abstract Predication = { flags startcat = Utt ; cat Arg ; V Arg ; VP Arg ; VPC Arg ; -- conjunction of VP Ant ; Tense ; Pol ; Cl Arg ; ClC Arg ; -- conjunction of Cl QCl Arg ; NP ; Adv Arg ; -- preposition is Adv aNP S ; Utt ; AP Arg ; CN Arg ; -- the country he became the president of IP ; Conj ; IAdv ; fun aNone, aS, aV, aQ, aA, aN : Arg ; aNP : Arg -> Arg ; TPres, TPast, TFut, TCond : Tense ; PPos, PNeg : Pol ; ASimul, AAnter : Ant ; UseV : Ant -> Tense -> Pol -> (a : Arg) -> V a -> VP a ; PassUseV : Ant -> Tense -> Pol -> (a : Arg) -> V (aNP a) -> VP a ; AgentPassUseV : Ant -> Tense -> Pol -> (a : Arg) -> V (aNP a) -> NP -> VP a ; SlashV2 : (a : Arg) -> VP (aNP a) -> NP -> VP a ; -- consuming first NP SlashV3 : (a : Arg) -> VP (aNP (aNP a)) -> NP -> VP (aNP a) ; -- consuming second NP ComplVS : (a : Arg) -> VP aS -> Cl a -> VP a ; ComplVV : (a : Arg) -> VP aV -> VP a -> VP a ; ComplVQ : (a : Arg) -> VP aQ -> QCl a -> VP a ; ComplVA : (a : Arg) -> VP aA -> AP a -> VP a ; ComplVN : (a : Arg) -> VP aN -> CN a -> VP a ; SlashV2S : (a : Arg) -> VP (aNP aS) -> Cl a -> VP (aNP a) ; -- a:Arg gives slash propagation, SlashVS SlashV2V : (a : Arg) -> VP (aNP aV) -> VP a -> VP (aNP a) ; SlashV2A : (a : Arg) -> VP (aNP aA) -> AP a -> VP (aNP a) ; SlashV2N : (a : Arg) -> VP (aNP aN) -> CN a -> VP (aNP a) ; SlashV2Q : (a : Arg) -> VP (aNP aA) -> QCl a -> VP (aNP a) ; UseAP : Ant -> Tense -> Pol -> (a : Arg) -> AP a -> VP a ; PredVP : (a : Arg) -> NP -> VP a -> Cl a ; SlashClNP : (a : Arg) -> Cl (aNP a) -> NP -> Cl a ; -- slash consumption: hon tittar på + oss ReflVP : (a : Arg) -> VP (aNP a) -> VP a ; -- refl on first position (direct object) ReflVP2 : (a : Arg) -> VP (aNP (aNP a)) -> VP (aNP a) ; -- refl on second position (indirect object) QuestVP : (a : Arg) -> IP -> VP a -> QCl a ; QuestSlash : (a : Arg) -> IP -> QCl (aNP a) -> QCl a ; QuestCl : (a : Arg) -> Cl a -> QCl a ; QuestIAdv : (a : Arg) -> IAdv -> Cl a -> QCl a ; UseCl : Cl aNone -> S ; UseQCl : QCl aNone -> S ; -- deprecate QS UseAdvCl : Adv aNone -> Cl aNone -> S ; -- lift adv to front UttS : S -> Utt ; -- when to add adverbs ---- AdvVP : Adv -> (a : Arg) -> VP a -> VP a ; ---- these create many ambiguities ---- "hon tvingar oss att sova idag": 196 parses, 13s. With AdvVP restricted to top level: 32 parses, 7s ---- with AdvCl, just 16 parses, 0.2 s AdvCl : (a : Arg) -> Adv a -> Cl aNone -> Cl a ; AdvQCl : (a : Arg) -> Adv a -> QCl aNone -> QCl a ; -- participles as adjectives PresPartAP : (a : Arg) -> V a -> AP a ; PastPartAP : (a : Arg) -> V (aNP a) -> AP a ; AgentPastPartAP : (a : Arg) -> V (aNP a) -> NP -> AP a ; -- VP coordination StartVPC : Conj -> (a : Arg) -> VP a -> VP a -> VPC a ; ContVPC : (a : Arg) -> VP a -> VPC a -> VPC a ; UseVPC : (a : Arg) -> VPC a -> VP a ; -- clause coordination, including "she loves and we look at (her)" StartClC : Conj -> (a : Arg) -> Cl a -> Cl a -> ClC a ; ContClC : (a : Arg) -> Cl a -> ClC a -> ClC a ; UseClC : (a : Arg) -> ClC a -> Cl a ; ComplAdv : (a : Arg) -> Adv (aNP a) -> NP -> Adv a ; -- typically: formation of preposition phrase --------------- from now on, to be inherited from standard RGL; here just for test purposes -- lexicon sleep_V : V aNone ; walk_V : V aNone ; love_V2 : V (aNP aNone) ; look_V2 : V (aNP aNone) ; believe_VS : V aS ; tell_V2S : V (aNP aS) ; prefer_V3 : V (aNP (aNP aNone)) ; want_VV : V aV ; force_V2V : V (aNP aV) ; promise_V2V : V (aNP aV) ; wonder_VQ : V aQ ; become_VA : V aA ; become_VN : V aN ; make_V2A : V (aNP aA) ; ask_V2Q : V (aNP aQ) ; promote_V2N : V (aNP aN) ; old_A : AP aNone ; married_A2 : AP (aNP aNone) ; -- married to her eager_AV : AP aV ; -- eager to sleep easy_A2V : AP (aNP aV) ; -- easy for him to sleep professor_N : CN aNone ; manager_N2 : CN (aNP aNone) ; -- manager of X she_NP : NP ; we_NP : NP ; today_Adv : Adv aNone ; always_AdV : Adv aNone ; who_IP : IP ; with_Prep : Adv (aNP aNone) ; and_Conj : Conj ; why_IAdv : IAdv ; }