase => Str ; c : NPForm} ; SSlash = {s : Order => Str ; n3 : Agr => Str ; c2 : Complement} ; -- Sentence Cl = {s : STense => Anteriority => Polarity => Order => Str} ; ClSlash = { s : STense => Anteriority => Polarity => Order => Str ; n3 : Agr => Str ; c2 : Complement } ; Imp = {s : Polarity => Number => Str} ; -- Question QCl = {s : STense => Anteriority => Polarity => QForm => Str} ; IP = {s : NPForm => Str ; g : Gender ; n : Number} ; IComp = {s : AFormPos => Str} ; IDet = {s : NGender => Str ; n : Number ; det : DetSpecies} ; IQuant = {s : Number => NGender => Str ; det : DetSpecies} ; -- Relative; the case $c$ is for "det" clefts. RCl = {s : STense => Anteriority => Polarity => Agr => RCase => Str ; c : NPForm} ; RP = {s : Gender => Number => RCase => Str ; a : RAgr} ; -- Verb VP = { s : Voice => VPForm => { fin : Str ; -- V1 har ---s1 inf : Str ; -- V2 sagt ---s4 a1 : Polarity => Agr => Str * Str ; -- A1 inte ---s3 själv/själva/självt -- p1: with infinite "jag har inte älskat dig", -- p2: without infinite "jag älskar dig inte" } ; sp : PartForm => Str ; n1 : Agr => Str ; -- N2 dig ---s5 n2 : Agr => Str ; -- N2 den där mannen ---s5 a2 : Str ; -- A2 idag ---s6 ext : Str ; -- S-Ext att hon går ---s7 en2,ea2,eext : Bool -- indicate if the field exists } ; VPSlash = CommonScand.VP ** { n3 : Agr => Str ; -- object-control complement c2 : Complement } ; Comp = {s : Agr => Str} ; -- Adjective AP = {s : AFormPos => Str ; isPre : Bool} ; -- Noun -- The fields $isMod$ and $isDet$, and the boolean parameter of -- determiners, are a hack (the simples possible we found) that -- permits treating definite articles "huset - de fem husen - det gamla huset" -- as $Quant$. CN = {s : Number => DetSpecies => Case => Str ; g : NGender ; isMod : Bool} ; NP = {s : NPForm => Str ; a : Agr ; isPron : Bool} ; Pron = {s : NPForm => Str ; a : Agr} ; Det = {s,sp : Bool => NGender => Str ; n : Number ; det : DetSpecies} ; Quant = {s,sp : Number => Bool => Bool => NGender => Str ; det : DetSpecies} ; Predet = {s : Gender => Number => Str ; p : Str ; a : PredetAgr} ; Num = {s : NGender => Str ; isDet : Bool ; n : Number} ; Card = {s : NGender => Str ; n : Number} ; Ord = {s : Str} ; DAP = {s : Bool => NGender => Str ; n : Number ; det : DetSpecies} ; -- Numeral Numeral = {s : CardOrd => Str ; n : Number} ; Digits = {s : CardOrd => Str ; n : Number} ; -- Structural Conj = {s1,s2 : Str ; n : Number ; isDiscont : Bool} ; -- isDiscont: there is an adverb: antingen vinner jag eller du vinner Subj = {s : Str} ; Prep = {s : Str} ; -- Open lexical classes, e.g. Lexicon V, VS, VQ, VA = Verb ; V2, VV, V2Q, V2S, V2A = Verb ** {c2 : Complement} ; V3, V2V = Verb ** {c2,c3 : Complement} ; A = Adjective ** {isComp : Bool} ; -- {s : AForm => Str} ; A2 = Adjective ** {isComp : Bool ; c2 : Complement} ; N = Noun ; -- {s : Number => Species => Case => Str ; g : Gender} ; N2 = Noun ** {c2 : Complement} ; N3 = Noun ** {c2,c3 : Complement} ; PN = {s : Case => Str ; g : Gender} ; lincat Temp = {s : Str ; t : STense ; a : Anteriority} ; Tense = {s : Str ; t : STense} ; oper agrUSgP3 : Agr = {g = Utr ; n = Sg ; p = P3} ; linref SSlash = \ss -> ss.s ! Main ++ ss.c2.s ++ ss.n3 ! agrUSgP3 ; ClSlash = \cls -> cls.s ! SPres ! Simul ! Pos ! Main ++ cls.c2.s ++ cls.n3 ! agrUSgP3 ; VP = \vp -> infVP vp agrUSgP3 ; VPSlash = \vps -> infVP vps agrUSgP3 ++ vps.c2.s ++ vps.n3 ! agrUSgP3 ; V, VS, VQ, VA = \v -> infVP (predV v) agrUSgP3 ; V2, V2A, V2Q, V2S = \v -> infVP (predV v) agrUSgP3 ++ v.c2.s ; V3 = \v -> infVP (predV v) agrUSgP3 ++ v.c2.s ++ v.c3.s ; VV = \v -> infVP (predV v) agrUSgP3 ; V2V = \v -> infVP (predV v) agrUSgP3 ++ v.c2.s ; Conj = \c -> c.s1 ++ c.s2 ; {- A = \a -> a.s ! AAdj Posit Nom ; A2 = \a -> a.s ! AAdj Posit Nom ++ a.c2 ; N = \n -> n.s ! Sg ! Nom ; N2 = \n -> n.s ! Sg ! Nom ++ n.c2 ; N3 = \n -> n.s ! Sg ! Nom ++ n.c2 ++ n.c3 ; -} }