abstract QLF = { -- by CF2GF fun -- SLT book, chapter 9 -- p. 164 utterance_phrase : PHRASE -> UTTERANCE ; utterance_conj_phrase : CONJ -> PHRASE -> UTTERANCE ; utterance_whatabout : PHRASE -> UTTERANCE ; utterance_howabout : PHRASE -> UTTERANCE ; phrase_pp : PP -> PHRASE ; phrase_advp : ADVP -> PHRASE ; phrase_np : NP -> PHRASE ; utterance_s_imp : S_imp -> UTTERANCE ; utterance_s_moved : S_moved -> UTTERANCE ; utterance_s_q : S_q -> UTTERANCE ; utterance_s_norm_inv : S_norm_inv -> UTTERANCE ; utterance_s_norm : S_norm -> UTTERANCE ; -- p. 162 s_norm_NP_VP : NP_norm -> VP -> S_norm ; -- these 3 are 1 in CLE s_q_NP_VP : NP_q -> VP -> S_q ; s_r_NP_VP : NP_r -> VP -> S_r ; s_imp_NP_VP : NP_imp -> VP -> S_imp ; s_advp_s : ADVP_sent -> S -> S ; s_s_advp : S -> ADVP_sent -> S ; s_conj_s : S -> CONJ -> S -> S ; -- p. 163: 6 wh-move-rules -- p. 160 vp_vp_pp : VP -> PP -> VP ; vp_vp_advp : VP -> ADVP -> VP ; vp_advp_vp : ADVP -> VP -> VP ; advp_vp_ing : VP_ing -> ADVP ; advp_vp_to : VP_to -> ADVP ; vp_conj_vp : VP -> CONJ -> VP -> VP ; vp_not_vp : VP -> VP ; np_gaps : NP_gaps ; pp_gaps : PP_gaps ; adjp_gaps : ADJP_gaps ; advp_gaps : ADVP_gaps ; -- p. 157 vp_be_comp : V_be -> COMP -> VP ; -- 1 rule VP ::= V COMPS vp_tr : V_tr -> NP -> VP ; vp_ditr : V_ditr -> NP -> NP -> VP ; vp_intr : V_intr -> VP ; vp_mod : V_mod -> VP -> VP ; -- would, could, can, may, will vp_do : V_do -> VP -> VP ; vp_be_pass : V_be -> VP_pass -> VP ; vp_be_ing : V_be -> VP_ing -> VP ; vp_part : V_part -> VP ; -- particle verb vp_s : V_s -> S -> VP ; vp_vp_to : V_vp -> VP_to -> VP ; -- "how much does it cost to fly..." vp_ditrq : V_ditrq -> NP -> S_q -> VP ; vp_ditrpp : V_ditrpp -> NP -> PP -> VP ; vp_trq : V_trq -> S_q -> VP ; -- p. 159 comp_np : NP -> COMP ; comp_adjp : ADJP -> COMP ; comp_pp : PP -> COMP ; -- p. 156 pp_pp : PP -> PP -> PP ; -- big PP --- unnecessary ambiguity? pp_p_np : P -> NP -> PP ; pp_np_temporal : NP_temporal -> PP ; pp_name_p_name : NP_name -> P -> NP_name -> PP ; -- Baltimore to Philadelpia pp_conj_pp : PP -> CONJ -> PP -> PP ; -- p. 157; the numeral rules are not shown number_digit : DIGIT -> NUMBER ; --- and more ordinal_first : ORDINAL ; --- and more code_digit : DIGIT -> CODE ; code_digit_code : DIGIT -> CODE -> CODE ; digit_1 : DIGIT ; digit_2 : DIGIT ; digit_3 : DIGIT ; digit_4 : DIGIT ; digit_5 : DIGIT ; digit_6 : DIGIT ; digit_7 : DIGIT ; digit_8 : DIGIT ; digit_9 : DIGIT ; digit_0 : DIGIT ; -- p. 154 "recursive NPs" np_np_pp : NP -> PP -> NP ; np_np_rel : NP -> REL -> NP ; np_np_vp_ing : NP -> VP_ing -> NP ; -- these 2 are 1 with \/ np_np_vp_pass : NP -> VP_pass -> NP ; np_np_adjp : NP -> ADJP_post -> NP ; --- restr. acc to text rel_s_rel : S_rel -> REL ; rel_s_norm : S_normal_gap -> REL ; --- type normal=norm ?? --- they cannot be showing their real code here adjp_nocomp : ADJ_nocomp -> ADJP ; -- ADJP ::= ADJ COMPS adjp_np : ADJ_pp -> NP -> ADJP ; -- only "available" in corpus -- adjp_pp : ADJ_pp -> PP -> ADJP ; -- only "available" in corpus np_conj_np : NP -> CONJ -> NP -> NP ; --- curious analysis of conj lists... np_np_np : NP -> NP -> NP ; -- Boston Atlanta and Denver s_vp_inf : VP_inf -> S_norm ; -- "to get from X to Y (is...)" np_s_q : S_q -> NP ; -- "what city they stop in (is...)" np_s_norm : S_norm -> NP ; np_compl_s : COMPLEMENTISER -> S_norm -> NP ; --- they don't tell what CO... is np_np_code : NP -> CODE -> NP ; --- unnec. source of ambiguity -- p. 150 np_det_nbar : DET -> NBAR -> NP ; np_nbar : NBAR -> NP ; -- "information", "travel arrangements" nbar_adjp_nbar : ADJP -> NBAR -> NBAR ; nbar_nbar_nbar : NBAR -> NBAR -> NBAR ; --- unnec. ambiguity nbar_name_nbar : NP_name -> NBAR -> NBAR ; -- "Delta flights" nbar_conj_nbar : NBAR -> CONJ -> NBAR -> NBAR ; adjp_most_adj : ADJ -> ADJP ; adjp_least_adj : ADJ -> ADJP ; ordinal_adjp_superl : ADJP_superlative -> ORDINAL ; det_the_ordinal : ORDINAL -> DET ; det_ordinal : ORDINAL -> DET ; -- common in spoken language det_predet_det : PREDET -> DET -> DET ; det_numer : NUMBER -> DET ; --- NUMBER in book det_less_than : NUMBER -> DET ; --- NUMBER det_more_than : NUMBER -> DET ; --- NUMBER det_possessive : POSSESSIVE -> DET ; -- p. 152 time and date NPs not given np_code : CODE -> NP ; np_nbar_code : NBAR -> CODE -> NP ; -- : NUMBER -> already -> covered -> above -> CODE -- letter codes added from corpus np_det : DET_bare -> NP ; -- any, which, one, both, the same, the latest,... nbar_comp : NBAR_of -> NBAR -> NBAR ; -- only ex of NBAR COMP; (kind | type) of plane -- by pg -printer=gf cat ADJ ; cat ADJP ; cat ADJP_gaps ; cat ADJP_post ; cat ADJP_superlative ; cat ADJ_nocomp ; cat ADJ_pp ; cat ADVP ; cat ADVP_gaps ; cat ADVP_sent ; cat CODE ; cat COMP ; cat COMPLEMENTISER ; cat CONJ ; cat DET ; cat DET_bare ; cat DIGIT ; cat NBAR ; cat NBAR_of ; cat NP ; cat NP_gaps ; cat NP_imp ; cat NP_name ; cat NP_norm ; cat NP_q ; cat NP_r ; cat NP_temporal ; cat NUMBER ; cat ORDINAL ; cat P ; cat PHRASE ; cat POSSESSIVE ; cat PP ; cat PP_gaps ; cat PREDET ; cat REL ; cat S ; cat S_imp ; cat S_moved ; cat S_norm ; cat S_norm_inv ; cat S_normal_gap ; cat S_q ; cat S_r ; cat S_rel ; cat UTTERANCE ; cat VP ; cat VP_inf ; cat VP_ing ; cat VP_pass ; cat VP_to ; cat V_be ; cat V_ditr ; cat V_ditrpp ; cat V_ditrq ; cat V_do ; cat V_intr ; cat V_mod ; cat V_part ; cat V_s ; cat V_tr ; cat V_trq ; cat V_vp ; {- -- lexicon; picked from examples and explanations possessive_my : POSSESSIVE ; predet_all : PREDET ; predet_only : PREDET ; predet_just : PREDET ; nbar_flight : NBAR ; nbar_aircraft : NBAR ; name_Delta : NP_name ; name_Dallas : NP_name ; name_Boston : NP_name ; conj_and : CONJ ; det_any : DET_bare ; v_is : V_be ; v_leave : V_intr ; v_have : V_tr ; nbar_of_type : NBAR_of ; adj_cheap : ADJ ; --- ad hoc coercions to make cf grammar work det_bare : DET_bare -> DET ; -} }