incomplete concrete ExxI of Exx = Cat-[VP], Conjunction-[VP] ** open Lang, Constructors in { -- examples for Constructors. lincat VP = Lang.VP ; --- hack to circumvent missing lockfields in overload resolution lin ex1_Text = mkText (mkPhr but_PConj (mkUtt (mkCl john_NP walk_V))) ; ex2_Text = mkText (mkPhr (mkCl john_NP walk_V)) questMarkPunct (mkText yes_Phr) ; ex3_Text = mkText (mkUtt john_NP) ; ex4_Text = mkText (mkS pastTense (mkCl john_NP walk_V)) ; ex5_Text = mkText (mkCl john_NP walk_V) ; ex6_Text = mkText (mkQS pastTense (mkQCl (mkCl john_NP walk_V))) ; ex7_Text = mkText (mkImp walk_V) ; ex8_Text = emptyText ; ex1_Phr = mkPhr (mkUtt why_IAdv) ; ex2_Phr = mkPhr but_PConj (mkUtt why_IAdv) (mkVoc john_NP) ; ex3_Phr = mkPhr (mkS pastTense (mkCl john_NP walk_V)) ; ex4_Phr = mkPhr (mkCl john_NP walk_V) ; ex5_Phr = mkPhr (mkQS pastTense (mkQCl (mkCl john_NP walk_V))) ; ex6_Phr = mkPhr (mkImp walk_V) ; ex1_PConj = mkPConj and_Conj ; ex1_Voc = mkVoc john_NP ; ex1_Utt = mkUtt (mkS pastTense (mkCl john_NP walk_V)) ; ex2_Utt = mkUtt (mkCl john_NP walk_V) ; ex3_Utt = mkUtt (mkQS pastTense (mkQCl (mkCl john_NP walk_V))) ; ex4_Utt = mkUtt (mkImp walk_V) ; ex5_Utt = mkUtt pluralImpForm negativePol (mkImp (reflexiveVP love_V2)) ; ex6_Utt = mkUtt whoSg_IP ; ex7_Utt = mkUtt why_IAdv ; ex8_Utt = mkUtt john_NP ; ex9_Utt = mkUtt here_Adv ; ex10_Utt = mkUtt (mkVP walk_V) ; ex11_Utt = lets_Utt (mkVP walk_V) ; ex1_S = mkS (mkCl john_NP walk_V) ; ex2_S = mkS conditionalTense anteriorAnt negativePol (mkCl john_NP walk_V) ; ex3_S = mkS and_Conj (mkS (mkCl john_NP walk_V)) (mkS (mkCl (mkNP i_Pron) run_V)) ; ex4_S = mkS and_Conj (mkListS (mkS (mkCl john_NP walk_V)) (mkListS (mkS (mkCl (mkNP i_Pron) run_V)) (mkS (mkCl (mkNP youSg_Pron) sleep_V)))) ; ex5_S = mkS either7or_DConj (mkS (mkCl john_NP walk_V)) (mkS (mkCl (mkNP i_Pron) run_V)) ; ex6_S = mkS either7or_DConj (mkListS (mkS (mkCl john_NP walk_V)) (mkListS (mkS (mkCl (mkNP i_Pron) run_V)) (mkS (mkCl (mkNP youSg_Pron) sleep_V)))) ; ex7_S = mkS today_Adv (mkS futureTense (mkCl john_NP walk_V)) ; ex1_Cl = mkCl john_NP walk_V ; ex2_Cl = mkCl john_NP love_V2 (mkNP she_Pron) ; ex3_Cl = mkCl john_NP send_V3 (mkNP it_Pron) (mkNP she_Pron) ; ex4_Cl = mkCl john_NP want_VV (mkVP walk_V) ; ex5_Cl = mkCl john_NP say_VS (mkS (mkCl (mkNP it_Pron) good_A)) ; ex6_Cl = mkCl john_NP wonder_VQ (mkQS (mkCl (mkNP it_Pron) good_A)) ; ex7_Cl = mkCl john_NP become_VA (mkAP old_A) ; ex8_Cl = mkCl john_NP paint_V2A (mkNP it_Pron) (mkAP red_A) ; ex9_Cl = mkCl john_NP old_A ; ex10_Cl = mkCl john_NP old_A (mkNP she_Pron) ; ex11_Cl = mkCl john_NP married_A2 (mkNP she_Pron) ; ex12_Cl = mkCl john_NP (mkAP very_AdA (mkAP old_A)) ; ex13_Cl = mkCl john_NP man_N ; ex14_Cl = mkCl john_NP (mkCN old_A man_N) ; ex15_Cl = mkCl john_NP (mkNP defSgDet man_N) ; ex16_Cl = mkCl john_NP here_Adv ; ex17_Cl = mkCl john_NP (mkVP (mkVP walk_V) here_Adv) ; ex18_Cl = mkCl rain_V0 ; ex19_Cl = mkCl (progressiveVP (mkVP rain_V0)) ; ex20_Cl = mkCl house_N ; ex21_Cl = mkCl (mkCN old_A house_N) ; ex22_Cl = mkCl (mkNP n5_Numeral house_N) ; ex23_Cl = mkCl john_NP (mkRS (mkRCl which_RP (mkVP walk_V))) ; ex24_Cl = mkCl here_Adv (mkS (mkCl john_NP walk_V)) ; ex25_Cl = mkCl (mkVP walk_V) ; ex1_VP = mkVP walk_V ; ex2_VP = mkVP love_V2 (mkNP she_Pron) ; ex3_VP = mkVP send_V3 (mkNP it_Pron) (mkNP she_Pron) ; ex4_VP = mkVP want_VV (mkVP walk_V) ; ex5_VP = mkVP say_VS (mkS (mkCl (mkNP it_Pron) good_A)) ; ex6_VP = mkVP wonder_VQ (mkQS (mkCl (mkNP it_Pron) good_A)) ; ex7_VP = mkVP become_VA (mkAP old_A) ; ex8_VP = mkVP paint_V2A (mkNP it_Pron) (mkAP red_A) ; ex9_VP = mkVP old_A ; ex10_VP = mkVP old_A (mkNP she_Pron) ; ex11_VP = mkVP married_A2 (mkNP she_Pron) ; ex12_VP = mkVP (mkAP very_AdA (mkAP old_A)) ; ex13_VP = mkVP man_N ; ex14_VP = mkVP (mkCN old_A man_N) ; ex15_VP = mkVP (mkNP defSgDet man_N) ; ex16_VP = mkVP here_Adv ; ex17_VP = mkVP (mkVP sleep_V) here_Adv ; ex18_VP = mkVP always_AdV (mkVP sleep_V) ; ex19_VP = reflexiveVP love_V2 ; ex20_VP = passiveVP love_V2 ; ex21_VP = passiveVP love_V2 (mkNP she_Pron) ; ex22_VP = progressiveVP (mkVP sleep_V) ; ex1_NP = mkNP (mkDet (mkQuantSg defQuant) first_Ord) man_N ; ex2_NP = mkNP (mkDet (mkQuantSg defQuant) first_Ord) (mkCN old_A man_N) ; ex3_NP = mkNP (mkQuantSg this_Quant) man_N ; ex4_NP = mkNP (mkQuantSg this_Quant) (mkCN old_A man_N) ; ex5_NP = mkNP (mkQuantPl this_Quant) man_N ; ex6_NP = mkNP (mkQuantPl this_Quant) (mkCN old_A man_N) ; ex7_NP = mkNP n20_Numeral man_N ; ex8_NP = mkNP n20_Numeral (mkCN old_A man_N) ; --- ex9_NP = mkNP (mkInt "45") man_N ; --- ex10_NP = mkNP (mkInt "45") (mkCN old_A man_N) ; ex11_NP = mkNP (mkNum almost_AdN (mkNum n20_Numeral)) man_N ; ex12_NP = mkNP (mkNum almost_AdN (mkNum n20_Numeral)) (mkCN old_A man_N) ; ex13_NP = mkNP i_Pron man_N ; ex14_NP = mkNP i_Pron (mkCN old_A man_N) ; ex15_NP = mkNP john_PN ; ex16_NP = mkNP i_Pron ; ex17_NP = mkNP only_Predet john_NP ; ex18_NP = mkNP john_NP kill_V2 ; ex19_NP = mkNP john_NP (mkAdv in_Prep (mkNP paris_PN)) ; ex20_NP = mkNP and_Conj john_NP (mkNP i_Pron) ; ex21_NP = mkNP and_Conj (mkListNP john_NP (mkListNP (mkNP i_Pron) that_NP)) ; ex22_NP = mkNP either7or_DConj john_NP (mkNP i_Pron) ; ex23_NP = mkNP either7or_DConj (mkListNP john_NP (mkListNP (mkNP i_Pron) that_NP)) ; ex1_Det = mkDet (mkQuantSg this_Quant) ; ex2_Det = mkDet (mkQuantSg this_Quant) first_Ord ; ex3_Det = mkDet (mkQuantPl this_Quant) ; ex4_Det = mkDet (mkQuantPl this_Quant) (mkNum n5_Numeral) (mkOrd good_A) ; ex5_Det = mkDet this_Quant ; ex6_Det = mkDet this_Quant (mkNum n5_Numeral) ; ex7_Det = mkDet (mkNum almost_AdN (mkNum n20_Numeral)) ; ex8_Det = mkDet n5_Numeral ; --- ex9_Det = mkDet 51 ; ex10_Det = mkDet i_Pron ; ex11_Det = defSgDet ; ex12_Det = defPlDet ; ex13_Det = indefSgDet ; ex14_Det = indefPlDet ; ex1_Quant = defQuant ; ex2_Quant = indefQuant ; ex1_QuantSg = mkQuantSg this_Quant ; ex2_QuantSg = massQuant ; ex1_QuantPl = mkQuantPl this_Quant ; ex1_Num = mkNum n20_Numeral ; --- ex2_Num = mkNum 51 ; ex3_Num = mkNum almost_AdN (mkNum n10_Numeral) ; ex1_Ord = mkOrd n20_Numeral ; --- ex2_Ord = mkOrd 51 ; ex3_Ord = mkOrd good_A ; ex1_AdN = mkAdN more_CAdv ; ex1_Numeral = n1_Numeral ; ex2_Numeral = n2_Numeral ; ex3_Numeral = n3_Numeral ; ex4_Numeral = n4_Numeral ; ex5_Numeral = n5_Numeral ; ex6_Numeral = n6_Numeral ; ex7_Numeral = n7_Numeral ; ex8_Numeral = n8_Numeral ; ex9_Numeral = n9_Numeral ; ex10_Numeral = n10_Numeral ; ex11_Numeral = n20_Numeral ; ex12_Numeral = n100_Numeral ; ex13_Numeral = n1000_Numeral ; ex1_CN = mkCN house_N ; ex2_CN = mkCN mother_N2 john_NP ; ex3_CN = mkCN distance_N3 (mkNP (mkDet this_Quant) city_N) (mkNP paris_PN) ; ex4_CN = mkCN mother_N2 ; ex5_CN = mkCN distance_N3 ; ex6_CN = mkCN big_A house_N ; ex7_CN = mkCN big_A (mkCN blue_A house_N) ; ex8_CN = mkCN (mkAP very_AdA big_A) house_N ; ex9_CN = mkCN (mkAP very_AdA big_A) (mkCN blue_A house_N) ; ex10_CN = mkCN house_N (mkRS (mkRCl which_RP john_NP love_V2)) ; ex11_CN = mkCN (mkCN big_A house_N) (mkRS (mkRCl which_RP john_NP love_V2)) ; ex12_CN = mkCN house_N (mkAdv in_Prep (mkNP defSgDet city_N)) ; ex13_CN = mkCN (mkCN big_A house_N) (mkAdv in_Prep (mkNP defSgDet city_N)) ; ex14_CN = mkCN (mkCN rule_N) (mkS (mkCl john_NP walk_V)) ; ex15_CN = mkCN (mkCN question_N) (mkQS (mkCl john_NP walk_V)) ; ex16_CN = mkCN (mkCN reason_N) (mkVP walk_V) ; ex17_CN = mkCN king_N john_NP ; ex18_CN = mkCN (mkCN old_A king_N) john_NP ; ex1_AP = mkAP old_A ; ex2_AP = mkAP old_A john_NP ; ex3_AP = mkAP married_A2 (mkNP she_Pron) ; ex4_AP = mkAP married_A2 ; ex5_AP = mkAP (mkAP probable_AS) (mkS (mkCl john_NP walk_V)) ; ex6_AP = mkAP (mkAP uncertain_A) (mkQS (mkCl john_NP walk_V)) ; ex7_AP = mkAP (mkAP ready_A) (mkVP walk_V) ; ex8_AP = mkAP very_AdA old_A ; ex9_AP = mkAP very_AdA (mkAP very_AdA old_A) ; ex10_AP = mkAP and_Conj (mkAP old_A) (mkAP big_A) ; ex11_AP = mkAP and_Conj (mkListAP (mkAP old_A) (mkListAP (mkAP big_A) (mkAP warm_A))); ex12_AP = mkAP either7or_DConj (mkAP old_A) (mkAP big_A) ; ex13_AP = mkAP either7or_DConj (mkListAP (mkAP old_A) (mkListAP (mkAP big_A) (mkAP warm_A))); ex1_Adv = mkAdv warm_A ; ex2_Adv = mkAdv with_Prep john_NP ; ex3_Adv = mkAdv when_Subj (mkS (mkCl john_NP walk_V)) ; ex4_Adv = mkAdv more_CAdv warm_A john_NP ; ex5_Adv = mkAdv more_CAdv warm_A (mkS (mkCl john_NP walk_V)) ; ex6_Adv = mkAdv very_AdA (mkAdv warm_A) ; ex7_Adv = mkAdv and_Conj here_Adv now_Adv ; ex8_Adv = mkAdv and_Conj (mkListAdv (mkAdv with_Prep john_NP) (mkListAdv here_Adv now_Adv)) ; ex9_Adv = mkAdv either7or_DConj here_Adv now_Adv ; ex10_Adv = mkAdv either7or_DConj (mkListAdv (mkAdv with_Prep john_NP) (mkListAdv here_Adv now_Adv)) ; ex1_QS = mkQS (mkQCl whoSg_IP (mkVP walk_V)) ; ex2_QS = mkQS conditionalTense anteriorAnt negativePol (mkQCl whoSg_IP (mkVP walk_V)) ; ex3_QS = mkQS (mkCl john_NP walk_V) ; ex1_QCl = mkQCl (mkCl john_NP walk_V) ; ex2_QCl = mkQCl whoSg_IP (mkVP walk_V) ; ex3_QCl = mkQCl whoSg_IP john_NP love_V2 ; ex4_QCl = mkQCl whoSg_IP (mkSlash (mkSlash john_NP love_V2) today_Adv) ; ex5_QCl = mkQCl why_IAdv (mkCl john_NP walk_V) ; ex6_QCl = mkQCl with_Prep whoSg_IP (mkCl john_NP walk_V) ; ex7_QCl = mkQCl where_IAdv john_NP ; ex8_QCl = mkQCl whatSg_IP ; ex1_IP = mkIP whichSg_IDet city_N ; ex2_IP = mkIP whichPl_IDet (mkNum n5_Numeral) (mkOrd good_A) (mkCN city_N) ; ex3_IP = mkIP whoSg_IP (mkAdv in_Prep (mkNP paris_PN)) ; ex1_IAdv = mkIAdv in_Prep (mkIP whichSg_IDet city_N) ; ex1_RS = mkRS (mkRCl which_RP (mkVP walk_V)) ; ex2_RS = mkRS conditionalTense anteriorAnt negativePol (mkRCl which_RP (mkVP walk_V)) ; ex1_RCl = mkRCl which_RP (mkVP walk_V) ; ex2_RCl = mkRCl which_RP john_NP love_V2 ; ex3_RCl = mkRCl which_RP (mkSlash (mkSlash john_NP love_V2) today_Adv) ; ex4_RCl = mkRCl (mkCl john_NP love_V2 (mkNP she_Pron)) ; ex1_RP = which_RP ; ex2_RP = mkRP in_Prep (mkNP all_Predet (mkNP defPlDet house_N)) which_RP ; ex1_Slash = mkSlash john_NP love_V2 ; ex2_Slash = mkSlash john_NP want_VV see_V2 ; ex3_Slash = mkSlash (mkCl john_NP walk_V) with_Prep ; ex4_Slash = mkSlash (mkSlash john_NP love_V2) today_Adv ; ex1_ListS = mkListS (mkS (mkCl john_NP walk_V)) (mkS (mkCl (mkNP i_Pron) run_V)) ; ex2_ListS = mkListS (mkS (mkCl john_NP walk_V)) (mkListS (mkS (mkCl (mkNP i_Pron) run_V)) (mkS (mkCl (mkNP youSg_Pron) sleep_V))) ; ex1_ListAP = mkListAP (mkAP old_A) (mkAP big_A) ; ex2_ListAP = mkListAP (mkAP old_A) (mkListAP (mkAP big_A) (mkAP warm_A)) ; ex1_ListAdv = mkListAdv here_Adv now_Adv ; ex2_ListAdv = mkListAdv (mkAdv with_Prep john_NP) (mkListAdv here_Adv now_Adv) ; ex1_ListNP = mkListNP john_NP (mkNP i_Pron) ; ex2_ListNP = mkListNP john_NP (mkListNP (mkNP i_Pron) that_NP) ; utt u = mkUtt u ; -- a hack to linearize VPs oper john_NP = mkNP john_PN ; }