--# -path=alltenses concrete ParseSpa of ParseEngAbs = TenseSpa, -- CatSpa, NounSpa - [PPartNP], AdjectiveSpa, NumeralSpa, SymbolSpa [PN, Symb, String, CN, Card, NP, MkSymb, SymbPN, CNNumNP], ConjunctionSpa, VerbSpa - [SlashV2V, PassV2, UseCopula, ComplVV], AdverbSpa, PhraseSpa, SentenceSpa, QuestionSpa, RelativeSpa, IdiomSpa [NP, VP, Tense, Cl, ProgrVP, ExistNP], ExtraSpa [NP, Quant, VPSlash, VP, Tense, GenNP, PassVPSlash, Temp, Pol, Conj, VPS, ListVPS, S, Num, CN, RP, MkVPS, BaseVPS, ConsVPS, ConjVPS, PredVPS, GenRP, VPI, VPIForm, VPIInf, VPIPresPart, ListVPI, VV, MkVPI, BaseVPI, ConsVPI, ConjVPI, ComplVPIVV, ClSlash, RCl, EmptyRelSlash], DictEngSpa ** open MorphoSpa, ResSpa, ParadigmsSpa, SyntaxSpa, Prelude in { flags literal=Symb ; coding = utf8 ; lin -- missing from ExtraSpa; should not really be there either GenNP np = let denp = (np.s ! ResSpa.genitive).ton in { s = \\_,_,_,_ => [] ; sp = \\_,_,_ => denp ; s2 = denp ; isNeg = False ; } ; EmptyRelSlash slash = mkRCl which_RP (lin ClSlash slash) ; that_RP = which_RP ; UncNeg = negativePol ; -- lexical entries another_Quant = mkQuantifier "otro" "otra" "otros" "otras" ; some_Quant = mkQuantifier "algĂșn" "alguna" "algunos" "algunas" ; anySg_Det = mkDeterminer "algĂșn" "alguna" Sg False ; ---- also meaning "whichever" ? each_Det = SyntaxSpa.every_Det ; but_Subj = {s = "pero" ; m = Indic} ; ---- strange to have this as Subj {- myself_NP = regNP "myself" singular ; yourselfSg_NP = regNP "yourself" singular ; himself_NP = regNP "himself" singular ; herself_NP = regNP "herself" singular ; itself_NP = regNP "itself" singular ; ourself_NP = regNP "ourself" plural ; yourselfPl_NP = regNP "yourself" plural ; themself_NP = regNP "themself" plural ; themselves_NP = regNP "themselves" plural ; -} CompoundCN num noun cn = { s = \\n => cn.s ! n ++ "de" ++ noun.s ! num.n ; g = cn.g } ; {- DashCN noun1 noun2 = { s = \\n,c => noun1.s ! Sg ! Nom ++ "-" ++ noun2.s ! n ! c ; g = noun2.g } ; GerundN v = { s = \\n,c => v.s ! VPresPart ; g = Neutr } ; GerundAP v = { s = \\agr => v.s ! VPresPart ; isPre = True } ; -} PastPartAP v = { s = table { AF g n => v.s ! VPart g n ; _ => v.s ! VPart Masc Sg ---- the adverb form } ; isPre = True } ; {- OrdCompar a = {s = \\c => a.s ! AAdj Compar c } ; -} PositAdVAdj a = {s = a.s ! Posit ! AA} ; {- UseQuantPN q pn = {s = \\c => q.s ! False ! Sg ++ pn.s ! npcase2case c ; a = agrgP3 Sg pn.g} ; SlashV2V v ant p vp = insertObjc (\\a => v.c3 ++ ant.s ++ p.s ++ infVP v.typ vp ant.a p.p a) (predVc v) ; SlashVPIV2V v p vpi = insertObjc (\\a => p.s ++ v.c3 ++ vpi.s ! VVAux ! a) (predVc v) ; ComplVV v a p vp = insertObj (\\agr => a.s ++ p.s ++ infVP v.typ vp a.a p.p agr) (predVV v) ; -} ---- TODO: find proper expressions for OSV and OVS in Spa PredVPosv np vp = mkCl (lin NP np) (lin VP vp) ; PredVPovs np vp = mkCl (lin NP np) (lin VP vp) ; CompS s = {s = \\_ => "de" ++ "que" ++ s.s ! Indic} ; ---- de ? {- CompQS qs = {s = \\_ => qs.s ! QIndir} ; CompVP ant p vp = {s = \\a => ant.s ++ p.s ++ infVP VVInf vp ant.a p.p a} ; VPSlashVS vs vp = insertObj (\\a => infVP VVInf vp Simul CPos a) (predV vs) ** {c2 = ""; gapInMiddle = False} ; PastPartRS ant pol vps = { s = \\agr => vps.ad ++ vps.ptp ++ vps.s2 ! agr ; c = npNom } ; PresPartRS ant pol vp = { s = \\agr => vp.ad ++ vp.prp ++ vp.s2 ! agr ; c = npNom } ; ApposNP np1 np2 = { s = \\c => np1.s ! c ++ "," ++ np2.s ! npNom ; a = np1.a } ; AdAdV = cc2 ; UttAdV adv = adv; -} }