;;; Hey, emacs(1), this is -*- Mode: tdl; Coding: utf-8; -*- got it? ;;; Verb particles (transitive and intransitive) look+up := verb_prtcl_mtr & [ INPUT.RELS < [ PRED "_look_v_up_rel" ] >, OUTPUT.RELS < [ PRED "_find_v_1_rel" ] > ]. carry+on := verb_prtcl_mtr & [ INPUT.RELS < [ PRED "_carry_v_on_rel" ] >, OUTPUT.RELS < [ PRED "_continue_v_2_rel" ] > ]. keep+on := verb_prtcl_cp_mtr & [ INPUT [ RELS < [ PRED "_keep_v_on_rel" ], relation > ], OUTPUT.RELS < [ PRED "_continue_v_2_rel" ], +copy+ & [ ARG0 e & [ PROG -, PERF -, SF prop ] ] > ]. #| get+around+to := verb_prtcl_pp_ger_mtr & [ INPUT [ RELS < [ PRED "_get_v_around-to_rel" ], relation, relation, [ PRED #pred ] > ], OUTPUT.RELS < [ PRED #pred ], [ PRED "_eventual_a_1_rel" ] > ]. |# pass+on+to := verb_prtcl_pp_mtr & [ INPUT [ RELS < [ PRED "_pass_v_on_rel" ] > ], OUTPUT.RELS < [ PRED "_give_v_1_rel" ] > ]. ; 'Kim gave me back the cat.' give+back := verb_np_prtcl_np_mtr & [ INPUT [ RELS < [ PRED "_give_v_back_rel" ] > ], OUTPUT.RELS < [ PRED "_return_v_to_rel" ] > ]. catch+on := verb_prtcl_mtr & [ INPUT.RELS < [ PRED "_catch_v_on_rel" ] >, OUTPUT.RELS < [ PRED "_realize_v_1_rel" ] > ]. ;;; Idioms ;;; ;;; _fix_me_ ;;; really, given what we know about the grammar, matching on the HCONS for the ;;; `idiom_q' quantifier is, let's say, superfluous (to put it mildly), but to ;;; have at least one example showing off some of the transfer capabilities. ;;; take+advantage := monotonic_mtr & [ INPUT [ RELS < [ PRED "_take_v_i_rel", LBL #h1, ARG0 #e2, ARG1 #x3, ARG2 #x4, ARG3 #x5 ], [ PRED idiom_q_i_rel, ARG0 #x4, RSTR #h6 ], [ PRED "_advantage_n_i_rel", LBL #h7, ARG0 #x4 ] >, HCONS < qeq & [ HARG #h6, LARG #h7 ] > ], OUTPUT.RELS < [ PRED "_benefit_v_from_rel", LBL #h1, ARG0 #e2, ARG1 #x3, ARG2 #x5 ] > ]. keep+tabs := monotonic_mtr & [ INPUT [ RELS < [ PRED "_keep_v_i_rel", LBL #h1, ARG0 #e2, ARG1 #x3, ARG2 #x4, ARG3 #x5 ], [ PRED udef_q_rel, ARG0 #x4, RSTR #h6 ], [ PRED "_tabs_n_i_rel", LBL #h7, ARG0 #x4 ] >, HCONS < qeq & [ HARG #h6, LARG #h7 ] > ], OUTPUT.RELS < [ PRED "_watch_v_1_rel", LBL #h1, ARG0 #e2, ARG1 #x3, ARG2 #x5 ] > ]. ;;; Determinerless PPs on+edge := detlesspp_mtr & [ INPUT.RELS < [ PRED _on_p_rel ], [ PRED "_edge_n_of_rel" ], relation >, OUTPUT.RELS < [ PRED "_nervous_a_about_rel" ] > ]. at+long+last := detlesspp+adj_mtr & [ INPUT.RELS < [ PRED _at_p_rel ], [ PRED "_long_a_1_rel" ], [ PRED "_last_n_1_rel" ], relation >, OUTPUT [ RELS < [ PRED "_final_a_1_rel" ] >, HCONS < > ] ]. at+last := detlesspp_mtr & [ INPUT.RELS < [ PRED _at_p_rel ], [ PRED "_last_n_1_rel" ], relation >, OUTPUT.RELS < [ PRED "_final_a_1_rel" ] > ]. at+close+range := detlesspp+adj_mtr & [ INPUT.RELS < [ PRED _at_p_rel ], [ PRED "_close_a_to_rel" ], [ PRED "_range_n_of_rel" ], relation >, OUTPUT.RELS < [ PRED _from_p_rel, ARG2 #arg0 ], [ PRED _a_q_rel, ARG0 #arg0, RSTR #lbl ], [ LBL #lbl, PRED "_distance_n_1_rel", ARG0 #arg0 ], [ LBL #lbl, PRED "_small_a_1_rel", ARG0 e & [ PROG -, PERF - ], ARG1 #arg0 ] >]. ;;; Light verbs give+adj+demo_mtr := light_verb_mtr & [ INPUT.RELS < [ PRED "_give_v_1_rel" ], [ LBL #lbln, PRED "_demo_n_of_rel", ARG0 #inst, ARG1 #arg1 ], [ PRED _a_q_rel ], [ LBL #lbln, PRED #pred, ARG0 e, ARG1 #inst ] >, OUTPUT.RELS < [ LBL #lbl, PRED "_demo_v_to_rel", ARG0 #arg0, ARG2 #arg1 ], [ LBL #lbl, PRED #pred, ARG1 #arg0 ] > ]. give+demo_mtr := light_verb_mtr & [ INPUT.RELS < [ PRED "_give_v_1_rel" ], [ PRED "_demo_n_of_rel", ARG1 #arg1 ], [ PRED _a_q_rel ] >, OUTPUT.RELS < [ PRED "_demo_v_to_rel", ARG2 #arg1 ] > ]. give+talk_mtr := light_verb_mtr & [ INPUT.RELS < [ PRED "_give_v_1_rel" ], [ PRED "_talk_n_of-on_rel", ARG1 #arg1 ], [ PRED _a_q_rel ] >, OUTPUT.RELS < [ LBL #lbl, PRED "_talk_v_about_rel", ARG0 #arg0 ], [ LBL #lbl, PRED _about_p_rel, ARG1 #arg0, ARG2 #arg1 ] > ]. ;;; because+of => cause because+of := mrs_transfer_rule & [ INPUT [ RELS < [ PRED _because+of_p_rel, LBL #h1, ARG2 #x1 ], [ LBL #h1, ARG1 #x2 ] > ], OUTPUT [ RELS < [ PRED "_cause_v_1_rel", LBL #h2, ARG0 #e2 & [ SF prop ], ARG1 #x1, ARG2 #x2, ARG3 #h1 ], +copy+ & [ LBL #h1, ARG0 [ TENSE untensed, SF sforce ] ] > ] ].