--# -path=.:../abstract:../../prelude incomplete concrete RulesScand of Rules = CategoriesScand ** open Prelude, SyntaxScand in { flags optimize=all_subs ; lin UseN = noun2CommNounPhrase ; UsePN = nameNounPhrase ; IndefOneNP = indefNounPhrase singular ; IndefNumNP = indefNounPhraseNum plural ; DefOneNP = defNounPhrase singular ; DefNumNP = defNounPhraseNum plural ; DetNP = detNounPhrase ; NDetNP = numDetNounPhrase ; NDetNum = justNumDetNounPhrase ; MassNP = detNounPhrase (mkDeterminerSg (detSgInvar []) IndefP) ; AppN2 = appFunComm ; AppN3 = appFun2 ; UseN2 = funAsCommNounPhrase ; ModAP = modCommNounPhrase ; CNthatS = nounThatSentence ; ModGenOne = npGenDet singular noNum ; ModGenNum = npGenDet plural ; UseInt i = {s = \\_ => table {Nom => i.s ; Gen => i.s ++ "s"} ; n = Pl} ; --- NoNum = noNum ; UseA = adj2adjPhrase ; ComplA2 = complAdj ; ComplAV = complVerbAdj ; ComplObjA2V = complVerbAdj2 True ; PositADeg = positAdjPhrase ; ComparADeg = comparAdjPhrase ; SuperlADeg = superlAdjPhrase ; -- verbs and verb phrases mostly in $Clause$ PredAS = predAdjSent ; PredV0 = predVerb0 ; -- Partial saturation. UseV2 = transAsVerb ; ---- ComplV3 = complDitransVerb ; ComplA2S = predAdjSent2 ; AdjPart = adjPastPart ; UseV2V x = x ** {isAux = False} ; UseV2S x = x ; UseV2Q x = x ; UseA2S x = x ; UseA2V x = x ; -- Formation of infinitival phrases. UseCl tp cl = {s = \\o => tp.s ++ cl.s ! tp.b ! ClFinite tp.t tp.a o} ; UseRCl tp cl = {s = \\gn,p => tp.s ++ cl.s ! tp.b ! VFinite tp.t tp.a ! gn ! p} ; UseQCl tp cl = {s = \\q => tp.s ++ cl.s ! tp.b ! VFinite tp.t tp.a ! q} ; UseVCl po a cl = { s = \\v,g,n,p => po.s ++ a.s ++ cl.s ! po.p ! a.a ! v ! g ! n ! p ; } ; PosTP t a = {s = t.s ++ a.s ; b = True ; t = t.t ; a = a.a} ; NegTP t a = {s = t.s ++ a.s ; b = False ; t = t.t ; a = a.a} ; TPresent = {s = [] ; t = Present} ; TPast = {s = [] ; t = Past} ; TFuture = {s = [] ; t = Future} ; TConditional = {s = [] ; t = Condit} ; ASimul = {s = [] ; a = Simul} ; AAnter = {s = [] ; a = Anter} ; PPos = {s = [] ; p = True} ; PNeg = {s = [] ; p = False} ; -- Adverbs. AdjAdv a = advPost (a.s ! adverbForm ! Nom) ; AdvPP p = p ; PrepNP p = prepPhrase p.s ; --- AdvCN = advCommNounPhrase ; AdvAP = advAdjPhrase ; AdvAdv = cc2 ; AdvNP np adv = ** {s = \\f => np.s ! f ++ adv.s} ; --3 Sentences and relative clauses -- SlashV2 = slashTransVerb ; SlashVV2 = slashVerbVerb ; SlashAdv cl p = slashAdverb cl p.s ; IdRP = identRelPron ; FunRP = funRelPron ; RelSlash = relSlash ; ModRS = modRelClause ; RelCl = relSuch ; --! --3 Questions and imperatives -- IDetCN d n = detNounPhrase d n ; FunIP = funIntPron ; QuestCl = questClause ; IntSlash = intSlash ; QuestAdv = questAdverbial ; PosImpVP = imperVerbPhrase True ; NegImpVP = imperVerbPhrase False ; IndicPhrase = indicUtt ; QuestPhrase = interrogUtt ; ImperOne = imperUtterance singular ; ImperMany = imperUtterance plural ; AdvCl = advClause ; AdvVPI = advVerbPhrase ; AdvPhr = advSentence ; AdCPhr = advSentence ; --! --3 Coordination -- TwoS = twoSentence ; ConsS = consSentence ; ConjS = conjunctSentence ; ConjDS = conjunctDistrSentence ; TwoAP = twoAdjPhrase ; ConsAP = consAdjPhrase ; ConjAP = conjunctAdjPhrase ; ConjDAP = conjunctDistrAdjPhrase ; TwoNP = twoNounPhrase ; ConsNP = consNounPhrase ; ConjNP = conjunctNounPhrase ; ConjDNP = conjunctDistrNounPhrase ; TwoAdv = twoAdverb ; ConsAdv = consAdverb ; ConjAdv = conjunctAdverb ; ConjDAdv = conjunctDistrAdverb ; SubjS = subjunctSentence ; SubjImper = subjunctImperative ; SubjQS = subjunctQuestion ; AdvSubj if A = {s = if.s ++ A.s ! Sub} ; PhrNP = useNounPhrase ; PhrOneCN = useCommonNounPhrase singular ; PhrManyCN = useCommonNounPhrase plural ; PhrIP ip = ip ; PhrIAdv ia = ia ; PhrVPI = verbUtterance ; OnePhr p = p ; ConsPhr = cc2 ; ----------------------- -- special constructions OneNP = npMan ; ExistCN A = predVerbGroupClause npDet (complTransVerb (mkDirectVerb (deponentVerb verbFinnas)) (indefNounPhrase singular A)) ; ExistNumCN nu A = predVerbGroupClause npDet (complTransVerb (mkDirectVerb (deponentVerb verbFinnas)) (indefNounPhraseNum plural nu A)) ; } ;