1000s_n1 := n_-_c-pl-num_le & [ STEM < "1000" >, SYNSEM [ LKEYS.KEYREL.CARG "1000", PHON.ONSET con ] ]. 100s_n1 := n_-_c-pl-num_le & [ STEM < "100" >, SYNSEM [ LKEYS.KEYREL.CARG "100", PHON.ONSET con ] ]. 100s_n2 := n_pp_c-pl-crd_le & [ STEM < "100s" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.CARG "100" ], PHON.ONSET con ] ]. 2001_a_space_odyssey_n1 := n_-_pn_le & [ STEM < "2001", "A", "Space", "Odyssey" >, SYNSEM [ LKEYS.KEYREL.CARG "2001_a_space_odyssey", PHON.ONSET con ] ]. 200s_n1 := n_-_c-pl-num_le & [ STEM < "200" >, SYNSEM [ LKEYS.KEYREL.CARG "200", PHON.ONSET con ] ]. 20s_n1 := n_-_c-pl-num_le & [ STEM < "20" >, SYNSEM [ LKEYS.KEYREL.CARG "20", PHON.ONSET con ] ]. 24_7_a1 := aj_-_i_le & [ STEM < "24/7" >, SYNSEM [ LKEYS.KEYREL.PRED "_24/7_a_1_rel", PHON.ONSET con ] ]. 24_7_adv := av_-_i-vp_le & [ STEM < "24/7" >, SYNSEM [ LKEYS.KEYREL.PRED "_24/7_a_1_rel", PHON.ONSET con ] ]. 300s_n1 := n_-_c-pl-num_le & [ STEM < "300" >, SYNSEM [ LKEYS.KEYREL.CARG "300", PHON.ONSET con ] ]. 30s_n1 := n_-_c-pl-num_le & [ STEM < "30" >, SYNSEM [ LKEYS.KEYREL.CARG "30", PHON.ONSET con ] ]. 3d_adj := aj_-_i-ord-one_le & [ STEM < "3d" >, SYNSEM [ LKEYS.KEYREL.CARG "3", PHON.ONSET con ] ]. 3d_n1 := n_-_pn_le & [ STEM < "3D" >, SYNSEM [ LKEYS.KEYREL.CARG "3D", PHON.ONSET con ] ]. 400s_n1 := n_-_c-pl-num_le & [ STEM < "400" >, SYNSEM [ LKEYS.KEYREL.CARG "400", PHON.ONSET con ] ]. 40s_n1 := n_-_c-pl-num_le & [ STEM < "40" >, SYNSEM [ LKEYS.KEYREL.CARG "40", PHON.ONSET con ] ]. 49er_n1 := n_-_c_le & [ STEM < "49er" >, SYNSEM [ LKEYS.KEYREL.PRED "_49er_n_1_rel", PHON.ONSET con ] ]. 4wd_n1 := n_-_m_le & [ STEM < "4WD" >, SYNSEM [ LKEYS.KEYREL.PRED "_4WD_n_1_rel", PHON.ONSET con ] ]. 4wd_n2 := n_-_m_le & [ STEM < "4", "WD" >, SYNSEM [ LKEYS.KEYREL.PRED "_4WD_n_1_rel", PHON.ONSET con ] ]. 500s_n1 := n_-_c-pl-num_le & [ STEM < "500" >, SYNSEM [ LKEYS.KEYREL.CARG "500", PHON.ONSET con ] ]. 50s_n1 := n_-_c-pl-num_le & [ STEM < "50" >, SYNSEM [ LKEYS.KEYREL.CARG "50", PHON.ONSET con ] ]. 600s_n1 := n_-_c-pl-num_le & [ STEM < "600" >, SYNSEM [ LKEYS.KEYREL.CARG "600", PHON.ONSET con ] ]. 60s_n1 := n_-_c-pl-num_le & [ STEM < "60" >, SYNSEM [ LKEYS.KEYREL.CARG "60", PHON.ONSET con ] ]. 700s_n1 := n_-_c-pl-num_le & [ STEM < "700" >, SYNSEM [ LKEYS.KEYREL.CARG "700", PHON.ONSET con ] ]. 70s_n1 := n_-_c-pl-num_le & [ STEM < "70" >, SYNSEM [ LKEYS.KEYREL.CARG "70", PHON.ONSET con ] ]. 800s_n1 := n_-_c-pl-num_le & [ STEM < "800" >, SYNSEM [ LKEYS.KEYREL.CARG "800", PHON.ONSET voc ] ]. 80s_n1 := n_-_c-pl-num_le & [ STEM < "80" >, SYNSEM [ LKEYS.KEYREL.CARG "80", PHON.ONSET voc ] ]. 900s_n1 := n_-_c-pl-num_le & [ STEM < "900" >, SYNSEM [ LKEYS.KEYREL.CARG "900", PHON.ONSET con ] ]. 90s_n1 := n_-_c-pl-num_le & [ STEM < "90" >, SYNSEM [ LKEYS.KEYREL.CARG "90", PHON.ONSET con ] ]. 911_n1 := n_-_pn_le & [ STEM < "911" >, SYNSEM [ LKEYS.KEYREL.CARG "911", PHON.ONSET con ] ]. 911_n2 := n_-_pn_le & [ STEM < "9-1-1" >, SYNSEM [ LKEYS.KEYREL.CARG "911", PHON.ONSET con ] ]. 94_5_kdge_radio_n1 := n_-_pn_le & [ STEM < "94.5", "KDGE", "Radio" >, SYNSEM [ LKEYS.KEYREL.CARG "94_5_KDGE_Radio", PHON.ONSET con ] ]. 9_11_n1 := n_-_pn_le & [ STEM < "9", "11" >, SYNSEM [ LKEYS.KEYREL.CARG "9_11", PHON.ONSET con ] ]. 9_11_n2 := n_-_pn_le & [ STEM < "9-11" >, SYNSEM [ LKEYS.KEYREL.CARG "9_11", PHON.ONSET con ] ]. a+bit_det := d_-_prt-sgm-nag_le & [ STEM < "a", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED _a+bit_q_rel, PHON.ONSET voc ] ]. a+bit_det_2 := d_-_prt-sgm-nag_le & [ STEM < "_A", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED _a+bit_q_rel, PHON.ONSET voc ] ]. a+little_det := d_-_prt-sgm-nag_le & [ STEM < "a", "little" >, SYNSEM [ LKEYS.KEYREL.PRED _a+little_q_rel, PHON.ONSET voc ] ]. a+little_det_2 := d_-_prt-sgm-nag_le & [ STEM < "_A", "little" >, SYNSEM [ LKEYS.KEYREL.PRED _a+little_q_rel, PHON.ONSET voc ] ]. a_bit_adv1 := av_-_i-vp-po_le & [ STEM < "a", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+bit_a_1_rel", PHON.ONSET voc ] ]. a_bit_adv2 := av_-_i-vp-po_le & [ STEM < "_A", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+bit_a_1_rel", PHON.ONSET voc ] ]. a_bit_deg := av_-_dg_le & [ STEM < "a", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+bit_x_deg_rel", PHON.ONSET voc ] ]. a_bit_deg2 := av_-_dg_le & [ STEM < "_A", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+bit_x_deg_rel", PHON.ONSET voc ] ]. a_couple_adj := aj_-_i-num_le & [ STEM < "a", "couple" >, SYNSEM [ LKEYS.KEYREL.CARG "a+couple", PHON.ONSET voc ] ]. a_couple_det := d_-_prt-pl_le & [ STEM < "a", "couple" >, SYNSEM [ LKEYS.ALTKEYREL.PRED "_a+couple_a_1_rel", PHON.ONSET voc ] ]. a_couple_det2 := d_-_prt-pl_le & [ STEM < "_A", "couple" >, SYNSEM [ LKEYS.ALTKEYREL.PRED "_a+couple_a_1_rel", PHON.ONSET voc ] ]. a_det := d_-_sg-nmd_le & [ STEM < "a" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. a_det_2 := d_-_sg-nmd_le & [ STEM < "_a" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. a_det_2_rbst := d_-_sg-a-rbst_le & [ STEM < "_a" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. a_det_rbst := d_-_sg-a-rbst_le & [ STEM < "a" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. a_few := d_-_prt-pl_le & [ STEM < "a", "few" >, SYNSEM [ LKEYS.ALTKEYREL.PRED "_a+few_a_1_rel", PHON.ONSET voc ] ]. a_few_adj := aj_-_i-num_le & [ STEM < "a", "few" >, SYNSEM [ LKEYS.KEYREL.CARG "a+few", PHON.ONSET voc ] ]. a_few_adj_2 := aj_-_i-num_le & [ STEM < "_a", "few" >, SYNSEM [ LKEYS.KEYREL.CARG "a+few", PHON.ONSET voc ] ]. a_few_det2 := d_-_prt-pl_le & [ STEM < "_A", "few" >, SYNSEM [ LKEYS.ALTKEYREL.PRED "_a+few_a_1_rel", PHON.ONSET voc ] ]. a_fig_adv1 := av_-_i-vp-po_le & [ STEM < "a", "fig" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+fig_a_1_rel", PHON.ONSET voc ] ]. a_full_deg := av_-_dg-jov_le & [ STEM < "a", "full" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+full_x_deg_rel", PHON.ONSET voc ] ]. a_good_deal_adv1 := av_-_i-vp-po_le & [ STEM < "a", "good", "deal" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+good+deal_a_1_rel", PHON.ONSET voc ] ]. a_good_deal_adv2 := av_-_dg-m_le & [ STEM < "a", "good", "deal" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+good+deal_x_rel", PHON.ONSET voc ] ]. a_half := av_-_dg-v_le & [ STEM < "a", "half" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+half_x_rel", PHON.ONSET voc ] ]. a_half_deg_2 := av_-_dg-v_le & [ STEM < "_A", "half" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+half_x_rel", PHON.ONSET voc ] ]. a_half_fract := aj_np_i-frct_le & [ STEM < "a", "half" >, SYNSEM [ LKEYS.KEYREL.CARG "1/2", PHON.ONSET voc ] ]. a_half_fract_2 := aj_np_i-frct_le & [ STEM < "a-", "half" >, SYNSEM [ LKEYS.KEYREL.CARG "1/2", PHON.ONSET voc ] ]. a_half_fract_3 := aj_np_i-frct_le & [ STEM < "a-half" >, SYNSEM [ LKEYS.KEYREL.CARG "1/2", PHON.ONSET voc ] ]. a_half_fract_4 := aj_np_i-frct_le & [ STEM < "½" >, SYNSEM [ LKEYS.KEYREL.CARG "1/2", PHON.ONSET voc ] ]. a_little := av_-_dg_le & [ STEM < "a", "little" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little_x_deg_rel", PHON.ONSET voc ] ]. a_little_adv1 := av_-_i-vp-po_le & [ STEM < "a", "little" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little_a_1_rel", PHON.ONSET voc ] ]. a_little_bit := av_-_dg-m_le & [ STEM < "a", "little", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little+bit_x_rel", PHON.ONSET voc ] ]. a_little_bit_adv1 := av_-_i-vp-po_le & [ STEM < "a", "little", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little+bit_a_1_rel", PHON.ONSET voc ] ]. a_little_bit_adv2 := av_-_dg-m_le & [ STEM < "_A", "little", "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little+bit_x_rel", PHON.ONSET voc ] ]. a_little_deg2 := av_-_dg-jov_le & [ STEM < "a", "little" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little_x_deg_rel", PHON.ONSET voc ] ]. a_little_deg_3 := av_-_dg_le & [ STEM < "_A", "little" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+little_x_very_rel", PHON.ONSET voc ] ]. a_long_way_a := aj_-_i-wthr_le & [ STEM < "a", "long", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+long+way_a_1_rel", PHON.ONSET voc ] ]. a_lot := av_-_dg-m_le & [ STEM < "a", "lot" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+lot_x_rel", PHON.ONSET voc ] ]. a_lot_adv1 := av_-_i-vp-po_le & [ STEM < "a", "lot" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+lot_a_1_rel", PHON.ONSET voc ] ]. a_lot_adv2 := av_-_i-vp-po_le & [ STEM < "alot" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+lot_a_1_rel", PHON.ONSET voc ] ]. a_lot_deg_2 := av_-_dg-m_le & [ STEM < "_A", "lot" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+lot_x_rel", PHON.ONSET voc ] ]. a_np1 := n_-_pn-sg_le & [ STEM < "_A" >, SYNSEM [ LKEYS.KEYREL.CARG "A", PHON.ONSET voc ] ]. a_one_adj := aj_-_i-one-nmd_le & [ STEM < "a" >, SYNSEM.PHON.ONSET voc ]. a_one_adj_2 := aj_-_i-one-nmd_le & [ STEM < "_a" >, SYNSEM.PHON.ONSET voc ]. a_one_fract := aj_np_i-frct-a_le & [ STEM < "a" >, SYNSEM.PHON.ONSET voc ]. a_per_p := p_nb_i-nm_le & [ STEM < "a" >, SYNSEM [ LKEYS.KEYREL.PRED _a_p_per_rel, PHON.ONSET voc ] ]. a_period_np2 := n_-_pn_le & [ STEM < "_A." >, SYNSEM [ LKEYS.KEYREL.CARG "A", PHON.ONSET voc ] ]. a_pred_p1 := p_np_i-prd-a_le & [ STEM < "a" >, SYNSEM.PHON.ONSET voc ]. a_quarter := aj_-_i-mnt-pr_le & [ STEM < "a", "quarter" >, SYNSEM [ LKEYS.KEYREL.CARG "15", PHON.ONSET voc ] ]. a_quarter_adj2 := aj_-_i-mnt-pr_le & [ STEM < "_A", "quarter" >, SYNSEM [ LKEYS.KEYREL.CARG "15", PHON.ONSET voc ] ]. a_tad_adv1 := av_-_i-vp-po_le & [ STEM < "a", "tad" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+tad_a_1_rel", PHON.ONSET voc ] ]. a_tad_adv2 := av_-_i-vp-po_le & [ STEM < "_A", "tad" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+tad_a_1_rel", PHON.ONSET voc ] ]. a_tad_deg := av_-_dg_le & [ STEM < "a", "tad" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+tad_x_deg_rel", PHON.ONSET voc ] ]. a_tad_deg2 := av_-_dg_le & [ STEM < "_A", "tad" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+tad_x_deg_rel", PHON.ONSET voc ] ]. a_thousand_flower_n1 := n_-_pn_le & [ STEM < "A", "Thousand", "Flower" >, SYNSEM [ LKEYS.KEYREL.CARG "A_Thousand_Flower", PHON.ONSET voc ] ]. a_totter_adv1 := av_-_i-vp-po_le & [ STEM < "a", "totter" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+totter_a_1_rel", PHON.ONSET voc ] ]. a_totter_adv2 := av_-_i-vp-po_le & [ STEM < "a-", "totter" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+totter_a_1_rel", PHON.ONSET voc ] ]. a_trifle_adv1 := av_-_i-vp_le & [ STEM < "a", "trifle" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+trifle_a_1_rel", PHON.ONSET voc ] ]. a_ways_adv1 := av_-_i-vp-po_le & [ STEM < "a", "ways" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+ways_a_1_rel", PHON.ONSET voc ] ]. a_ways_adv2 := av_-_i-vp-po_le & [ STEM < "_A", "ways" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+ways_a_1_rel", PHON.ONSET voc ] ]. a_ways_deg := av_-_dg-m_le & [ STEM < "a", "ways" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+ways_x_much_rel", PHON.ONSET voc ] ]. a_ways_deg2 := av_-_dg-m_le & [ STEM < "_A", "ways" >, SYNSEM [ LKEYS.KEYREL.PRED "_a+ways_x_much_rel", PHON.ONSET voc ] ]. aachen_n1 := n_-_pn-city_le & [ STEM < "Aachen" >, SYNSEM [ LKEYS.KEYREL.CARG "Aachen", PHON.ONSET voc ] ]. aardvark_n1 := n_-_c_le & [ STEM < "aardvark" >, SYNSEM [ LKEYS.KEYREL.PRED "_aardvark_n_1_rel", PHON.ONSET voc ] ]. aaron_n1 := n_-_pn_le & [ STEM < "Aaron" >, SYNSEM [ LKEYS.KEYREL.CARG "Aaron", PHON.ONSET voc ] ]. aase_n1 := n_-_pn_le & [ STEM < "Aase" >, SYNSEM [ LKEYS.KEYREL.CARG "Aase", PHON.ONSET voc ] ]. aaseng_n1 := n_-_pn_le & [ STEM < "Aaseng" >, SYNSEM [ LKEYS.KEYREL.CARG "Aaseng", PHON.ONSET voc ] ]. aasmund_n1 := n_-_pn_le & [ STEM < "Aasmund" >, SYNSEM [ LKEYS.KEYREL.CARG "Aasmund", PHON.ONSET voc ] ]. aba_n1 := n_-_m_le & [ STEM < "aba" >, SYNSEM [ LKEYS.KEYREL.PRED "_aba_n_1_rel", PHON.ONSET voc ] ]. abacinate_v1 := v_np_le & [ STEM < "abacinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abacinate_v_1_rel", PHON.ONSET voc ] ]. aback_prtcl := p_np_ptcl_le & [ STEM < "aback" >, SYNSEM [ LKEYS.KEYREL.PRED _aback_p_sel_rel, PHON.ONSET voc ] ]. abaculus_n1 := n_-_c_le & [ STEM < "abaculus" >, SYNSEM [ LKEYS.KEYREL.PRED "_abaculus_n_1_rel", PHON.ONSET voc ] ]. abacus_n1 := n_-_c_le & [ STEM < "abacus" >, SYNSEM [ LKEYS.KEYREL.PRED "_abacus_n_1_rel", PHON.ONSET voc ] ]. abaft := p_np_i-reg_le & [ STEM < "abaft" >, SYNSEM [ LKEYS.KEYREL.PRED _abaft_p_rel, PHON.ONSET voc ] ]. abaft_nom := n_-_ad-loc_le & [ STEM < "abaft" >, SYNSEM [ LKEYS [ ALT2KEYREL.PRED _abaft_p_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. abalienate_v1 := v_np_le & [ STEM < "abalienate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abalienate_v_1_rel", PHON.ONSET voc ] ]. abandon_n1 := n_-_m_le & [ STEM < "abandon" >, SYNSEM [ LKEYS.KEYREL.PRED "_abandon_n_1_rel", PHON.ONSET voc ] ]. abandon_v1 := v_np*_le & [ STEM < "abandon" >, SYNSEM [ LKEYS.KEYREL.PRED "_abandon_v_1_rel", PHON.ONSET voc ] ]. abandonment_n1 := n_-_m_le & [ STEM < "abandonment" >, SYNSEM [ LKEYS.KEYREL.PRED "_abandonment_n_1_rel", PHON.ONSET voc ] ]. abase_v1 := v_np_le & [ STEM < "abase" >, SYNSEM [ LKEYS.KEYREL.PRED "_abase_v_1_rel", PHON.ONSET voc ] ]. abasement_n1 := n_-_mc_le & [ STEM < "abasement" >, SYNSEM [ LKEYS.KEYREL.PRED "_abasement_n_1_rel", PHON.ONSET voc ] ]. abashed_a1 := aj_-_i_le & [ STEM < "abashed" >, SYNSEM [ LKEYS.KEYREL.PRED "_abashed_a_1_rel", PHON.ONSET voc ] ]. abatable_a1 := aj_-_i_le & [ STEM < "abatable" >, SYNSEM [ LKEYS.KEYREL.PRED "_abatable_a_1_rel", PHON.ONSET voc ] ]. abate_v1 := v_np_noger_le & [ STEM < "abate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abate_v_cause_rel", PHON.ONSET voc ] ]. abate_v2 := v_-_unacc_le & [ STEM < "abate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abate_v_1_rel", PHON.ONSET voc ] ]. abatement_n1 := n_-_mc_le & [ STEM < "abatement" >, SYNSEM [ LKEYS.KEYREL.PRED "_abatement_n_1_rel", PHON.ONSET voc ] ]. abatis_n1 := n_-_c_le & [ STEM < "abatis" >, SYNSEM [ LKEYS.KEYREL.PRED "_abatis_n_1_rel", PHON.ONSET voc ] ]. abb_n1 := n_-_m_le & [ STEM < "abb" >, SYNSEM [ LKEYS.KEYREL.PRED "_abb_n_1_rel", PHON.ONSET voc ] ]. abbatial_a1 := aj_-_i_le & [ STEM < "abbatial" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbatial_a_1_rel", PHON.ONSET voc ] ]. abberley_n1 := n_-_pn_le & [ STEM < "Abberley" >, SYNSEM [ LKEYS.KEYREL.CARG "Abberley", PHON.ONSET voc ] ]. abbey_n1 := n_-_c_le & [ STEM < "abbey" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbey_n_1_rel", PHON.ONSET voc ] ]. abbey_post_ttl := n_-_tt-post_le & [ STEM < "Abbey" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbey_n_1_rel", PHON.ONSET voc ] ]. abbot_n1 := n_-_pn_le & [ STEM < "Abbot" >, SYNSEM [ LKEYS.KEYREL.CARG "Abbot", PHON.ONSET voc ] ]. abbot_n2 := n_-_c_le & [ STEM < "abbot" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbot_n_1_rel", PHON.ONSET voc ] ]. abbreviate_v1 := v_np_le & [ STEM < "abbreviate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbreviate_v_1_rel", PHON.ONSET voc ] ]. abbreviation_n1 := n_-_c_le & [ STEM < "abbreviation" >, SYNSEM [ LKEYS.KEYREL.PRED "_abbreviation_n_1_rel", PHON.ONSET voc ] ]. abc_n1 := n_-_pn_le & [ STEM < "ABC" >, SYNSEM [ LKEYS.KEYREL.CARG "ABC", PHON.ONSET voc ] ]. abc_n2 := n_-_c-nm_le & [ STEM < "A", "B", "C" >, SYNSEM [ LKEYS.KEYREL.CARG "ABC", PHON.ONSET voc ] ]. abdicate_v1 := v_np*_le & [ STEM < "abdicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_abdicate_v_1_rel", PHON.ONSET voc ] ]. abdication_n1 := n_-_m_le & [ STEM < "abdication" >, SYNSEM [ LKEYS.KEYREL.PRED "_abdication_n_1_rel", PHON.ONSET voc ] ]. abdomen_n1 := n_-_c_le & [ STEM < "abdomen" >, SYNSEM [ LKEYS.KEYREL.PRED "_abdomen_n_1_rel", PHON.ONSET voc ] ]. abdominal_a1 := aj_-_i_le & [ STEM < "abdominal" >, SYNSEM [ LKEYS.KEYREL.PRED "_abdominal_a_1_rel", PHON.ONSET voc ] ]. abduce_v1 := v_np*_le & [ STEM < "abduce" >, SYNSEM [ LKEYS.KEYREL.PRED "_abduce_v_1_rel", PHON.ONSET voc ] ]. abduct_v1 := v_np*_le & [ STEM < "abduct" >, SYNSEM [ LKEYS.KEYREL.PRED "_abduct_v_1_rel", PHON.ONSET voc ] ]. abe_n1 := n_-_pn_le & [ STEM < "Abe" >, SYNSEM [ LKEYS.KEYREL.CARG "Abe", PHON.ONSET voc ] ]. abeam_adv1 := pp_-_i_le & [ STEM < "abeam" >, SYNSEM [ LKEYS.KEYREL.PRED _abeam_p_rel, PHON.ONSET voc ] ]. abed_a1 := aj_-_i-prd_le & [ STEM < "abed" >, SYNSEM [ LKEYS.KEYREL.PRED "_abed_a_1_rel", PHON.ONSET voc ] ]. abel_n1 := n_-_pn_le & [ STEM < "Abel" >, SYNSEM [ LKEYS.KEYREL.CARG "Abel", PHON.ONSET voc ] ]. aberdeen_n1 := n_-_pn-city_le & [ STEM < "Aberdeen" >, SYNSEM [ LKEYS.KEYREL.CARG "Aberdeen", PHON.ONSET voc ] ]. aberrant_a1 := aj_-_i_le & [ STEM < "aberrant" >, SYNSEM [ LKEYS.KEYREL.PRED "_aberrant_a_1_rel", PHON.ONSET voc ] ]. aberration_n1 := n_-_mc_le & [ STEM < "aberration" >, SYNSEM [ LKEYS.KEYREL.PRED "_aberration_n_1_rel", PHON.ONSET voc ] ]. abet_v1 := v_np*_le & [ STEM < "abet" >, SYNSEM [ LKEYS.KEYREL.PRED "_abet_v_1_rel", PHON.ONSET voc ] ]. abetment_n1 := n_-_m_le & [ STEM < "abetment" >, SYNSEM [ LKEYS.KEYREL.PRED "_abetment_n_1_rel", PHON.ONSET voc ] ]. abeyance_n1 := n_-_m_le & [ STEM < "abeyance" >, SYNSEM [ LKEYS.KEYREL.PRED "_abeyance_n_1_rel", PHON.ONSET voc ] ]. abide_v1 := v_np_noger_le & [ STEM < "abide" >, SYNSEM [ LKEYS.KEYREL.PRED "_abide_v_2_rel", PHON.ONSET voc ] ]. abide_v2 := v_-_le & [ STEM < "abide" >, SYNSEM [ LKEYS.KEYREL.PRED "_abide_v_2_rel", PHON.ONSET voc ] ]. ability_n1 := n_-_c_le & [ STEM < "ability" >, SYNSEM [ LKEYS.KEYREL.PRED "_ability_n_1_rel", PHON.ONSET voc ] ]. ability_n2 := n_vp_c_le & [ STEM < "ability" >, SYNSEM [ LKEYS.KEYREL.PRED "_ability_n_1_rel", PHON.ONSET voc ] ]. abisko := n_-_pn_le & [ STEM < "Abisko" >, SYNSEM [ LKEYS.KEYREL.CARG "Abisko", PHON.ONSET voc ] ]. abject_a1 := aj_-_i_le & [ STEM < "abject" >, SYNSEM [ LKEYS.KEYREL.PRED "_abject_a_1_rel", PHON.ONSET voc ] ]. abjectly_adv := av_-_i-vp_le & [ STEM < "abjectly" >, SYNSEM [ LKEYS.KEYREL.PRED "_abject_a_1_rel", PHON.ONSET voc ] ]. ablard_n1 := n_-_pn_le & [ STEM < "Ablard" >, SYNSEM [ LKEYS.KEYREL.CARG "Ablard", PHON.ONSET voc ] ]. ablation_n1 := n_-_m_le & [ STEM < "ablation" >, SYNSEM [ LKEYS.KEYREL.PRED "_ablation_n_1_rel", PHON.ONSET voc ] ]. ablaze_a1 := aj_-_i-prd_le & [ STEM < "ablaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_ablaze_a_1_rel", PHON.ONSET voc ] ]. able_a1 := aj_-_i_le & [ STEM < "able" >, SYNSEM [ LKEYS.KEYREL.PRED "_able_a_1_rel", PHON.ONSET voc ] ]. able_a2 := aj_vp_i-seq_le & [ STEM < "able" >, SYNSEM [ LKEYS.KEYREL.PRED "_able_a_1_rel", PHON.ONSET voc ] ]. abnet_n1 := n_-_c_le & [ STEM < "abnet" >, SYNSEM [ LKEYS.KEYREL.PRED "_abnet_n_1_rel", PHON.ONSET voc ] ]. abnormal_isect := aj_-_i_le & [ STEM < "abnormal" >, SYNSEM [ LKEYS.KEYREL.PRED "_abnormal_a_1_rel", PHON.ONSET voc ] ]. abnormally_adv := av_-_i-vp_le & [ STEM < "abnormally" >, SYNSEM [ LKEYS.KEYREL.PRED "_abnormal_a_1_rel", PHON.ONSET voc ] ]. aboard := p_np_i-reg_le & [ STEM < "aboard" >, SYNSEM [ LKEYS.KEYREL.PRED _aboard_p_rel, PHON.ONSET voc ] ]. aboard_pp := pp_-_i_le & [ STEM < "aboard" >, SYNSEM [ LKEYS.KEYREL.PRED _aboard_p_rel, PHON.ONSET voc ] ]. abode_n1 := n_-_mc_le & [ STEM < "abode" >, SYNSEM [ LKEYS.KEYREL.PRED "_abode_n_1_rel", PHON.ONSET voc ] ]. abolish_v1 := v_np_le & [ STEM < "abolish" >, SYNSEM [ LKEYS.KEYREL.PRED "_abolish_v_1_rel", PHON.ONSET voc ] ]. abolition_n1 := n_pp_c_le & [ STEM < "abolition" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_abolition_n_of_rel" ], PHON.ONSET voc ] ]. aboriginal_a1 := aj_-_i_le & [ STEM < "aboriginal" >, SYNSEM [ LKEYS.KEYREL.PRED "_aboriginal_a_1_rel", PHON.ONSET voc ] ]. aborigine_n1 := n_-_c_le & [ STEM < "aborigine" >, SYNSEM [ LKEYS.KEYREL.PRED "_aborigine_n_1_rel", PHON.ONSET voc ] ]. abort_n1 := n_-_c_le & [ STEM < "abort" >, SYNSEM [ LKEYS.KEYREL.PRED "_abort_n_1_rel", PHON.ONSET voc ] ]. abort_v1 := v_np*_le & [ STEM < "abort" >, SYNSEM [ LKEYS.KEYREL.PRED "_abort_v_1_rel", PHON.ONSET voc ] ]. abortion_n1 := n_pp_mc-of_le & [ STEM < "abortion" >, SYNSEM [ LKEYS.KEYREL.PRED "_abortion_n_of_rel", PHON.ONSET voc ] ]. abound_v1 := v_pp*_le & [ STEM < "abound" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, KEYREL.PRED "_abound_v_1_rel" ], PHON.ONSET voc ] ]. about := p_np_i-nm_le & [ STEM < "about" >, SYNSEM [ LKEYS.KEYREL.PRED _about_p_rel, PHON.ONSET voc ] ]. about_a1 := aj_vp_i-seq_le & [ STEM < "about" >, SYNSEM [ LKEYS.KEYREL.PRED "_about_a_1_rel", PHON.ONSET voc ] ]. about_adv := pp_-_i-nmb_le & [ STEM < "about" >, SYNSEM [ LKEYS.KEYREL.PRED _about_p_rel, PHON.ONSET voc ] ]. about_deg := av_-_dg-jov_le & [ STEM < "about" >, SYNSEM [ LKEYS.KEYREL.PRED "_about_x_deg_rel", PHON.ONSET voc ] ]. about_prtcl := p_np_ptcl_le & [ STEM < "about" >, SYNSEM [ LKEYS.KEYREL.PRED _about_p_sel_rel, PHON.ONSET voc ] ]. above := p_np_i-reg_le & [ STEM < "above" >, SYNSEM [ LKEYS.KEYREL.PRED _above_p_rel, PHON.ONSET voc ] ]. above_a1 := aj_-_i_le & [ STEM < "above" >, SYNSEM [ LKEYS.KEYREL.PRED "_above_a_1_rel", PHON.ONSET voc ] ]. above_adv1 := pp_-_i_le & [ STEM < "above" >, SYNSEM [ LKEYS.KEYREL.PRED _above_p_rel, PHON.ONSET voc ] ]. above_all_adv1 := av_-_i-vp-x_le & [ STEM < "above", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_above+all_a_1_rel", PHON.ONSET voc ] ]. above_all_adv2 := av_-_i-vp-po_le & [ STEM < "above", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_above+all_a_1_rel", PHON.ONSET voc ] ]. above_n1 := n_-_c-nocnh_le & [ STEM < "above" >, SYNSEM [ LKEYS.KEYREL.PRED "_above_n_1_rel", PHON.ONSET voc ] ]. above_named_a1 := aj_-_i-att_le & [ STEM < "above-", "named" >, SYNSEM [ LKEYS.KEYREL.PRED "_above+named_a_1_rel", PHON.ONSET voc ] ]. aboveboard_adv1 := pp_-_i_le & [ STEM < "aboveboard" >, SYNSEM [ LKEYS.KEYREL.PRED _aboveboard_p_rel, PHON.ONSET voc ] ]. aboveground_a1 := aj_-_i_le & [ STEM < "aboveground" >, SYNSEM [ LKEYS.KEYREL.PRED "_aboveground_a_1_rel", PHON.ONSET voc ] ]. aboveground_adv1 := pp_-_i_le & [ STEM < "aboveground" >, SYNSEM [ LKEYS.KEYREL.PRED _aboveground_p_rel, PHON.ONSET voc ] ]. abraham_n1 := n_-_pn_le & [ STEM < "Abraham" >, SYNSEM [ LKEYS.KEYREL.CARG "Abraham", PHON.ONSET voc ] ]. abrams := n_-_pn_le & [ STEM < "Abrams" >, SYNSEM [ LKEYS.KEYREL.CARG "Abrams", PHON.ONSET voc ] ]. abrasive_a1 := aj_-_i_le & [ STEM < "abrasive" >, SYNSEM [ LKEYS.KEYREL.PRED "_abrasive_a_1_rel", PHON.ONSET voc ] ]. abreast_a1 := aj_pp_i_le & [ STEM < "abreast" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_abreast_a_of_rel" ], PHON.ONSET voc ] ]. abridge_v1 := v_np_le & [ STEM < "abridge" >, SYNSEM [ LKEYS.KEYREL.PRED "_abridge_v_1_rel", PHON.ONSET voc ] ]. abridged_a1 := aj_-_i_le & [ STEM < "abridged" >, SYNSEM [ LKEYS.KEYREL.PRED "_abridged_a_1_rel", PHON.ONSET voc ] ]. abridgment_n1 := n_-_mc_le & [ STEM < "abridgment" >, SYNSEM [ LKEYS.KEYREL.PRED "_abridgment_n_1_rel", PHON.ONSET voc ] ]. abroad_adv := pp_-_i_le & [ STEM < "abroad" >, SYNSEM [ LKEYS.KEYREL.PRED _abroad_p_rel, PHON.ONSET voc ] ]. abrupt_a1 := aj_-_i_le & [ STEM < "abrupt" >, SYNSEM [ LKEYS.KEYREL.PRED "_abrupt_a_1_rel", PHON.ONSET voc ] ]. abruptly_adv1 := av_-_i-vp_le & [ STEM < "abruptly" >, SYNSEM [ LKEYS.KEYREL.PRED "_abrupt_a_1_rel", PHON.ONSET voc ] ]. abscess_n1 := n_-_c_le & [ STEM < "abscess" >, SYNSEM [ LKEYS.KEYREL.PRED "_abscess_n_1_rel", PHON.ONSET voc ] ]. abscond_with_v1 := v_pp_e_le & [ STEM < "abscond" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_abscond_v_with_rel" ], PHON.ONSET voc ] ]. absence_n1 := n_-_mc_le & [ STEM < "absence" >, SYNSEM [ LKEYS.KEYREL.PRED "_absence_n_1_rel", PHON.ONSET voc ] ]. absent_a1 := aj_-_i_le & [ STEM < "absent" >, SYNSEM [ LKEYS.KEYREL.PRED "_absent_a_1_rel", PHON.ONSET voc ] ]. absolute_a1 := aj_-_i_le & [ STEM < "absolute" >, SYNSEM [ LKEYS.KEYREL.PRED "_absolute_a_1_rel", PHON.ONSET voc ] ]. absolute_n1 := n_-_c-nocnh_le & [ STEM < "absolute" >, SYNSEM [ LKEYS.KEYREL.PRED "_absolute_n_1_rel", PHON.ONSET voc ] ]. absolutely_adv1 := av_-_s-vp-pr_le & [ STEM < "absolutely" >, SYNSEM [ LKEYS.KEYREL.PRED "_absolute_a_scop_rel", PHON.ONSET voc ] ]. absolutely_deg := av_-_dg-jo_le & [ STEM < "absolutely" >, SYNSEM [ LKEYS.KEYREL.PRED "_absolutely_x_deg_rel", PHON.ONSET voc ] ]. absorb_v1 := v_np_le & [ STEM < "absorb" >, SYNSEM [ LKEYS.KEYREL.PRED "_absorb_v_1_rel", PHON.ONSET voc ] ]. absorb_v2 := v_np-pp_le & [ STEM < "absorb" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_rel, KEYREL.PRED "_absorb_v_1_rel" ], PHON.ONSET voc ] ]. absorber_n1 := n_-_c_le & [ STEM < "absorber" >, SYNSEM [ LKEYS.KEYREL.PRED "_absorber_n_1_rel", PHON.ONSET voc ] ]. absorption_n1 := n_pp_m_le & [ STEM < "absorption" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_absorption_n_of_rel" ], PHON.ONSET voc ] ]. abstain_v1 := v_pp_e_le & [ STEM < "abstain" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_abstain_v_from_rel" ], PHON.ONSET voc ] ]. abstain_v2 := v_-_le & [ STEM < "abstain" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstain_v_from_rel", PHON.ONSET voc ] ]. abstention_n1 := n_-_mc_le & [ STEM < "abstention" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstention_n_1_rel", PHON.ONSET voc ] ]. abstract_a1 := aj_-_i_le & [ STEM < "abstract" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstract_a_1_rel", PHON.ONSET voc ] ]. abstract_away_v2 := v_p-pp_le & [ STEM < "abstract" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, --OCOMPKEY _from_p_rel, KEYREL.PRED "_abstract_v_away_rel" ], PHON.ONSET voc ] ]. abstract_n1 := n_-_c_le & [ STEM < "abstract" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstract_n_1_rel", PHON.ONSET voc ] ]. abstract_v1 := v_np*_le & [ STEM < "abstract" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstract_v_1_rel", PHON.ONSET voc ] ]. abstractive_a1 := aj_-_i_le & [ STEM < "abstractive" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstractive_a_1_rel", PHON.ONSET voc ] ]. abstractly_adv := av_-_i-vp_le & [ STEM < "abstractly" >, SYNSEM [ LKEYS.KEYREL.PRED "_abstract_a_1_rel", PHON.ONSET voc ] ]. absurd_a1 := aj_-_i_le & [ STEM < "absurd" >, SYNSEM [ LKEYS.KEYREL.PRED "_absurd_a_for_rel", PHON.ONSET voc ] ]. absurd_a2 := aj_pp-vp_i-it_le & [ STEM < "absurd" >, SYNSEM [ LKEYS.KEYREL.PRED "_absurd_a_for_rel", PHON.ONSET voc ] ]. absurd_a3 := aj_pp-cp_i-it_le & [ STEM < "absurd" >, SYNSEM [ LKEYS.KEYREL.PRED "_absurd_a_for_rel", PHON.ONSET voc ] ]. absurdity_n1 := n_-_mc_le & [ STEM < "absurdity" >, SYNSEM [ LKEYS.KEYREL.PRED "_absurdity_n_1_rel", PHON.ONSET voc ] ]. abundance_n1 := n_-_mc_le & [ STEM < "abundance" >, SYNSEM [ LKEYS.KEYREL.PRED "_abundance_n_1_rel", PHON.ONSET voc ] ]. abundant_a1 := aj_-_i_le & [ STEM < "abundant" >, SYNSEM [ LKEYS.KEYREL.PRED "_abundant_a_1_rel", PHON.ONSET voc ] ]. abundantly := av_-_i-vp_le & [ STEM < "abundantly" >, SYNSEM [ LKEYS.KEYREL.PRED "_abundant_a_1_rel", PHON.ONSET voc ] ]. abuse_n1 := n_pp_mc-of_le & [ STEM < "abuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_abuse_n_of_rel", PHON.ONSET voc ] ]. abuse_v1 := v_np_le & [ STEM < "abuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_abuse_v_1_rel", PHON.ONSET voc ] ]. abut_v1 := v_np*_le & [ STEM < "abut" >, SYNSEM [ LKEYS.KEYREL.PRED "_abut_v_1_rel", PHON.ONSET voc ] ]. abutment_n1 := n_-_mc_le & [ STEM < "abutment" >, SYNSEM [ LKEYS.KEYREL.PRED "_abutment_n_1_rel", PHON.ONSET voc ] ]. abyss_n1 := n_-_c_le & [ STEM < "abyss" >, SYNSEM [ LKEYS.KEYREL.PRED "_abyss_n_1_rel", PHON.ONSET voc ] ]. ac_n1 := n_-_pn_le & [ STEM < "AC" >, SYNSEM [ LKEYS.KEYREL.CARG "AC", PHON.ONSET voc ] ]. academic_a1 := aj_-_i_le & [ STEM < "academic" >, SYNSEM [ LKEYS.KEYREL.PRED "_academic_a_1_rel", PHON.ONSET voc ] ]. academic_n1 := n_-_c-nocnh_le & [ STEM < "academic" >, SYNSEM [ LKEYS.KEYREL.PRED "_academic_n_1_rel", PHON.ONSET voc ] ]. academical_a1 := aj_-_i_le & [ STEM < "academical" >, SYNSEM [ LKEYS.KEYREL.PRED "_academical_a_1_rel", PHON.ONSET voc ] ]. academically_a1 := av_-_i-vp_le & [ STEM < "academically" >, SYNSEM [ LKEYS.KEYREL.PRED "_academic_a_1_rel", PHON.ONSET voc ] ]. academically_adv := av_-_i-vp_le & [ STEM < "academically" >, SYNSEM [ LKEYS.KEYREL.PRED "_academic_a_1_rel", PHON.ONSET voc ] ]. academy_n1 := n_-_c_le & [ STEM < "academy" >, SYNSEM [ LKEYS.KEYREL.PRED "_academy_n_1_rel", PHON.ONSET voc ] ]. academy_post_ttl := n_-_tt-post_le & [ STEM < "Academy" >, SYNSEM [ LKEYS.KEYREL.PRED "_academy_n_1_rel", PHON.ONSET voc ] ]. acapulco_n1 := n_-_pn-city_le & [ STEM < "Acapulco" >, SYNSEM [ LKEYS.KEYREL.CARG "Acapulco", PHON.ONSET voc ] ]. accacia_n1 := n_-_pn_le & [ STEM < "Accacia" >, SYNSEM [ LKEYS.KEYREL.CARG "Accacia", PHON.ONSET voc ] ]. accede_to_v1 := v_pp_e_le & [ STEM < "accede" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_accede_v_to_rel" ], PHON.ONSET voc ] ]. accelerate_v1 := v_np_noger_le & [ STEM < "accelerate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accelerate_v_cause_rel", PHON.ONSET voc ] ]. accelerate_v2 := v_pp*_dir_le & [ STEM < "accelerate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accelerate_v_1_rel", PHON.ONSET voc ] ]. accelerator_n1 := n_-_c_le & [ STEM < "accelerator" >, SYNSEM [ LKEYS.KEYREL.PRED "_accelerator_n_1_rel", PHON.ONSET voc ] ]. accent_n1 := n_-_mc_le & [ STEM < "accent" >, SYNSEM [ LKEYS.KEYREL.PRED "_accent_n_1_rel", PHON.ONSET voc ] ]. accent_v1 := v_np_le & [ STEM < "accent" >, SYNSEM [ LKEYS.KEYREL.PRED "_accent_v_1_rel", PHON.ONSET voc ] ]. accept_v1 := v_np*_le & [ STEM < "accept" >, SYNSEM [ LKEYS.KEYREL.PRED "_accept_v_1_rel", PHON.ONSET voc ] ]. accept_v2 := v_cp_le & [ STEM < "accept" >, SYNSEM [ LKEYS.KEYREL.PRED "_accept_v_1_rel", PHON.ONSET voc ] ]. accept_v3 := v_np-pp_oeq-as_le & [ STEM < "accept" >, SYNSEM [ LKEYS.KEYREL.PRED "_accept_v_as_rel", PHON.ONSET voc ] ]. acceptable_a1 := aj_pp_i_le & [ STEM < "acceptable" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_acceptable_a_for_rel" ], PHON.ONSET voc ] ]. acceptable_a2 := aj_pp-vp_i-it_le & [ STEM < "acceptable" >, SYNSEM [ LKEYS.KEYREL.PRED "_acceptable_a_for_rel", PHON.ONSET voc ] ]. acceptable_a3 := aj_pp-cp_i-it_le & [ STEM < "acceptable" >, SYNSEM [ LKEYS.KEYREL.PRED "_acceptable_a_for_rel", PHON.ONSET voc ] ]. acceptably_a1 := av_-_i-vp_le & [ STEM < "acceptably" >, SYNSEM [ LKEYS.KEYREL.PRED "_acceptable_a_for_rel", PHON.ONSET voc ] ]. acceptance_n1 := n_-_m_le & [ STEM < "acceptance" >, SYNSEM [ LKEYS.KEYREL.PRED "_acceptance_n_1_rel", PHON.ONSET voc ] ]. acceptive_a1 := aj_-_i_le & [ STEM < "acceptive" >, SYNSEM [ LKEYS.KEYREL.PRED "_acceptive_a_1_rel", PHON.ONSET voc ] ]. access_n1 := n_-_mc_le & [ STEM < "access" >, SYNSEM [ LKEYS.KEYREL.PRED "_access_n_1_rel", PHON.ONSET voc ] ]. access_v1 := v_np_le & [ STEM < "access" >, SYNSEM [ LKEYS.KEYREL.PRED "_access_v_1_rel", PHON.ONSET voc ] ]. accessibility_n1 := n_-_m_le & [ STEM < "accessibility" >, SYNSEM [ LKEYS.KEYREL.PRED "_accessibility_n_1_rel", PHON.ONSET voc ] ]. accessible_a1 := aj_pp_i-ind_le & [ STEM < "accessible" >, SYNSEM [ LKEYS [ --COMPKEY _by_p_rel, KEYREL.PRED "_accessible_a_1_rel" ], PHON.ONSET voc ] ]. accession_n1 := n_-_m_le & [ STEM < "accession" >, SYNSEM [ LKEYS.KEYREL.PRED "_accession_n_1_rel", PHON.ONSET voc ] ]. accessory_n1 := n_-_c_le & [ STEM < "accessory" >, SYNSEM [ LKEYS.KEYREL.PRED "_accessory_n_1_rel", PHON.ONSET voc ] ]. accident_n1 := n_-_c_le & [ STEM < "accident" >, SYNSEM [ LKEYS.KEYREL.PRED "_accident_n_1_rel", PHON.ONSET voc ] ]. accidental_a1 := aj_-_i_le & [ STEM < "accidental" >, SYNSEM [ LKEYS.KEYREL.PRED "_accidental_a_1_rel", PHON.ONSET voc ] ]. accidental_a2 := aj_pp-cp_i-it_le & [ STEM < "accidental" >, SYNSEM [ LKEYS.KEYREL.PRED "_accidental_a_1_rel", PHON.ONSET voc ] ]. accidentally_adv1 := av_-_i-vp_le & [ STEM < "accidentally" >, SYNSEM [ LKEYS.KEYREL.PRED "_accidental_a_1_rel", PHON.ONSET voc ] ]. acclimate_v1 := v_np*-pp_e_le & [ STEM < "acclimate" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_acclimate_v_to_rel" ], PHON.ONSET voc ] ]. acclimate_v2 := v_np*_le & [ STEM < "acclimate" >, SYNSEM [ LKEYS.KEYREL.PRED "_acclimate_v_to_rel", PHON.ONSET voc ] ]. acclimatize_v1 := v_np_le & [ STEM < "acclimatize" >, SYNSEM [ LKEYS.KEYREL.PRED "_acclimatize_v_1_rel", PHON.ONSET voc ] ]. acclimitization_n1 := n_-_m_le & [ STEM < "acclimitization" >, SYNSEM [ LKEYS.KEYREL.PRED "_acclimitization_n_1_rel", PHON.ONSET voc ] ]. accommodate_v1 := v_np_le & [ STEM < "accommodate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accommodate_v_1_rel", PHON.ONSET voc ] ]. accommodate_v2 := v_np-pp_oeq-as_le & [ STEM < "accommodate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accommodate_v_as_rel", PHON.ONSET voc ] ]. accommodation_n1 := n_-_mc_le & [ STEM < "accommodation" >, SYNSEM [ LKEYS.KEYREL.PRED "_accommodation_n_1_rel", PHON.ONSET voc ] ]. accompaniment_n1 := n_-_mc_le & [ STEM < "accompaniment" >, SYNSEM [ LKEYS.KEYREL.PRED "_accompaniment_n_1_rel", PHON.ONSET voc ] ]. accompany_v1 := v_np*_le & [ STEM < "accompany" >, SYNSEM [ LKEYS.KEYREL.PRED "_accompany_v_1_rel", PHON.ONSET voc ] ]. accomplish_v1 := v_np_le & [ STEM < "accomplish" >, SYNSEM [ LKEYS.KEYREL.PRED "_accomplish_v_1_rel", PHON.ONSET voc ] ]. accomplishment_n1 := n_-_mc_le & [ STEM < "accomplishment" >, SYNSEM [ LKEYS.KEYREL.PRED "_accomplishment_n_1_rel", PHON.ONSET voc ] ]. accord_n1 := n_-_mc_le & [ STEM < "accord" >, SYNSEM [ LKEYS.KEYREL.PRED "_accord_n_1_rel", PHON.ONSET voc ] ]. accord_v1 := v_np-np_only_le & [ STEM < "accord" >, SYNSEM [ LKEYS.KEYREL.PRED "_accord_v_1_rel", PHON.ONSET voc ] ]. accord_v2 := v_pp_e_le & [ STEM < "accord" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_accord_v_with_rel" ], PHON.ONSET voc ] ]. accordance_n1 := n_pp_m_le & [ STEM < "accordance" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_accordance_n_with_rel" ], PHON.ONSET voc ] ]. according_to := p_np_i_le & [ STEM < "according", "to" >, SYNSEM [ LKEYS.KEYREL.PRED _according+to_p_rel, PHON.ONSET voc ] ]. accordingly_adv1 := av_-_i-vp_le & [ STEM < "accordingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_according_a_1_rel", PHON.ONSET voc ] ]. account_n1 := n_pp_c-of_le & [ STEM < "account" >, SYNSEM [ LKEYS.KEYREL.PRED "_account_n_of_rel", PHON.ONSET voc ] ]. account_n1_i := n_-_c-br-idm_le & [ STEM < "account" >, SYNSEM [ LKEYS.KEYREL.PRED "_account_n_i_rel", PHON.ONSET voc ] ]. account_n3 := n_-_c_le & [ STEM < "acc't" >, SYNSEM [ LKEYS.KEYREL.PRED "_account_n_of_rel", PHON.ONSET voc ] ]. account_n4 := n_-_c_le & [ STEM < "acc", "'t" >, SYNSEM [ LKEYS.KEYREL.PRED "_account_n_of_rel", PHON.ONSET voc ] ]. account_v1 := v_pp_e_le & [ STEM < "account" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_account_v_for_rel" ], PHON.ONSET voc ] ]. accountability_n1 := n_-_mc_le & [ STEM < "accountability" >, SYNSEM [ LKEYS.KEYREL.PRED "_accountability_n_1_rel", PHON.ONSET voc ] ]. accountable_a1 := aj_-_i_le & [ STEM < "accountable" >, SYNSEM [ LKEYS.KEYREL.PRED "_accountable_a_1_rel", PHON.ONSET voc ] ]. accountant_n1 := n_-_c_le & [ STEM < "accountant" >, SYNSEM [ LKEYS.KEYREL.PRED "_accountant_n_1_rel", PHON.ONSET voc ] ]. accounting_n1 := n_-_m_le & [ STEM < "accounting" >, SYNSEM [ LKEYS.KEYREL.PRED "_accounting_n_1_rel", PHON.ONSET voc ] ]. accounts_n1 := n_-_c-pl-cpd_le & [ STEM < "accounts" >, SYNSEM [ LKEYS.KEYREL.PRED "_account_n_of_rel", PHON.ONSET voc ] ]. accredited_a1 := aj_-_i_le & [ STEM < "accredited" >, SYNSEM [ LKEYS.KEYREL.PRED "_accredited_a_1_rel", PHON.ONSET voc ] ]. accrue_v1 := v_np_noger_le & [ STEM < "accrue" >, SYNSEM [ LKEYS.KEYREL.PRED "_accrue_v_cause_rel", PHON.ONSET voc ] ]. accrue_v2 := v_-_unacc_le & [ STEM < "accrue" >, SYNSEM [ LKEYS.KEYREL.PRED "_accrue_v_1_rel", PHON.ONSET voc ] ]. accrue_v3 := v_pp_e_le & [ STEM < "accrue" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_accrue_v_to_rel" ], PHON.ONSET voc ] ]. acculturation_n1 := n_-_m_le & [ STEM < "acculturation" >, SYNSEM [ LKEYS.KEYREL.PRED "_acculturation_n_1_rel", PHON.ONSET voc ] ]. accumulate_v1 := v_np_noger_le & [ STEM < "accumulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accumulate_v_cause_rel", PHON.ONSET voc ] ]. accumulate_v2 := v_-_unacc_le & [ STEM < "accumulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accumulate_v_1_rel", PHON.ONSET voc ] ]. accumulation_n1 := n_pp_mc-of_le & [ STEM < "accumulation" >, SYNSEM [ LKEYS.KEYREL.PRED "_accumulation_n_of_rel", PHON.ONSET voc ] ]. accumulator_n1 := n_-_c_le & [ STEM < "accumulator" >, SYNSEM [ LKEYS.KEYREL.PRED "_accumulator_n_1_rel", PHON.ONSET voc ] ]. accuracy_n1 := n_-_m_le & [ STEM < "accuracy" >, SYNSEM [ LKEYS.KEYREL.PRED "_accuracy_n_1_rel", PHON.ONSET voc ] ]. accurate_a1 := aj_-_i_le & [ STEM < "accurate" >, SYNSEM [ LKEYS.KEYREL.PRED "_accurate_a_1_rel", PHON.ONSET voc ] ]. accurately := av_-_i-vp_le & [ STEM < "accurately" >, SYNSEM [ LKEYS.KEYREL.PRED "_accurate_a_1_rel", PHON.ONSET voc ] ]. accusation_n1 := n_-_mc_le & [ STEM < "accusation" >, SYNSEM [ LKEYS.KEYREL.PRED "_accusation_n_1_rel", PHON.ONSET voc ] ]. accuse_v1 := v_np-pp_e_le & [ STEM < "accuse" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_accuse_v_of_rel" ], PHON.ONSET voc ] ]. accuse_v2 := v_np_le & [ STEM < "accuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_accuse_v_of_rel", PHON.ONSET voc ] ]. accused_n1 := n_-_c-nocnh_le & [ STEM < "accused" >, SYNSEM [ LKEYS.KEYREL.PRED "_accused_n_1_rel", PHON.ONSET voc ] ]. accustom_to_v1 := v_np-pp_e_le & [ STEM < "accustom" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_accustom_v_to_rel" ], PHON.ONSET voc ] ]. accustom_v1 := v_np-vp_oeq_le & [ STEM < "accustom" >, SYNSEM [ LKEYS.KEYREL.PRED "_accustom_v_to_rel", PHON.ONSET voc ] ]. accustom_v2 := v_np_le & [ STEM < "accustom" >, SYNSEM [ LKEYS.KEYREL.PRED "_accustom_v_to_rel", PHON.ONSET voc ] ]. ace_n1 := n_-_c_le & [ STEM < "ace" >, SYNSEM [ LKEYS.KEYREL.PRED "_ace_n_1_rel", PHON.ONSET voc ] ]. ace_n2 := n_-_pn_le & [ STEM < "Ace" >, SYNSEM [ LKEYS.KEYREL.CARG "Ace", PHON.ONSET voc ] ]. ace_v1 := v_np_le & [ STEM < "ace" >, SYNSEM [ LKEYS.KEYREL.PRED "_ace_v_1_rel", PHON.ONSET voc ] ]. acer_n1 := n_-_pn_le & [ STEM < "Acer" >, SYNSEM [ LKEYS.KEYREL.CARG "Acer", PHON.ONSET voc ] ]. acetic_a1 := aj_-_i_le & [ STEM < "acetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acetic_a_1_rel", PHON.ONSET voc ] ]. ach_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "ach" >, SYNSEM [ LKEYS.KEYREL.PRED "_ach_a_1_rel", PHON.ONSET voc ] ]. ache_for_v1 := v_pp_e_le & [ STEM < "ache" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_ache_v_for_rel" ], PHON.ONSET voc ] ]. ache_n1 := n_-_c_le & [ STEM < "ache" >, SYNSEM [ LKEYS.KEYREL.PRED "_ache_n_1_rel", PHON.ONSET voc ] ]. ache_v1 := v_-_le & [ STEM < "ache" >, SYNSEM [ LKEYS.KEYREL.PRED "_ache_v_1_rel", PHON.ONSET voc ] ]. ache_v2 := v_vp_seq_le & [ STEM < "ache" >, SYNSEM [ LKEYS.KEYREL.PRED "_ache_v_1_rel", PHON.ONSET voc ] ]. ache_with_v1 := v_pp_e_le & [ STEM < "ache" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_ache_v_with_rel" ], PHON.ONSET voc ] ]. achieve_v1 := v_np_le & [ STEM < "achieve" >, SYNSEM [ LKEYS.KEYREL.PRED "_achieve_v_1_rel", PHON.ONSET voc ] ]. achievement_n1 := n_pp_mc-of_le & [ STEM < "achievement" >, SYNSEM [ LKEYS.KEYREL.PRED "_achievement_n_of_rel", PHON.ONSET voc ] ]. acid_n1 := n_-_mc_le & [ STEM < "acid" >, SYNSEM [ LKEYS.KEYREL.PRED "_acid_n_1_rel", PHON.ONSET voc ] ]. acidic_a1 := aj_-_i_le & [ STEM < "acidic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acidic_a_1_rel", PHON.ONSET voc ] ]. acidify_v1 := v_np_le & [ STEM < "acidify" >, SYNSEM [ LKEYS.KEYREL.PRED "_acidify_v_1_rel", PHON.ONSET voc ] ]. acknowledge_v1 := v_np*_le & [ STEM < "acknowledge" >, SYNSEM [ LKEYS.KEYREL.PRED "_acknowledge_v_1_rel", PHON.ONSET voc ] ]. acknowledge_v2 := v_cp_le & [ STEM < "acknowledge" >, SYNSEM [ LKEYS.KEYREL.PRED "_acknowledge_v_1_rel", PHON.ONSET voc ] ]. acknowledge_v3 := v_np-pp_oeq-as_le & [ STEM < "acknowledge" >, SYNSEM [ LKEYS.KEYREL.PRED "_acknowledge_v_as_rel", PHON.ONSET voc ] ]. acknowledgement_n1 := n_pp_mc-of_le & [ STEM < "acknowledgement" >, SYNSEM [ LKEYS.KEYREL.PRED "_acknowledgement_n_of_rel", PHON.ONSET voc ] ]. acme_n1 := n_-_pn_le & [ STEM < "Acme" >, SYNSEM [ LKEYS.KEYREL.CARG "Acme", PHON.ONSET voc ] ]. acme_n2 := n_-_m_le & [ STEM < "acme" >, SYNSEM [ LKEYS.KEYREL.PRED "_acme_n_1_rel", PHON.ONSET voc ] ]. acne_n1 := n_-_m_le & [ STEM < "acne" >, SYNSEM [ LKEYS.KEYREL.PRED "_acne_n_1_rel", PHON.ONSET voc ] ]. acoustic_a1 := aj_-_i_le & [ STEM < "acoustic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acoustic_a_1_rel", PHON.ONSET voc ] ]. acoustics_n1 := n_-_c-pl-nocnh_le & [ STEM < "acoustic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acoustics_n_1_rel", PHON.ONSET voc ] ]. acquaint_with_v1 := v_np-pp_e_le & [ STEM < "acquaint" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_acquaint_v_with_rel" ], PHON.ONSET voc ] ]. acquaintance_n := n_-_c_le & [ STEM < "acquaintance" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquaintance_n_1_rel", PHON.ONSET voc ] ]. acquainted_a1 := aj_-_i_le & [ STEM < "acquainted" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquainted_a_1_rel", PHON.ONSET voc ] ]. acquiescence_n1 := n_-_mc_le & [ STEM < "acquiescence" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquiescence_n_1_rel", PHON.ONSET voc ] ]. acquire_v1 := v_np_le & [ STEM < "acquire" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquire_v_1_rel", PHON.ONSET voc ] ]. acquirement_n1 := n_-_mc_le & [ STEM < "acquirement" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquirement_n_1_rel", PHON.ONSET voc ] ]. acquisition_n1 := n_pp_mc-of_le & [ STEM < "acquisition" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquisition_n_of_rel", PHON.ONSET voc ] ]. acquit_of_v1 := v_np-pp_e_le & [ STEM < "acquit" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_acquit_v_of_rel" ], PHON.ONSET voc ] ]. acquit_v1 := v_np*_le & [ STEM < "acquit" >, SYNSEM [ LKEYS.KEYREL.PRED "_acquit_v_of_rel", PHON.ONSET voc ] ]. acre_n1 := n_-_c-meas_le & [ STEM < "acre" >, SYNSEM [ LKEYS.KEYREL.PRED "_acre_n_1_rel", PHON.ONSET voc ] ]. acre_n2 := n_-_pn_le & [ STEM < "Acre" >, SYNSEM [ LKEYS.KEYREL.CARG "Acre", PHON.ONSET voc ] ]. acreage_n1 := n_-_mc_le & [ STEM < "acreage" >, SYNSEM [ LKEYS.KEYREL.PRED "_acreage_n_1_rel", PHON.ONSET voc ] ]. acrobat_n1 := n_-_c_le & [ STEM < "acrobat" >, SYNSEM [ LKEYS.KEYREL.PRED "_acrobat_n_1_rel", PHON.ONSET voc ] ]. acrobatic_a1 := aj_-_i_le & [ STEM < "acrobatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acrobatic_a_1_rel", PHON.ONSET voc ] ]. acrobatics_n1 := n_-_c-pl-nocnh_le & [ STEM < "acrobatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_acrobatics_n_1_rel", PHON.ONSET voc ] ]. acrolect_n1 := n_-_c_le & [ STEM < "acrolect" >, SYNSEM [ LKEYS.KEYREL.PRED "_acrolect_n_1_rel", PHON.ONSET voc ] ]. acronym_n1 := n_-_c_le & [ STEM < "acronym" >, SYNSEM [ LKEYS.KEYREL.PRED "_acronym_n_1_rel", PHON.ONSET voc ] ]. acrophobia_n1 := n_-_m_le & [ STEM < "acrophobia" >, SYNSEM [ LKEYS.KEYREL.PRED "_acrophobia_n_1_rel", PHON.ONSET voc ] ]. across := p_np_i-reg_le & [ STEM < "across" >, SYNSEM [ LKEYS.KEYREL.PRED _across_p_rel, PHON.ONSET voc ] ]. across_pp := pp_-_i_le & [ STEM < "across" >, SYNSEM [ LKEYS.KEYREL.PRED _across_p_rel, PHON.ONSET voc ] ]. across_prtcl := p_np_ptcl_le & [ STEM < "across" >, SYNSEM [ LKEYS.KEYREL.PRED _across_p_sel_rel, PHON.ONSET voc ] ]. acs_n1 := n_-_pn_le & [ STEM < "ACS" >, SYNSEM [ LKEYS.KEYREL.CARG "ACS", PHON.ONSET voc ] ]. acs_n2 := n_-_c-nm_le & [ STEM < "ACS" >, SYNSEM [ LKEYS.KEYREL.CARG "ACS", PHON.ONSET voc ] ]. act_as_v1 := v_pp_e_le & [ STEM < "act" >, SYNSEM [ LKEYS [ --COMPKEY _as_p_sel_rel, KEYREL.PRED "_act_v_as_rel" ], PHON.ONSET voc ] ]. act_n1 := n_pp_c-of_le & [ STEM < "act" >, SYNSEM [ LKEYS.KEYREL.PRED "_act_n_of_rel", PHON.ONSET voc ] ]. act_on_v1 := v_pp_e_le & [ STEM < "act" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_act_v_on_rel" ], PHON.ONSET voc ] ]. act_seem_v1 := v_ap-pp_seq_le & [ STEM < "act" >, SYNSEM [ LKEYS.KEYREL.PRED "_act_v_seem+to_rel", PHON.ONSET voc ] ]. act_up_v1 := v_p_le & [ STEM < "act" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_act_v_up_rel" ], PHON.ONSET voc ] ]. act_v1 := v_-_le & [ STEM < "act" >, SYNSEM [ LKEYS.KEYREL.PRED "_act_v_1_rel", PHON.ONSET voc ] ]. act_v2 := v_cp_like_le & [ STEM < "act" >, SYNSEM [ LKEYS.KEYREL.PRED "_act_v_1_rel", PHON.ONSET voc ] ]. actinal_a1 := aj_-_i_le & [ STEM < "actinal" >, SYNSEM [ LKEYS.KEYREL.PRED "_actinal_a_1_rel", PHON.ONSET voc ] ]. action_n1 := n_-_mc_le & [ STEM < "action" >, SYNSEM [ LKEYS.KEYREL.PRED "_action_n_1_rel", PHON.ONSET voc ] ]. activate_v1 := v_np*_le & [ STEM < "activate" >, SYNSEM [ LKEYS.KEYREL.PRED "_activate_v_1_rel", PHON.ONSET voc ] ]. activation_n1 := n_-_mc_le & [ STEM < "activation" >, SYNSEM [ LKEYS.KEYREL.PRED "_activation_n_1_rel", PHON.ONSET voc ] ]. active_a1 := aj_-_i_le & [ STEM < "active" >, SYNSEM [ LKEYS.KEYREL.PRED "_active_a_1_rel", PHON.ONSET voc ] ]. actively_adv := av_-_i-vp_le & [ STEM < "actively" >, SYNSEM [ LKEYS.KEYREL.PRED "_active_a_1_rel", PHON.ONSET voc ] ]. activist_n1 := n_-_c_le & [ STEM < "activist" >, SYNSEM [ LKEYS.KEYREL.PRED "_activist_n_1_rel", PHON.ONSET voc ] ]. activity_n1 := n_-_mc-ns_le & [ STEM < "activity" >, SYNSEM [ LKEYS.KEYREL.PRED "_activity_n_1_rel", PHON.ONSET voc ] ]. actor_n1 := n_-_c_le & [ STEM < "actor" >, SYNSEM [ LKEYS.KEYREL.PRED "_actor_n_1_rel", PHON.ONSET voc ] ]. actress_n1 := n_-_c_le & [ STEM < "actress" >, SYNSEM [ LKEYS.KEYREL.PRED "_actress_n_1_rel", PHON.ONSET voc ] ]. actual_a1 := aj_-_i_le & [ STEM < "actual" >, SYNSEM [ LKEYS.KEYREL.PRED "_actual_a_1_rel", PHON.ONSET voc ] ]. actuality_n1 := n_-_mc_le & [ STEM < "actuality" >, SYNSEM [ LKEYS.KEYREL.PRED "_actuality_n_1_rel", PHON.ONSET voc ] ]. actually_adv1 := av_-_s-vp-x_le & [ STEM < "actually" >, SYNSEM [ LKEYS.KEYREL.PRED "_actual_a_1_rel", PHON.ONSET voc ] ]. actually_adv2 := av_-_s-cp_le & [ STEM < "actually" >, SYNSEM [ LKEYS.KEYREL.PRED "_actual_a_1_rel", PHON.ONSET voc ] ]. actuate_v1 := v_np_le & [ STEM < "actuate" >, SYNSEM [ LKEYS.KEYREL.PRED "_actuate_v_1_rel", PHON.ONSET voc ] ]. acute_a1 := aj_-_i_le & [ STEM < "acute" >, SYNSEM [ LKEYS.KEYREL.PRED "_acute_a_1_rel", PHON.ONSET voc ] ]. acutely_adv1 := av_-_i-vp_le & [ STEM < "acutely" >, SYNSEM [ LKEYS.KEYREL.PRED "_acute_a_1_rel", PHON.ONSET voc ] ]. ad_hoc_a1 := aj_-_i_le & [ STEM < "ad", "hoc" >, SYNSEM [ LKEYS.KEYREL.PRED "_ad+hoc_a_1_rel", PHON.ONSET voc ] ]. ad_n1 := n_-_c_le & [ STEM < "ad" >, SYNSEM [ LKEYS.KEYREL.PRED "_ad_n_1_rel", PHON.ONSET voc ] ]. ad_temp_1 := x_-_bc-ad_le & [ STEM < "AD" >, SYNSEM [ LKEYS.KEYREL [ CARG "AD_time", PRED "_ad_x_rel" ], PHON.ONSET voc ] ]. ad_temp_2 := x_-_bc-ad_le & [ STEM < "A", "D" >, SYNSEM [ LKEYS.KEYREL [ CARG "AD_time", PRED "_ad_x_rel" ], PHON.ONSET voc ] ]. ad_temp_3 := x_-_bc-ad_le & [ STEM < "A.D." >, SYNSEM [ LKEYS.KEYREL [ CARG "AD_time", PRED "_ad_x_rel" ], PHON.ONSET voc ] ]. ad_temp_4 := x_-_bc-ad_le & [ STEM < "A.D" >, SYNSEM [ LKEYS.KEYREL [ CARG "AD_time", PRED "_ad_x_rel" ], PHON.ONSET voc ] ]. ada_n1 := n_-_pn_le & [ STEM < "Ada" >, SYNSEM [ LKEYS.KEYREL.CARG "Ada", PHON.ONSET voc ] ]. adage_n1 := n_-_c_le & [ STEM < "adage" >, SYNSEM [ LKEYS.KEYREL.PRED "_adage_n_1_rel", PHON.ONSET voc ] ]. adam_n1 := n_-_pn_le & [ STEM < "Adam" >, SYNSEM [ LKEYS.KEYREL.CARG "Adam", PHON.ONSET voc ] ]. adame_n1 := n_-_pn_le & [ STEM < "Adame" >, SYNSEM [ LKEYS.KEYREL.CARG "Adame", PHON.ONSET voc ] ]. adams_n1 := n_-_pn_le & [ STEM < "Adams" >, SYNSEM [ LKEYS.KEYREL.CARG "Adams", PHON.ONSET voc ] ]. adapt_to_v2 := v_np-pp_e_le & [ STEM < "adapt" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_adapt_v_to_rel" ], PHON.ONSET voc ] ]. adapt_v1 := v_pp_e_le & [ STEM < "adapt" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_adapt_v_to_rel" ], PHON.ONSET voc ] ]. adapt_v2 := v_np*_le & [ STEM < "adapt" >, SYNSEM [ LKEYS.KEYREL.PRED "_adapt_v_1_rel", PHON.ONSET voc ] ]. adaptable_a1 := aj_-_i_le & [ STEM < "adaptable" >, SYNSEM [ LKEYS.KEYREL.PRED "_adaptable_a_1_rel", PHON.ONSET voc ] ]. adaptation_n1 := n_-_mc_le & [ STEM < "adaptation" >, SYNSEM [ LKEYS.KEYREL.PRED "_adaptation_n_1_rel", PHON.ONSET voc ] ]. add_on_n1 := n_-_c_le & [ STEM < "add-", "on" >, SYNSEM [ LKEYS.KEYREL.PRED "_add+on_n_1_rel", PHON.ONSET voc ] ]. add_on_n2 := n_-_c_le & [ STEM < "add", "on" >, SYNSEM [ LKEYS.KEYREL.PRED "_add+on_n_1_rel", PHON.ONSET voc ] ]. add_on_v1 := v_p-np_le & [ STEM < "add" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_add_v_on_rel" ], PHON.ONSET voc ] ]. add_to_v1 := v_np*-pp_to_le & [ STEM < "add" >, SYNSEM [ LKEYS.KEYREL.PRED "_add_v_to_rel", PHON.ONSET voc ] ]. add_up_to_v1 := v_p-pp_e_le & [ STEM < "add" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_add_v_up-to_rel" ], PHON.ONSET voc ] ]. add_up_v1 := v_p-np_le & [ STEM < "add" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_add_v_up_rel" ], PHON.ONSET voc ] ]. add_up_v2 := v_p_le & [ STEM < "add" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_add_v_up_rel" ], PHON.ONSET voc ] ]. add_v1 := v_np_le & [ STEM < "add" >, SYNSEM [ LKEYS.KEYREL.PRED "_add_v_to_rel", PHON.ONSET voc ] ]. add_v2 := v_cp_le & [ STEM < "add" >, SYNSEM [ LKEYS.KEYREL.PRED "_add_v_to_rel", PHON.ONSET voc ] ]. added_a1 := aj_-_i-att_le & [ STEM < "added" >, SYNSEM [ LKEYS.KEYREL.PRED "_added_a_1_rel", PHON.ONSET voc ] ]. addict_n1 := n_-_c_le & [ STEM < "addict" >, SYNSEM [ LKEYS.KEYREL.PRED "_addict_n_1_rel", PHON.ONSET voc ] ]. addict_v1 := v_np-pp_to_le & [ STEM < "addict" >, SYNSEM [ LKEYS.KEYREL.PRED "_addict_v_to_rel", PHON.ONSET voc ] ]. addicted_a1 := aj_-_i_le & [ STEM < "addicted" >, SYNSEM [ LKEYS.KEYREL.PRED "_addicted_a_1_rel", PHON.ONSET voc ] ]. addiction_n1 := n_pp_mc_le & [ STEM < "addiction" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_addiction_n_to_rel" ], PHON.ONSET voc ] ]. addictive_a1 := aj_-_i_le & [ STEM < "addictive" >, SYNSEM [ LKEYS.KEYREL.PRED "_addictive_a_1_rel", PHON.ONSET voc ] ]. addison_n1 := n_-_pn_le & [ STEM < "Addison" >, SYNSEM [ LKEYS.KEYREL.CARG "Addison", PHON.ONSET voc ] ]. addition_n1 := n_-_mc_le & [ STEM < "addition" >, SYNSEM [ LKEYS.KEYREL.PRED "_addition_n_1_rel", PHON.ONSET voc ] ]. additional_a1 := aj_-_i_le & [ STEM < "additional" >, SYNSEM [ LKEYS.KEYREL.PRED "_additional_a_1_rel", PHON.ONSET voc ] ]. additionally_isect := av_-_i-vp_le & [ STEM < "additionally" >, SYNSEM [ LKEYS.KEYREL.PRED "_additional_a_1_rel", PHON.ONSET voc ] ]. address_n1 := n_-_c_le & [ STEM < "address" >, SYNSEM [ LKEYS.KEYREL.PRED "_address_n_1_rel", PHON.ONSET voc ] ]. address_v1 := v_np-pp*_to_le & [ STEM < "address" >, SYNSEM [ LKEYS.KEYREL.PRED "_address_v_to_rel", PHON.ONSET voc ] ]. addressee_n1 := n_-_c_le & [ STEM < "addressee" >, SYNSEM [ LKEYS.KEYREL.PRED "_addressee_n_1_rel", PHON.ONSET voc ] ]. adduce_v1 := v_np_le & [ STEM < "adduce" >, SYNSEM [ LKEYS.KEYREL.PRED "_adduce_v_1_rel", PHON.ONSET voc ] ]. adele_n1 := n_-_pn_le & [ STEM < "Adele" >, SYNSEM [ LKEYS.KEYREL.CARG "Adele", PHON.ONSET voc ] ]. adept_a1 := aj_-_i_le & [ STEM < "adept" >, SYNSEM [ LKEYS.KEYREL.PRED "_adept_a_1_rel", PHON.ONSET voc ] ]. adept_n1 := n_-_c-nocnh_le & [ STEM < "adept" >, SYNSEM [ LKEYS.KEYREL.PRED "_adept_n_1_rel", PHON.ONSET voc ] ]. adequate_isect := aj_-_i_le & [ STEM < "adequate" >, SYNSEM [ LKEYS.KEYREL.PRED "_adequate_a_1_rel", PHON.ONSET voc ] ]. adequately_isect := av_-_i-vp_le & [ STEM < "adequately" >, SYNSEM [ LKEYS.KEYREL.PRED "_adequate_a_1_rel", PHON.ONSET voc ] ]. adhere_to_v1 := v_pp_e_le & [ STEM < "adhere" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_adhere_v_to_rel" ], PHON.ONSET voc ] ]. adhere_v1 := v_-_le & [ STEM < "adhere" >, SYNSEM [ LKEYS.KEYREL.PRED "_adhere_v_1_rel", PHON.ONSET voc ] ]. adherence_n1 := n_-_m_le & [ STEM < "adherence" >, SYNSEM [ LKEYS.KEYREL.PRED "_adherence_n_1_rel", PHON.ONSET voc ] ]. adherent_a1 := aj_-_i_le & [ STEM < "adherent" >, SYNSEM [ LKEYS.KEYREL.PRED "_adherent_a_1_rel", PHON.ONSET voc ] ]. adherent_n1 := n_-_c_le & [ STEM < "adherent" >, SYNSEM [ LKEYS.KEYREL.PRED "_adherent_n_1_rel", PHON.ONSET voc ] ]. adhesive_a1 := aj_-_i_le & [ STEM < "adhesive" >, SYNSEM [ LKEYS.KEYREL.PRED "_adhesive_a_1_rel", PHON.ONSET voc ] ]. adhesive_n1 := n_-_c-nocnh_le & [ STEM < "adhesive" >, SYNSEM [ LKEYS.KEYREL.PRED "_adhesive_n_1_rel", PHON.ONSET voc ] ]. adhesive_n2 := n_-_m-nocnh_le & [ STEM < "adhesive" >, SYNSEM [ LKEYS.KEYREL.PRED "_adhesive_n_1_rel", PHON.ONSET voc ] ]. adieu_n1 := n_-_c_le & [ STEM < "adieu" >, SYNSEM [ LKEYS.KEYREL.PRED "_adieu_n_1_rel", PHON.ONSET voc ] ]. adieu_root_pre := av_-_dc-grt-pr_le & [ STEM < "adieu" >, SYNSEM [ LKEYS.KEYREL.CARG "adieu", PHON.ONSET voc ] ]. adipose_a1 := aj_-_i_le & [ STEM < "adipose" >, SYNSEM [ LKEYS.KEYREL.PRED "_adipose_a_1_rel", PHON.ONSET voc ] ]. adj_abb_n1 := n_-_c_le & [ STEM < "adj." >, SYNSEM [ LKEYS.KEYREL.PRED "_adjective_n_1_rel", PHON.ONSET voc ] ]. adj_abb_n2 := n_-_c_le & [ STEM < "adj" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjective_n_1_rel", PHON.ONSET voc ] ]. adjacent_a1 := aj_-_i_le & [ STEM < "adjacent" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjacent_a_1_rel", PHON.ONSET voc ] ]. adjectivally := av_-_i-vp_le & [ STEM < "adjectivally" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjectival_a_1_rel", PHON.ONSET voc ] ]. adjective_n1 := n_-_c_le & [ STEM < "adjective" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjective_n_1_rel", PHON.ONSET voc ] ]. adjectively := av_-_i-vp_le & [ STEM < "adjectively" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjective_a_1_rel", PHON.ONSET voc ] ]. adjoin_v1 := v_np_le & [ STEM < "adjoin" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjoin_v_1_rel", PHON.ONSET voc ] ]. adjoin_v2 := v_np-pp_prop_le & [ STEM < "adjoin" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjoin_v_1_rel", PHON.ONSET voc ] ]. adjourn_v1 := v_np_le & [ STEM < "adjourn" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjourn_v_1_rel", PHON.ONSET voc ] ]. adjudge_v1 := v_np_le & [ STEM < "adjudge" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjudge_v_1_rel", PHON.ONSET voc ] ]. adjudge_v2 := v_cp_le & [ STEM < "adjudge" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjudge_v_1_rel", PHON.ONSET voc ] ]. adjunct_a1 := aj_-_i_le & [ STEM < "adjunct" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjunct_a_1_rel", PHON.ONSET voc ] ]. adjunct_n1 := n_-_c_le & [ STEM < "adjunct" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjunct_n_1_rel", PHON.ONSET voc ] ]. adjust_to_v1 := v_pp_le & [ STEM < "adjust" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, KEYREL.PRED "_adjust_v_1_rel" ], PHON.ONSET voc ] ]. adjust_v1 := v_np*_le & [ STEM < "adjust" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjust_v_to_rel", PHON.ONSET voc ] ]. adjust_v2 := v_np-pp_to_le & [ STEM < "adjust" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjust_v_to_rel", PHON.ONSET voc ] ]. adjustable_a1 := aj_-_i_le & [ STEM < "adjustable" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjustable_a_1_rel", PHON.ONSET voc ] ]. adjustment_n1 := n_-_mc_le & [ STEM < "adjustment" >, SYNSEM [ LKEYS.KEYREL.PRED "_adjustment_n_1_rel", PHON.ONSET voc ] ]. adlai_n1 := n_-_pn_le & [ STEM < "Adlai" >, SYNSEM [ LKEYS.KEYREL.CARG "Adlai", PHON.ONSET voc ] ]. adler_n1 := n_-_pn_le & [ STEM < "Adler" >, SYNSEM [ LKEYS.KEYREL.CARG "Adler", PHON.ONSET voc ] ]. admin_n1 := n_-_c_le & [ STEM < "admin" >, SYNSEM [ LKEYS.KEYREL.PRED "_admin_n_1_rel", PHON.ONSET voc ] ]. administer_v1 := v_np-pp*_to_le & [ STEM < "administer" >, SYNSEM [ LKEYS.KEYREL.PRED "_administer_v_to_rel", PHON.ONSET voc ] ]. administration_n1 := n_pp_mc-of_le & [ STEM < "administration" >, SYNSEM [ LKEYS.KEYREL.PRED "_administration_n_of_rel", PHON.ONSET voc ] ]. administrative_isect := aj_-_i_le & [ STEM < "administrative" >, SYNSEM [ LKEYS.KEYREL.PRED "_administrative_a_1_rel", PHON.ONSET voc ] ]. administratively_adv1 := av_-_i-vp_le & [ STEM < "administratively" >, SYNSEM [ LKEYS.KEYREL.PRED "_administrative_a_1_rel", PHON.ONSET voc ] ]. administrator_n1 := n_pp_c-of_le & [ STEM < "administrator" >, SYNSEM [ LKEYS.KEYREL.PRED "_administrator_n_of_rel", PHON.ONSET voc ] ]. admirable_a1 := aj_-_i_le & [ STEM < "admirable" >, SYNSEM [ LKEYS.KEYREL.PRED "_admirable_a_1_rel", PHON.ONSET voc ] ]. admiral_n1 := n_-_c_le & [ STEM < "admiral" >, SYNSEM [ LKEYS.KEYREL.PRED "_admiral_n_1_rel", PHON.ONSET voc ] ]. admiration_n1 := n_pp_m_le & [ STEM < "admiration" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_admiration_n_of_rel" ], PHON.ONSET voc ] ]. admire_v1 := v_np_le & [ STEM < "admire" >, SYNSEM [ LKEYS.KEYREL.PRED "_admire_v_1_rel", PHON.ONSET voc ] ]. admire_v2 := v_cp_comp_le & [ STEM < "admire" >, SYNSEM [ LKEYS.KEYREL.PRED "_admire_v_1_rel", PHON.ONSET voc ] ]. admission_n1 := n_pp_mc-of_le & [ STEM < "admission" >, SYNSEM [ LKEYS.KEYREL.PRED "_admission_n_of_rel", PHON.ONSET voc ] ]. admit_to_v1 := v_pp_e_le & [ STEM < "admit" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_admit_v_to_rel" ], PHON.ONSET voc ] ]. admit_v1 := v_np*_le & [ STEM < "admit" >, SYNSEM [ LKEYS.KEYREL.PRED "_admit_v_to_rel", PHON.ONSET voc ] ]. admit_v2 := v_cp_le & [ STEM < "admit" >, SYNSEM [ LKEYS.KEYREL.PRED "_admit_v_to_rel", PHON.ONSET voc ] ]. admit_v3 := v_np-pp_to_le & [ STEM < "admit" >, SYNSEM [ LKEYS.KEYREL.PRED "_admit_v_to_rel", PHON.ONSET voc ] ]. admittedly_adv1 := av_-_i-vp_le & [ STEM < "admittedly" >, SYNSEM [ LKEYS.KEYREL.PRED "_admitted_a_1_rel", PHON.ONSET voc ] ]. ado_n1 := n_-_m_le & [ STEM < "ado" >, SYNSEM [ LKEYS.KEYREL.PRED "_ado_n_1_rel", PHON.ONSET voc ] ]. adobe_n1 := n_-_pn_le & [ STEM < "Adobe" >, SYNSEM [ LKEYS.KEYREL.CARG "Adobe", PHON.ONSET voc ] ]. adolescent_a1 := aj_-_i_le & [ STEM < "adolescent" >, SYNSEM [ LKEYS.KEYREL.PRED "_adolescent_a_1_rel", PHON.ONSET voc ] ]. adolescent_n1 := n_-_c_le & [ STEM < "adolescent" >, SYNSEM [ LKEYS.KEYREL.PRED "_adolescent_n_1_rel", PHON.ONSET voc ] ]. adopt_v1 := v_np*_le & [ STEM < "adopt" >, SYNSEM [ LKEYS.KEYREL.PRED "_adopt_v_1_rel", PHON.ONSET voc ] ]. adoption_n1 := n_-_m_le & [ STEM < "adoption" >, SYNSEM [ LKEYS.KEYREL.PRED "_adoption_n_1_rel", PHON.ONSET voc ] ]. adore_v1 := v_np_le & [ STEM < "adore" >, SYNSEM [ LKEYS.KEYREL.PRED "_adore_v_1_rel", PHON.ONSET voc ] ]. adorn_v1 := v_np_le & [ STEM < "adorn" >, SYNSEM [ LKEYS.KEYREL.PRED "_adorn_v_1_rel", PHON.ONSET voc ] ]. adrenaline_n1 := n_-_c_le & [ STEM < "adrenaline" >, SYNSEM [ LKEYS.KEYREL.PRED "_adrenaline_n_1_rel", PHON.ONSET voc ] ]. adrian_n1 := n_-_pn_le & [ STEM < "Adrian" >, SYNSEM [ LKEYS.KEYREL.CARG "Adrian", PHON.ONSET voc ] ]. adrien_n1 := n_-_pn_le & [ STEM < "Adrien" >, SYNSEM [ LKEYS.KEYREL.CARG "Adrien", PHON.ONSET voc ] ]. adult_a1 := aj_-_i_le & [ STEM < "adult" >, SYNSEM [ LKEYS.KEYREL.PRED "_adult_a_1_rel", PHON.ONSET voc ] ]. adult_n1 := n_-_c-nocnh_le & [ STEM < "adult" >, SYNSEM [ LKEYS.KEYREL.PRED "_adult_n_1_rel", PHON.ONSET voc ] ]. adulthood_n1 := n_-_m_le & [ STEM < "adulthood" >, SYNSEM [ LKEYS.KEYREL.PRED "_adulthood_n_1_rel", PHON.ONSET voc ] ]. adv_abb_n1 := n_-_c_le & [ STEM < "adv." >, SYNSEM [ LKEYS.KEYREL.PRED "_adverb_n_1_rel", PHON.ONSET voc ] ]. adv_abb_n2 := n_-_c_le & [ STEM < "adv" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverb_n_1_rel", PHON.ONSET voc ] ]. advance_i_n1 := n_-_c-brno_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_n_1_rel", PHON.ONSET voc ] ]. advance_n1 := n_-_c_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_n_1_rel", PHON.ONSET voc ] ]. advance_v1 := v_np_noger_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_v_1_rel", PHON.ONSET voc ] ]. advance_v2 := v_np-np_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_v_1_rel", PHON.ONSET voc ] ]. advance_v3 := v_pp*_dir_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_v_1_rel", PHON.ONSET voc ] ]. advance_v4 := v_np-np*-vp_it-s_le & [ STEM < "advance" >, SYNSEM [ LKEYS.KEYREL.PRED "_advance_v_x_rel", PHON.ONSET voc ] ]. advanced_a1 := aj_-_i_le & [ STEM < "advanced" >, SYNSEM [ LKEYS.KEYREL.PRED "_advanced_a_1_rel", PHON.ONSET voc ] ]. advancement_n1 := n_-_mc_le & [ STEM < "advancement" >, SYNSEM [ LKEYS.KEYREL.PRED "_advancement_n_1_rel", PHON.ONSET voc ] ]. advantage_n1 := n_-_mc-ns_le & [ STEM < "advantage" >, SYNSEM [ LKEYS.KEYREL.PRED "_advantage_n_1_rel", PHON.ONSET voc ] ]. advantage_n1_i := n_-_c-br-idm_le & [ STEM < "advantage" >, SYNSEM [ LKEYS.KEYREL.PRED "_advantage_n_i_rel", PHON.ONSET voc ] ]. advantage_n2 := n_cp_c-fin_le & [ STEM < "advantage" >, SYNSEM [ LKEYS.KEYREL.PRED "_advantage_n_1_rel", PHON.ONSET voc ] ]. advantageous_a1 := aj_-_i_le & [ STEM < "advantageous" >, SYNSEM [ LKEYS.KEYREL.PRED "_advantageous_a_1_rel", PHON.ONSET voc ] ]. advantageously_adv1 := av_-_i-vp_le & [ STEM < "advantageously" >, SYNSEM [ LKEYS.KEYREL.PRED "_advantageous_a_1_rel", PHON.ONSET voc ] ]. advent_n := n_-_c_le & [ STEM < "advent" >, SYNSEM [ LKEYS.KEYREL.PRED "_advent_n_1_rel", PHON.ONSET voc ] ]. advent_n1 := n_-_m-hldy_le & [ STEM < "Advent" >, SYNSEM [ LKEYS.KEYREL.CARG "Advent", PHON.ONSET voc ] ]. advent_n2 := n_-_m-ssn-spr_le & [ STEM < "Advent" >, SYNSEM [ LKEYS.KEYREL.CARG "Advent", PHON.ONSET voc ] ]. advent_n3 := n_np_m-ssn_le & [ STEM < "Advent" >, SYNSEM [ LKEYS.KEYREL.CARG "Advent", PHON.ONSET voc ] ]. adventure_n1 := n_-_mc_le & [ STEM < "adventure" >, SYNSEM [ LKEYS.KEYREL.PRED "_adventure_n_1_rel", PHON.ONSET voc ] ]. adventurer_n1 := n_-_c_le & [ STEM < "adventurer" >, SYNSEM [ LKEYS.KEYREL.PRED "_adventurer_n_1_rel", PHON.ONSET voc ] ]. adventuresome_a1 := aj_-_i_le & [ STEM < "adventuresome" >, SYNSEM [ LKEYS.KEYREL.PRED "_adventuresome_a_1_rel", PHON.ONSET voc ] ]. adventurous_a1 := aj_-_i_le & [ STEM < "adventurous" >, SYNSEM [ LKEYS.KEYREL.PRED "_adventurous_a_1_rel", PHON.ONSET voc ] ]. adventurous_n1 := n_-_c-pl-def_le & [ STEM < "adventurous" >, SYNSEM [ LKEYS.KEYREL.PRED "_adventurous_n_1_rel", PHON.ONSET voc ] ]. adverb_n1 := n_-_c_le & [ STEM < "adverb" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverb_n_1_rel", PHON.ONSET voc ] ]. adverbal_a1 := aj_-_i_le & [ STEM < "adverbal" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverbal_a_1_rel", PHON.ONSET voc ] ]. adverbial_a1 := aj_-_i_le & [ STEM < "adverbial" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverbial_a_1_rel", PHON.ONSET voc ] ]. adversary_n1 := n_-_c_le & [ STEM < "adversary" >, SYNSEM [ LKEYS.KEYREL.PRED "_adversary_n_1_rel", PHON.ONSET voc ] ]. adversative_a1 := aj_-_i_le & [ STEM < "adversative" >, SYNSEM [ LKEYS.KEYREL.PRED "_adversative_a_1_rel", PHON.ONSET voc ] ]. adverse_a1 := aj_-_i_le & [ STEM < "adverse" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverse_a_1_rel", PHON.ONSET voc ] ]. adversely := av_-_i-vp_le & [ STEM < "adversely" >, SYNSEM [ LKEYS.KEYREL.PRED "_adverse_a_1_rel", PHON.ONSET voc ] ]. advertise_for_v1 := v_pp_e_le & [ STEM < "advertise" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_advertise_v_for_rel" ], PHON.ONSET voc ] ]. advertise_v1 := v_np*_le & [ STEM < "advertise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advertise_v_1_rel", PHON.ONSET voc ] ]. advertise_v2 := v_np-pp_oeq-as_le & [ STEM < "advertise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advertise_v_as_rel", PHON.ONSET voc ] ]. advertisement_n1 := n_-_c_le & [ STEM < "advertisement" >, SYNSEM [ LKEYS.KEYREL.PRED "_advertisement_n_1_rel", PHON.ONSET voc ] ]. advice_n1 := n_-_m_le & [ STEM < "advice" >, SYNSEM [ LKEYS.KEYREL.PRED "_advice_n_1_rel", PHON.ONSET voc ] ]. advisable_a1 := aj_-_i_le & [ STEM < "advisable" >, SYNSEM [ LKEYS.KEYREL.PRED "_advisable_a_1_rel", PHON.ONSET voc ] ]. advisable_a2 := aj_pp-vp_i-it_le & [ STEM < "advisable" >, SYNSEM [ LKEYS.KEYREL.PRED "_advisable_a_1_rel", PHON.ONSET voc ] ]. advise_against_v1 := v_pp_e_le & [ STEM < "advise" >, SYNSEM [ LKEYS [ --COMPKEY _against_p_sel_rel, KEYREL.PRED "_advise_v_against_rel" ], PHON.ONSET voc ] ]. advise_rbst_v1 := v_vp_seq-rbst_le & [ STEM < "advise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advise_v_1_rel", PHON.ONSET voc ] ]. advise_v1 := v_np*_le & [ STEM < "advise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advise_v_1_rel", PHON.ONSET voc ] ]. advise_v2 := v_np*-cp_le & [ STEM < "advise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advise_v_1_rel", PHON.ONSET voc ] ]. advise_v3 := v_np*-pp_e_le & [ STEM < "advise" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_advise_v_of_rel" ], PHON.ONSET voc ] ]. advise_v4 := v_np-vp_oeq_le & [ STEM < "advise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advise_v_1_rel", PHON.ONSET voc ] ]. advise_v5 := v_np-pp_oeq-as_le & [ STEM < "advise" >, SYNSEM [ LKEYS.KEYREL.PRED "_advise_v_as_rel", PHON.ONSET voc ] ]. adviser_n1 := n_-_c_le & [ STEM < "adviser" >, SYNSEM [ LKEYS.KEYREL.PRED "_adviser_n_1_rel", PHON.ONSET voc ] ]. advisor_n1 := n_-_c_le & [ STEM < "advisor" >, SYNSEM [ LKEYS.KEYREL.PRED "_advisor_n_1_rel", PHON.ONSET voc ] ]. advisory_a1 := aj_-_i_le & [ STEM < "advisory" >, SYNSEM [ LKEYS.KEYREL.PRED "_advisory_a_1_rel", PHON.ONSET voc ] ]. advisory_n1 := n_-_c_le & [ STEM < "advisory" >, SYNSEM [ LKEYS.KEYREL.PRED "_advisory_n_1_rel", PHON.ONSET voc ] ]. advocate_n1 := n_-_c_le & [ STEM < "advocate" >, SYNSEM [ LKEYS.KEYREL.PRED "_advocate_n_1_rel", PHON.ONSET voc ] ]. advocate_v1 := v_np_le & [ STEM < "advocate" >, SYNSEM [ LKEYS.KEYREL.PRED "_advocate_v_1_rel", PHON.ONSET voc ] ]. advocate_v2 := v_cp_prop_le & [ STEM < "advocate" >, SYNSEM [ LKEYS.KEYREL.PRED "_advocate_v_1_rel", PHON.ONSET voc ] ]. advocate_v3 := v_np-pp_oeq-as_le & [ STEM < "advocate" >, SYNSEM [ LKEYS.KEYREL.PRED "_advocate_v_as_rel", PHON.ONSET voc ] ]. aea_n1 := n_-_pn_le & [ STEM < "AEA" >, SYNSEM [ LKEYS.KEYREL.CARG "AEA", PHON.ONSET voc ] ]. aerial_a1 := aj_-_i_le & [ STEM < "aerial" >, SYNSEM [ LKEYS.KEYREL.PRED "_aerial_a_1_rel", PHON.ONSET voc ] ]. aerial_n1 := n_-_c_le & [ STEM < "aerial" >, SYNSEM [ LKEYS.KEYREL.PRED "_aerial_n_1_rel", PHON.ONSET voc ] ]. aerobatic_a1 := aj_-_i_le & [ STEM < "aerobatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aerobatic_a_1_rel", PHON.ONSET voc ] ]. aerobatics_n1 := n_-_c-pl-nocnh_le & [ STEM < "aerobatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aerobatics_n_1_rel", PHON.ONSET voc ] ]. aeronautical_a1 := aj_-_i_le & [ STEM < "aeronautical" >, SYNSEM [ LKEYS.KEYREL.PRED "_aeronautical_a_1_rel", PHON.ONSET voc ] ]. aerospace_a1 := aj_-_i_le & [ STEM < "aerospace" >, SYNSEM [ LKEYS.KEYREL.PRED "_aerospace_a_1_rel", PHON.ONSET voc ] ]. aes_n1 := n_-_pn_le & [ STEM < "AES" >, SYNSEM [ LKEYS.KEYREL.CARG "AES", PHON.ONSET voc ] ]. aesthetic_a1 := aj_-_i_le & [ STEM < "aesthetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aesthetic_a_1_rel", PHON.ONSET voc ] ]. aesthetic_n1 := n_-_c_le & [ STEM < "aesthetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aesthetic_n_1_rel", PHON.ONSET voc ] ]. affair_n1 := n_-_c_le & [ STEM < "affair" >, SYNSEM [ LKEYS.KEYREL.PRED "_affair_n_1_rel", PHON.ONSET voc ] ]. affect_n1 := n_-_mc_le & [ STEM < "affect" >, SYNSEM [ LKEYS.KEYREL.PRED "_affect_n_1_rel", PHON.ONSET voc ] ]. affect_v1 := v_np_le & [ STEM < "affect" >, SYNSEM [ LKEYS.KEYREL.PRED "_affect_v_1_rel", PHON.ONSET voc ] ]. affect_v2 := v_np-cp_it-s_le & [ STEM < "affect" >, SYNSEM [ LKEYS.KEYREL.PRED "_affect_v_x_rel", PHON.ONSET voc ] ]. affection_n1 := n_-_mc_le & [ STEM < "affection" >, SYNSEM [ LKEYS.KEYREL.PRED "_affection_n_1_rel", PHON.ONSET voc ] ]. affectionate_a1 := aj_-_i_le & [ STEM < "affectionate" >, SYNSEM [ LKEYS.KEYREL.PRED "_affectionate_a_1_rel", PHON.ONSET voc ] ]. affianced_a1 := v_-_psv_le & [ STEM < "affianced" >, SYNSEM [ LKEYS.KEYREL.PRED "_affiance_v_1_rel", PHON.ONSET voc ] ]. affiliate_n1 := n_pp_c-of_le & [ STEM < "affiliate" >, SYNSEM [ LKEYS.KEYREL.PRED "_affiliate_n_of_rel", PHON.ONSET voc ] ]. affiliate_v1 := v_np_le & [ STEM < "affiliate" >, SYNSEM [ LKEYS.KEYREL.PRED "_affiliate_v_with_rel", PHON.ONSET voc ] ]. affiliate_with_v1 := v_np-pp_e_le & [ STEM < "affiliate" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_affiliate_v_with_rel" ], PHON.ONSET voc ] ]. affiliate_with_v2 := v_pp_e_le & [ STEM < "affiliate" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_affiliate_v_with_rel" ], PHON.ONSET voc ] ]. affinity_n1 := n_pp_mc-for_le & [ STEM < "affinity" >, SYNSEM [ LKEYS.KEYREL.PRED "_affinity_n_for_rel", PHON.ONSET voc ] ]. affirm_v1 := v_np_le & [ STEM < "affirm" >, SYNSEM [ LKEYS.KEYREL.PRED "_affirm_v_1_rel", PHON.ONSET voc ] ]. affirm_v2 := v_cp_le & [ STEM < "affirm" >, SYNSEM [ LKEYS.KEYREL.PRED "_affirm_v_1_rel", PHON.ONSET voc ] ]. affirmation_n1 := n_pp_mc-of_le & [ STEM < "affirmation" >, SYNSEM [ LKEYS.KEYREL.PRED "_affirmation_n_of_rel", PHON.ONSET voc ] ]. affirmative_a1 := aj_-_i_le & [ STEM < "affirmative" >, SYNSEM [ LKEYS.KEYREL.PRED "_affirmative_a_1_rel", PHON.ONSET voc ] ]. affirmative_n1 := n_-_c_le & [ STEM < "affirmative" >, SYNSEM [ LKEYS.KEYREL.PRED "_affirmative_n_1_rel", PHON.ONSET voc ] ]. affix_n1 := n_-_c_le & [ STEM < "affix" >, SYNSEM [ LKEYS.KEYREL.PRED "_affix_n_1_rel", PHON.ONSET voc ] ]. afflict_v1 := v_np_le & [ STEM < "afflict" >, SYNSEM [ LKEYS.KEYREL.PRED "_afflict_v_1_rel", PHON.ONSET voc ] ]. afflict_with_v1 := v_np-pp_e_le & [ STEM < "afflict" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_afflict_v_with_rel" ], PHON.ONSET voc ] ]. affliction_n1 := n_-_mc_le & [ STEM < "affliction" >, SYNSEM [ LKEYS.KEYREL.PRED "_affliction_n_1_rel", PHON.ONSET voc ] ]. afflictive_a1 := aj_-_i_le & [ STEM < "afflictive" >, SYNSEM [ LKEYS.KEYREL.PRED "_afflictive_a_1_rel", PHON.ONSET voc ] ]. affluence_n1 := n_-_c_le & [ STEM < "affluence" >, SYNSEM [ LKEYS.KEYREL.PRED "_affluence_n_1_rel", PHON.ONSET voc ] ]. afford_v1 := v_np_le & [ STEM < "afford" >, SYNSEM [ LKEYS.KEYREL.PRED "_afford_v_1_rel", PHON.ONSET voc ] ]. afford_v2 := v_np-np_le & [ STEM < "afford" >, SYNSEM [ LKEYS.KEYREL.PRED "_afford_v_1_rel", PHON.ONSET voc ] ]. afford_v3 := v_vp_seq_le & [ STEM < "afford" >, SYNSEM [ LKEYS.KEYREL.PRED "_afford_v_1_rel", PHON.ONSET voc ] ]. afford_with_v1 := v_np-pp_e_le & [ STEM < "afford" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_afford_v_with_rel" ], PHON.ONSET voc ] ]. affordable_a1 := aj_-_i_le & [ STEM < "affordable" >, SYNSEM [ LKEYS.KEYREL.PRED "_affordable_a_1_rel", PHON.ONSET voc ] ]. affront_n1 := n_-_c_le & [ STEM < "affront" >, SYNSEM [ LKEYS.KEYREL.PRED "_affront_n_1_rel", PHON.ONSET voc ] ]. affront_v1 := v_np_le & [ STEM < "affront" >, SYNSEM [ LKEYS.KEYREL.PRED "_affront_v_1_rel", PHON.ONSET voc ] ]. afghani_a1 := aj_-_i_le & [ STEM < "Afghani" >, SYNSEM [ LKEYS.KEYREL.PRED "_afghani_a_1_rel", PHON.ONSET voc ] ]. afghani_n1 := n_-_c-nocnh_le & [ STEM < "Afghani" >, SYNSEM [ LKEYS.KEYREL.PRED "_afghani_n_1_rel", PHON.ONSET voc ] ]. afghanistan_n1 := n_-_pn_le & [ STEM < "Afghanistan" >, SYNSEM [ LKEYS.KEYREL.CARG "Afghanistan", PHON.ONSET voc ] ]. afield_nom := n_-_ad-loc_le & [ STEM < "afield" >, SYNSEM [ LKEYS [ ALT2KEYREL.PRED _afield_p_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. afoot_a1 := aj_-_i-prd_le & [ STEM < "afoot" >, SYNSEM [ LKEYS.KEYREL.PRED "_afoot_a_1_rel", PHON.ONSET voc ] ]. aforementioned_a1 := aj_-_i_le & [ STEM < "aforementioned" >, SYNSEM [ LKEYS.KEYREL.PRED "_aforementioned_a_1_rel", PHON.ONSET voc ] ]. aforementioned_a2 := aj_-_i_le & [ STEM < "afore-", "mentioned" >, SYNSEM [ LKEYS.KEYREL.PRED "_aforementioned_a_1_rel", PHON.ONSET voc ] ]. afraid_a1 := aj_pp_i-prd_le & [ STEM < "afraid" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_afraid_a_of_rel" ], PHON.ONSET voc ] ]. afraid_a2 := aj_cp_i_le & [ STEM < "afraid" >, SYNSEM [ LKEYS.KEYREL.PRED "_afraid_a_of_rel", PHON.ONSET voc ] ]. africa_n1 := n_-_pn_le & [ STEM < "Africa" >, SYNSEM [ LKEYS.KEYREL.CARG "Africa", PHON.ONSET voc ] ]. african_a1 := aj_-_i_le & [ STEM < "African" >, SYNSEM [ LKEYS.KEYREL.PRED "_african_a_1_rel", PHON.ONSET voc ] ]. african_n1 := n_-_c-nocnh_le & [ STEM < "African" >, SYNSEM [ LKEYS.KEYREL.PRED "_african_n_1_rel", PHON.ONSET voc ] ]. aft_adv := pp_-_i_le & [ STEM < "aft" >, SYNSEM [ LKEYS.KEYREL.PRED _aft_p_rel, PHON.ONSET voc ] ]. after-school_a1 := aj_-_i_le & [ STEM < "after-", "school" >, SYNSEM [ LKEYS.KEYREL.PRED "_after-school_a_1_rel", PHON.ONSET voc ] ]. after-school_a2 := aj_-_i_le & [ STEM < "after", "school" >, SYNSEM [ LKEYS.KEYREL.PRED "_after-school_a_1_rel", PHON.ONSET voc ] ]. after2 := p_cp_s-notop_le & [ STEM < "after" >, SYNSEM [ LKEYS.KEYREL.PRED "_after_x_h_rel", PHON.ONSET voc ] ]. after_all_adv1 := av_-_i-vp-x_le & [ STEM < "after", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_after+all_a_1_rel", PHON.ONSET voc ] ]. after_all_adv2 := av_-_i-vp-po_le & [ STEM < "after", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_after+all_a_1_rel", PHON.ONSET voc ] ]. after_conj := c_xp_after_le & [ STEM < "after" >, SYNSEM.PHON.ONSET voc ]. after_nbar_nbar_p := p_nb_i-oblspr_le & [ STEM < "after" >, SYNSEM [ LKEYS.KEYREL.PRED _after_p_n-n_rel, PHON.ONSET voc ] ]. after_p := p_np_i_le & [ STEM < "after" >, SYNSEM [ LKEYS.KEYREL.PRED _after_p_rel, PHON.ONSET voc ] ]. after_pp := pp_-_i-nm-tmp_le & [ STEM < "after" >, SYNSEM [ LKEYS.KEYREL.PRED _after_p_rel, PHON.ONSET voc ] ]. after_prtcl := p_np_ptcl_le & [ STEM < "after" >, SYNSEM [ LKEYS.KEYREL.PRED _after_p_sel_rel, PHON.ONSET voc ] ]. after_sail_n1 := n_-_c_le & [ STEM < "after", "sail" >, SYNSEM [ LKEYS.KEYREL.PRED "_after+sail_n_1_rel", PHON.ONSET voc ] ]. aftereffect_n1 := n_-_c_le & [ STEM < "aftereffect" >, SYNSEM [ LKEYS.KEYREL.PRED "_aftereffect_n_1_rel", PHON.ONSET voc ] ]. aftereffect_n2 := n_-_c_le & [ STEM < "after-", "effect" >, SYNSEM [ LKEYS.KEYREL.PRED "_aftereffect_n_1_rel", PHON.ONSET voc ] ]. aftermath_n1 := n_-_c_le & [ STEM < "aftermath" >, SYNSEM [ LKEYS.KEYREL.PRED "_aftermath_n_1_rel", PHON.ONSET voc ] ]. afternoon_nc_n1 := n_-_c-dpt_le & [ STEM < "afternoon" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoon_n_of_rel", PHON.ONSET voc ] ]. afternoon_pl_def := n_-_c-dpt-df-pl_le & [ STEM < "afternoons" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoon_n_of_rel", PHON.ONSET voc ] ]. afternoon_pl_n1 := n_pp_c-dpt-pl-of_le & [ STEM < "afternoons" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoon_n_of_rel", PHON.ONSET voc ] ]. afternoon_sg_def := n_-_c-dpt-df-sg_le & [ STEM < "afternoon" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoon_n_of_rel", PHON.ONSET voc ] ]. afternoon_sg_n1 := n_pp_c-dpt-sg-of_le & [ STEM < "afternoon" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoon_n_of_rel", PHON.ONSET voc ] ]. afternoonish_a1 := aj_-_i_le & [ STEM < "afternoonish" >, SYNSEM [ LKEYS.KEYREL.PRED "_afternoonish_a_1_rel", PHON.ONSET voc ] ]. aftershock_n1 := n_-_c_le & [ STEM < "aftershock" >, SYNSEM [ LKEYS.KEYREL.PRED "_aftershock_n_1_rel", PHON.ONSET voc ] ]. afterward_adv1 := pp_-_i_le & [ STEM < "afterward" >, SYNSEM [ LKEYS.KEYREL.PRED _afterward_p_rel, PHON.ONSET voc ] ]. afterwards_adv1 := pp_-_i-vm_le & [ STEM < "afterwards" >, SYNSEM [ LKEYS.KEYREL.PRED _afterwards_p_rel, PHON.ONSET voc ] ]. afterwards_pp := pp_-_i-nm-tmp_le & [ STEM < "afterwards" >, SYNSEM [ LKEYS.KEYREL.PRED _afterwards_p_rel, PHON.ONSET voc ] ]. again_adv1 := av_-_i-vp_le & [ STEM < "again" >, SYNSEM [ LKEYS.KEYREL.PRED "_again_a_1_rel", PHON.ONSET voc ] ]. against := p_np_i_le & [ STEM < "against" >, SYNSEM [ LKEYS.KEYREL.PRED _against_p_rel, PHON.ONSET voc ] ]. against_prtcl := p_np_ptcl_le & [ STEM < "against" >, SYNSEM [ LKEYS.KEYREL.PRED _against_p_sel_rel, PHON.ONSET voc ] ]. agate_n1 := n_-_mc_le & [ STEM < "agate" >, SYNSEM [ LKEYS.KEYREL.PRED "_agate_n_1_rel", PHON.ONSET voc ] ]. age_n1 := n_-_mc_le & [ STEM < "age" >, SYNSEM [ LKEYS.KEYREL.PRED "_age_n_1_rel", PHON.ONSET voc ] ]. age_old_a1 := aj_-_i_le & [ STEM < "age-", "old" >, SYNSEM [ LKEYS.KEYREL.PRED "_age-old_a_1_rel", PHON.ONSET voc ] ]. age_v1 := v_-_unacc_le & [ STEM < "age" >, SYNSEM [ LKEYS.KEYREL.PRED "_age_v_1_rel", PHON.ONSET voc ] ]. age_v2 := v_np_noger_le & [ STEM < "age" >, SYNSEM [ LKEYS.KEYREL.PRED "_age_v_cause_rel", PHON.ONSET voc ] ]. agency_n := n_-_c_le & [ STEM < "agency" >, SYNSEM [ LKEYS.KEYREL.PRED "_agency_n_1_rel", PHON.ONSET voc ] ]. agenda_n1 := n_-_c_le & [ STEM < "agenda" >, SYNSEM [ LKEYS.KEYREL.PRED "_agenda_n_1_rel", PHON.ONSET voc ] ]. agent_n := n_-_c_le & [ STEM < "agent" >, SYNSEM [ LKEYS.KEYREL.PRED "_agent_n_1_rel", PHON.ONSET voc ] ]. agfa_n1 := n_-_pn_le & [ STEM < "AGFA" >, SYNSEM [ LKEYS.KEYREL.CARG "AGFA", PHON.ONSET voc ] ]. aggie_n1 := n_-_pn_le & [ STEM < "Aggie" >, SYNSEM [ LKEYS.KEYREL.CARG "Aggie", PHON.ONSET voc ] ]. aggravate_v1 := v_np_le & [ STEM < "aggravate" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggravate_v_1_rel", PHON.ONSET voc ] ]. aggregate_n1 := n_-_c_le & [ STEM < "aggregate" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggregate_n_1_rel", PHON.ONSET voc ] ]. aggregate_v1 := v_np_le & [ STEM < "aggregate" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggregate_v_1_rel", PHON.ONSET voc ] ]. aggregation_n1 := n_pp_mc-of_le & [ STEM < "aggregation" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggregation_n_of_rel", PHON.ONSET voc ] ]. aggression_n1 := n_-_mc_le & [ STEM < "aggression" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggression_n_1_rel", PHON.ONSET voc ] ]. aggressive_a1 := aj_-_i_le & [ STEM < "aggressive" >, SYNSEM [ LKEYS.KEYREL.PRED "_aggressive_a_1_rel", PHON.ONSET voc ] ]. agile_a1 := aj_-_i_le & [ STEM < "agile" >, SYNSEM [ LKEYS.KEYREL.PRED "_agile_a_1_rel", PHON.ONSET voc ] ]. agilent_n1 := n_-_pn_le & [ STEM < "Agilent" >, SYNSEM [ LKEYS.KEYREL.CARG "Agilent", PHON.ONSET voc ] ]. agistment_n1 := n_-_mc_le & [ STEM < "agistment" >, SYNSEM [ LKEYS.KEYREL.PRED "_agistment_n_1_rel", PHON.ONSET voc ] ]. agitate_for_v1 := v_pp_e_le & [ STEM < "agitate" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_agitate_v_for_rel" ], PHON.ONSET voc ] ]. agitate_v1 := v_np_le & [ STEM < "agitate" >, SYNSEM [ LKEYS.KEYREL.PRED "_agitate_v_1_rel", PHON.ONSET voc ] ]. agitation_n1 := n_-_m_le & [ STEM < "agitation" >, SYNSEM [ LKEYS.KEYREL.PRED "_agitation_n_1_rel", PHON.ONSET voc ] ]. agnes_n1 := n_-_pn_le & [ STEM < "Agnes" >, SYNSEM [ LKEYS.KEYREL.CARG "Agnes", PHON.ONSET voc ] ]. agnese_n1 := n_-_pn_le & [ STEM < "Agnese" >, SYNSEM [ LKEYS.KEYREL.CARG "Agnese", PHON.ONSET voc ] ]. ago_p1 := pp_-_i-po-tm_le & [ STEM < "ago" >, SYNSEM [ LKEYS.KEYREL.PRED _ago_p_rel, PHON.ONSET voc ] ]. agony_n1 := n_-_m_le & [ STEM < "agony" >, SYNSEM [ LKEYS.KEYREL.PRED "_agony_n_1_rel", PHON.ONSET voc ] ]. agree_on_v1 := v_pp_e_le & [ STEM < "agree" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_agree_v_on_rel" ], PHON.ONSET voc ] ]. agree_to_v1 := v_pp_e_le & [ STEM < "agree" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_agree_v_to_rel" ], PHON.ONSET voc ] ]. agree_v1 := v_pp*-cp_le & [ STEM < "agree" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_agree_v_with_rel" ], PHON.ONSET voc ] ]. agree_v2 := v_pp*-pp*_le & [ STEM < "agree" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_agree_v_on_rel" ], PHON.ONSET voc ] ]. agree_v3 := v_vp_seq_le & [ STEM < "agree" >, SYNSEM [ LKEYS.KEYREL.PRED "_agree_v_1_rel", PHON.ONSET voc ] ]. agreeable_a1 := aj_-_i_le & [ STEM < "agreeable" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreeable_a_1_rel", PHON.ONSET voc ] ]. agreeably_adv1 := av_-_i-vp_le & [ STEM < "agreeably" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreeable_a_1_rel", PHON.ONSET voc ] ]. agreed_a1 := aj_-_i_le & [ STEM < "agreed" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreed_a_1_rel", PHON.ONSET voc ] ]. agreed_root_post := av_-_s-cp-nsp-po_le & [ STEM < "agreed" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreed_a_1_rel", PHON.ONSET voc ] ]. agreed_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "agreed" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreed_a_1_rel", PHON.ONSET voc ] ]. agreement_n1 := n_-_mc_le & [ STEM < "agreement" >, SYNSEM [ LKEYS.KEYREL.PRED "_agreement_n_1_rel", PHON.ONSET voc ] ]. agricultural_a1 := aj_-_i_le & [ STEM < "agricultural" >, SYNSEM [ LKEYS.KEYREL.PRED "_agricultural_a_1_rel", PHON.ONSET voc ] ]. agriculture_n1 := n_-_m_le & [ STEM < "agriculture" >, SYNSEM [ LKEYS.KEYREL.PRED "_agriculture_n_1_rel", PHON.ONSET voc ] ]. agro-industrial_isect := aj_-_i_le & [ STEM < "agro-", "industrial" >, SYNSEM [ LKEYS.KEYREL.PRED "_agro-industrial_a_1_rel", PHON.ONSET voc ] ]. aground_a1 := aj_-_i-prd_le & [ STEM < "aground" >, SYNSEM [ LKEYS.KEYREL.PRED "_aground_a_1_rel", PHON.ONSET voc ] ]. agtr_nd := n_-_pn_le & [ STEM < "AGTR" >, SYNSEM [ LKEYS.KEYREL.CARG "AGTR", PHON.ONSET voc ] ]. ah_root := av_-_dc-like-pr_le & [ STEM < "ah" >, SYNSEM [ LKEYS.KEYREL.CARG "ah", PHON.ONSET voc ] ]. aha_root := av_-_s-cp-mc-pr_le & [ STEM < "aha" >, SYNSEM [ LKEYS.KEYREL.PRED "_aha_a_1_rel", PHON.ONSET voc ] ]. ahead_adv := pp_-_i_le & [ STEM < "ahead" >, SYNSEM [ LKEYS.KEYREL.PRED _ahead_p_rel, PHON.ONSET voc ] ]. ahead_of := p_np_i_le & [ STEM < "ahead", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _ahead+of_p_rel, PHON.ONSET voc ] ]. ahead_prtcl := pp_-_ptcl_le & [ STEM < "ahead" >, SYNSEM [ LKEYS.KEYREL.PRED _ahead_p_sel_rel, PHON.ONSET voc ] ]. ahold_n1_i := n_-_c-br-idm_le & [ STEM < "ahold" >, SYNSEM [ LKEYS.KEYREL.PRED "_ahold_n_i_rel", PHON.ONSET voc ] ]. ahold_n2_i := n_-_c-br-idm_le & [ STEM < "a", "hold" >, SYNSEM [ LKEYS.KEYREL.PRED "_ahold_n_i_rel", PHON.ONSET voc ] ]. ai_n := n_-_m_le & [ STEM < "AI" >, SYNSEM [ LKEYS.KEYREL.PRED "_ai_n_1_rel", PHON.ONSET voc ] ]. aid_n1 := n_-_mc_le & [ STEM < "aid" >, SYNSEM [ LKEYS.KEYREL.PRED "_aid_n_1_rel", PHON.ONSET voc ] ]. aid_v1 := v_np*_le & [ STEM < "aid" >, SYNSEM [ LKEYS.KEYREL.PRED "_aid_v_1_rel", PHON.ONSET voc ] ]. aide_n1 := n_-_c_le & [ STEM < "aide" >, SYNSEM [ LKEYS.KEYREL.PRED "_aide_n_1_rel", PHON.ONSET voc ] ]. aids_n1 := n_-_pn_le & [ STEM < "AIDS" >, SYNSEM [ LKEYS.KEYREL.CARG "AIDS", PHON.ONSET voc ] ]. ail_v1 := v_-_unacc_le & [ STEM < "ail" >, SYNSEM [ LKEYS.KEYREL.PRED "_ail_v_1_rel", PHON.ONSET voc ] ]. ail_v2 := v_np_noger_le & [ STEM < "ail" >, SYNSEM [ LKEYS.KEYREL.PRED "_ail_v_cause_rel", PHON.ONSET voc ] ]. ailment_n1 := n_-_c_le & [ STEM < "ailment" >, SYNSEM [ LKEYS.KEYREL.PRED "_ailment_n_1_rel", PHON.ONSET voc ] ]. aim_at_v1 := v_pp_e_le & [ STEM < "aim" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_aim_v_at_rel" ], PHON.ONSET voc ] ]. aim_at_v2 := v_np-pp_e_le & [ STEM < "aim" >, SYNSEM [ LKEYS [ --OCOMPKEY _at_p_sel_rel, KEYREL.PRED "_aim_v_at_rel" ], PHON.ONSET voc ] ]. aim_n1 := n_-_c_le & [ STEM < "aim" >, SYNSEM [ LKEYS.KEYREL.PRED "_aim_n_1_rel", PHON.ONSET voc ] ]. aim_v := v_pp_e_le & [ STEM < "aim" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_aim_v_for_rel" ], PHON.ONSET voc ] ]. aim_v1 := v_np*_le & [ STEM < "aim" >, SYNSEM [ LKEYS.KEYREL.PRED "_aim_v_1_rel", PHON.ONSET voc ] ]. aim_v2 := v_vp_seq_le & [ STEM < "aim" >, SYNSEM [ LKEYS.KEYREL.PRED "_aim_v_1_rel", PHON.ONSET voc ] ]. aimless_a1 := aj_-_i_le & [ STEM < "aimless" >, SYNSEM [ LKEYS.KEYREL.PRED "_aimless_a_1_rel", PHON.ONSET voc ] ]. aint_be_c_am_neg_1 := v_prd_am-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_c_am_neg_2 := v_prd_am-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_c_are_neg_1 := v_prd_are-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_c_are_neg_2 := v_prd_are-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_c_is_neg_1 := v_prd_is-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_c_is_neg_2 := v_prd_is-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_am_neg_1 := v_np_am-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_am_neg_2 := v_np_am-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_are_neg_1 := v_np_are-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_are_neg_2 := v_np_are-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_is_neg_1 := v_np_is-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_id_is_neg_2 := v_np_is-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_it_cop_is_neg_1 := v_np-rc_is-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_it_cop_is_neg_2 := v_np-rc_is-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_nv_are_neg_1 := v_cp_are-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_nv_are_neg_2 := v_cp_are-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_nv_is_neg_1 := v_cp_is-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_nv_is_neg_2 := v_cp_is-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_th_cop_are_neg_1 := v_np-xp_are-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_th_cop_are_neg_2 := v_np-xp_are-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_be_th_cop_is_neg_1 := v_np-xp_is-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_be_th_cop_is_neg_2 := v_np-xp_is-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_pl_have_aux_1 := v_vp_have-f-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_pl_have_aux_2 := v_vp_have-f-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. aint_sg_have_aux_1 := v_vp_has-n_le & [ STEM < "ain't" >, SYNSEM.PHON.ONSET voc ]. aint_sg_have_aux_2 := v_vp_has-n_le & [ STEM < "ain", "'t" >, SYNSEM.PHON.ONSET voc ]. air_conditioner_n1 := n_-_c_le & [ STEM < "air", "conditioner" >, SYNSEM [ LKEYS.KEYREL.PRED "_air+conditioner_n_1_rel", PHON.ONSET voc ] ]. air_france_n1 := n_-_pn_le & [ STEM < "Air", "France" >, SYNSEM [ LKEYS.KEYREL.CARG "Air_France", PHON.ONSET voc ] ]. air_n1 := n_-_m_le & [ STEM < "air" >, SYNSEM [ LKEYS.KEYREL.PRED "_air_n_1_rel", PHON.ONSET voc ] ]. air_out_v1 := v_p-np_le & [ STEM < "air" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_air_v_out_rel" ], PHON.ONSET voc ] ]. air_out_v2 := v_p_le & [ STEM < "air" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_air_v_out_rel" ], PHON.ONSET voc ] ]. air_sensitive_a1 := aj_-_i_le & [ STEM < "air", "sensitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_air-sensitive_a_1_rel", PHON.ONSET voc ] ]. air_v1 := v_-_unacc_le & [ STEM < "air" >, SYNSEM [ LKEYS.KEYREL.PRED "_air_v_1_rel", PHON.ONSET voc ] ]. air_v2 := v_np_noger_le & [ STEM < "air" >, SYNSEM [ LKEYS.KEYREL.PRED "_air_v_cause_rel", PHON.ONSET voc ] ]. airborne_a1 := aj_-_i_le & [ STEM < "airborne" >, SYNSEM [ LKEYS.KEYREL.PRED "_airborne_a_1_rel", PHON.ONSET voc ] ]. aircraft_n1 := n_-_c_le & [ STEM < "aircraft" >, SYNSEM [ LKEYS.KEYREL.PRED "_aircraft_n_1_rel", PHON.ONSET voc ] ]. airfield_n1 := n_-_c_le & [ STEM < "airfield" >, SYNSEM [ LKEYS.KEYREL.PRED "_airfield_n_1_rel", PHON.ONSET voc ] ]. airless_a1 := aj_-_i_le & [ STEM < "airless" >, SYNSEM [ LKEYS.KEYREL.PRED "_airless_a_1_rel", PHON.ONSET voc ] ]. airless_n1 := n_-_c-nocnh_le & [ STEM < "airless" >, SYNSEM [ LKEYS.KEYREL.PRED "_airless_n_1_rel", PHON.ONSET voc ] ]. airline_n1 := n_-_c_le & [ STEM < "airline" >, SYNSEM [ LKEYS.KEYREL.PRED "_airline_n_1_rel", PHON.ONSET voc ] ]. airmail_n1 := n_-_m_le & [ STEM < "airmail" >, SYNSEM [ LKEYS.KEYREL.PRED "_airmail_n_1_rel", PHON.ONSET voc ] ]. airman_n1 := n_-_c_le & [ STEM < "airman" >, SYNSEM [ LKEYS.KEYREL.PRED "_airman_n_1_rel", PHON.ONSET voc ] ]. airplane_n1 := n_-_c_le & [ STEM < "airplane" >, SYNSEM [ LKEYS.KEYREL.PRED "_airplane_n_1_rel", PHON.ONSET voc ] ]. airport_n1 := n_-_c_le & [ STEM < "airport" >, SYNSEM [ LKEYS.KEYREL.PRED "_airport_n_1_rel", PHON.ONSET voc ] ]. airport_post_ttl := n_-_tt-post_le & [ STEM < "Airport" >, SYNSEM [ LKEYS.KEYREL.PRED "_airport_n_1_rel", PHON.ONSET voc ] ]. airspeed_n1 := n_-_mc_le & [ STEM < "airspeed" >, SYNSEM [ LKEYS.KEYREL.PRED "_airspeed_n_1_rel", PHON.ONSET voc ] ]. airway_n1 := n_-_c_le & [ STEM < "airway" >, SYNSEM [ LKEYS.KEYREL.PRED "_airway_n_1_rel", PHON.ONSET voc ] ]. airy_a1 := aj_-_i_le & [ STEM < "airy" >, SYNSEM [ LKEYS.KEYREL.PRED "_airy_a_1_rel", PHON.ONSET voc ] ]. aisle_n1 := n_pp_c-of_le & [ STEM < "aisle" >, SYNSEM [ LKEYS.KEYREL.PRED "_aisle_n_1_rel", PHON.ONSET voc ] ]. akd_nd := n_-_pn_le & [ STEM < "AKD" >, SYNSEM [ LKEYS.KEYREL.CARG "AKD", PHON.ONSET voc ] ]. akdt_nd := n_-_pn_le & [ STEM < "AKDT" >, SYNSEM [ LKEYS.KEYREL.CARG "AKDT", PHON.ONSET voc ] ]. akin_a1 := aj_pp_i-prd_le & [ STEM < "akin" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_akin_a_1_rel" ], PHON.ONSET voc ] ]. alabama_n1 := n_-_pn_le & [ STEM < "Alabama" >, SYNSEM [ LKEYS.KEYREL.CARG "Alabama", PHON.ONSET voc ] ]. alabama_n2 := n_-_pn-abb_le & [ STEM < "AB" >, SYNSEM [ LKEYS.KEYREL.CARG "Alabama", PHON.ONSET voc ] ]. aladdin_n1 := n_-_pn_le & [ STEM < "Aladdin" >, SYNSEM [ LKEYS.KEYREL.CARG "Aladdin", PHON.ONSET voc ] ]. alain_n1 := n_-_pn_le & [ STEM < "Alain" >, SYNSEM [ LKEYS.KEYREL.CARG "Alain", PHON.ONSET voc ] ]. alan_n1 := n_-_pn_le & [ STEM < "Alan" >, SYNSEM [ LKEYS.KEYREL.CARG "Alan", PHON.ONSET voc ] ]. alarm_n1 := n_-_mc_le & [ STEM < "alarm" >, SYNSEM [ LKEYS.KEYREL.PRED "_alarm_n_1_rel", PHON.ONSET voc ] ]. alarm_v1 := v_np_le & [ STEM < "alarm" >, SYNSEM [ LKEYS.KEYREL.PRED "_alarm_v_1_rel", PHON.ONSET voc ] ]. alarm_v2 := v_np-cp_it-s_le & [ STEM < "alarm" >, SYNSEM [ LKEYS.KEYREL.PRED "_alarm_v_x_rel", PHON.ONSET voc ] ]. alas_post_root := av_-_s-cp-nsp-po_le & [ STEM < "alas" >, SYNSEM [ LKEYS.KEYREL.PRED "_alas_a_1_rel", PHON.ONSET voc ] ]. alas_pre_root := av_-_s-cp-mc-pr_le & [ STEM < "alas" >, SYNSEM [ LKEYS.KEYREL.PRED "_alas_a_1_rel", PHON.ONSET voc ] ]. alaska_n1 := n_-_pn_le & [ STEM < "Alaska" >, SYNSEM [ LKEYS.KEYREL.CARG "Alaska", PHON.ONSET voc ] ]. alaska_n2 := n_-_pn-abb_le & [ STEM < "AL" >, SYNSEM [ LKEYS.KEYREL.CARG "Alaska", PHON.ONSET voc ] ]. alastor_n1 := n_-_pn_le & [ STEM < "Alastor" >, SYNSEM [ LKEYS.KEYREL.CARG "Alastor", PHON.ONSET voc ] ]. albany_n1 := n_-_pn-city_le & [ STEM < "Albany" >, SYNSEM [ LKEYS.KEYREL.CARG "Albany", PHON.ONSET voc ] ]. albeit := p_cp_s_le & [ STEM < "albeit" >, SYNSEM [ LKEYS.KEYREL.PRED "_albeit_x_rel", PHON.ONSET voc ] ]. albeit_conj := c_xp_albeit_le & [ STEM < "albeit" >, SYNSEM.PHON.ONSET voc ]. albeit_prd := p_prd_s_le & [ STEM < "albeit" >, SYNSEM [ LKEYS.KEYREL.PRED "_albeit_x_rel", PHON.ONSET voc ] ]. albert_n1 := n_-_pn_le & [ STEM < "Albert" >, SYNSEM [ LKEYS.KEYREL.CARG "Albert", PHON.ONSET voc ] ]. alberta_n1 := n_-_pn_le & [ STEM < "Alberta" >, SYNSEM [ LKEYS.KEYREL.CARG "Alberta", PHON.ONSET voc ] ]. album_n1 := n_-_c_le & [ STEM < "album" >, SYNSEM [ LKEYS.KEYREL.PRED "_album_n_1_rel", PHON.ONSET voc ] ]. albuquerque_n1 := n_-_pn-city_le & [ STEM < "Albuquerque" >, SYNSEM [ LKEYS.KEYREL.CARG "Albuquerque", PHON.ONSET voc ] ]. alcatraz_n1 := n_-_pn_le & [ STEM < "Alcatraz" >, SYNSEM [ LKEYS.KEYREL.CARG "Alcatraz", PHON.ONSET voc ] ]. alcohol_n1 := n_-_mc_le & [ STEM < "alcohol" >, SYNSEM [ LKEYS.KEYREL.PRED "_alcohol_n_1_rel", PHON.ONSET voc ] ]. alcoholic_a1 := aj_-_i_le & [ STEM < "alcoholic" >, SYNSEM [ LKEYS.KEYREL.PRED "_alcoholic_a_1_rel", PHON.ONSET voc ] ]. alcoholic_n1 := n_-_c_le & [ STEM < "alcoholic" >, SYNSEM [ LKEYS.KEYREL.PRED "_alcoholic_n_1_rel", PHON.ONSET voc ] ]. alcoholics_anonymous := n_-_pn_le & [ STEM < "Alcoholics", "Anonymous" >, SYNSEM [ LKEYS.KEYREL.CARG "Alcoholics_Anonymous", PHON.ONSET voc ] ]. alcoholism_n1 := n_-_mc_le & [ STEM < "alcoholism" >, SYNSEM [ LKEYS.KEYREL.PRED "_alcoholism_n_1_rel", PHON.ONSET voc ] ]. alderman_n1 := n_-_c_le & [ STEM < "alderman" >, SYNSEM [ LKEYS.KEYREL.PRED "_alderman_n_1_rel", PHON.ONSET voc ] ]. aldous_n1 := n_-_pn_le & [ STEM < "Aldous" >, SYNSEM [ LKEYS.KEYREL.CARG "Aldous", PHON.ONSET voc ] ]. aldrich_n1 := n_-_pn_le & [ STEM < "Aldrich" >, SYNSEM [ LKEYS.KEYREL.CARG "Aldrich", PHON.ONSET voc ] ]. aldrin_n1 := n_-_pn_le & [ STEM < "Aldrin" >, SYNSEM [ LKEYS.KEYREL.CARG "Aldrin", PHON.ONSET voc ] ]. ale_n1 := n_-_mc_le & [ STEM < "ale" >, SYNSEM [ LKEYS.KEYREL.PRED "_ale_n_1_rel", PHON.ONSET voc ] ]. alec_n1 := n_-_pn_le & [ STEM < "Alec" >, SYNSEM [ LKEYS.KEYREL.CARG "Alec", PHON.ONSET voc ] ]. alehouse_n1 := n_-_c_le & [ STEM < "alehouse" >, SYNSEM [ LKEYS.KEYREL.PRED "_alehouse_n_1_rel", PHON.ONSET voc ] ]. aleph := n_-_pn_le & [ STEM < "Aleph" >, SYNSEM [ LKEYS.KEYREL.CARG "Aleph", PHON.ONSET voc ] ]. alert_a1 := aj_-_i_le & [ STEM < "alert" >, SYNSEM [ LKEYS.KEYREL.PRED "_alert_a_1_rel", PHON.ONSET voc ] ]. alert_n1 := n_-_mc_le & [ STEM < "alert" >, SYNSEM [ LKEYS.KEYREL.PRED "_alert_n_1_rel", PHON.ONSET voc ] ]. alert_v1 := v_np-cp_le & [ STEM < "alert" >, SYNSEM [ LKEYS.KEYREL.PRED "_alert_v_1_rel", PHON.ONSET voc ] ]. alert_v2 := v_np-pp*_to_le & [ STEM < "alert" >, SYNSEM [ LKEYS.KEYREL.PRED "_alert_v_to_rel", PHON.ONSET voc ] ]. alertness_n1 := n_-_m_le & [ STEM < "alertness" >, SYNSEM [ LKEYS.KEYREL.PRED "_alertness_n_1_rel", PHON.ONSET voc ] ]. alex_n1 := n_-_pn_le & [ STEM < "Alex" >, SYNSEM [ LKEYS.KEYREL.CARG "Alex", PHON.ONSET voc ] ]. alexander_n1 := n_-_pn_le & [ STEM < "Alexander" >, SYNSEM [ LKEYS.KEYREL.CARG "Alexander", PHON.ONSET voc ] ]. alexandra_n1 := n_-_pn_le & [ STEM < "Alexandra" >, SYNSEM [ LKEYS.KEYREL.CARG "Alexandra", PHON.ONSET voc ] ]. alexei_n1 := n_-_pn_le & [ STEM < "Alexei" >, SYNSEM [ LKEYS.KEYREL.CARG "Alexei", PHON.ONSET voc ] ]. alfred_n1 := n_-_pn_le & [ STEM < "Alfred" >, SYNSEM [ LKEYS.KEYREL.CARG "Alfred", PHON.ONSET voc ] ]. alfresco_a1 := aj_-_i_le & [ STEM < "alfresco" >, SYNSEM [ LKEYS.KEYREL.PRED "_alfresco_a_1_rel", PHON.ONSET voc ] ]. alfresco_a2 := aj_-_i_le & [ STEM < "al", "fresco" >, SYNSEM [ LKEYS.KEYREL.PRED "_alfresco_a_1_rel", PHON.ONSET voc ] ]. algae_n1 := n_-_mc_le & [ STEM < "algae" >, SYNSEM [ LKEYS.KEYREL.PRED "_algae_n_1_rel", PHON.ONSET voc ] ]. algorithm_n1 := n_-_c_le & [ STEM < "algorithm" >, SYNSEM [ LKEYS.KEYREL.PRED "_algorithm_n_1_rel", PHON.ONSET voc ] ]. ali_n1 := n_-_pn_le & [ STEM < "Ali" >, SYNSEM [ LKEYS.KEYREL.CARG "Ali", PHON.ONSET voc ] ]. alias_n1 := n_-_c_le & [ STEM < "alias" >, SYNSEM [ LKEYS.KEYREL.PRED "_alias_n_1_rel", PHON.ONSET voc ] ]. alibi_n1 := n_-_c_le & [ STEM < "alibi" >, SYNSEM [ LKEYS.KEYREL.PRED "_alibi_n_1_rel", PHON.ONSET voc ] ]. alice_n1 := n_-_pn_le & [ STEM < "Alice" >, SYNSEM [ LKEYS.KEYREL.CARG "Alice", PHON.ONSET voc ] ]. alien_a1 := aj_-_i_le & [ STEM < "alien" >, SYNSEM [ LKEYS.KEYREL.PRED "_alien_a_to_rel", PHON.ONSET voc ] ]. alien_a2 := aj_pp_i_le & [ STEM < "alien" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_alien_a_to_rel" ], PHON.ONSET voc ] ]. alien_n1 := n_-_c_le & [ STEM < "alien" >, SYNSEM [ LKEYS.KEYREL.PRED "_alien_n_1_rel", PHON.ONSET voc ] ]. alienate_v1 := v_np_le & [ STEM < "alienate" >, SYNSEM [ LKEYS.KEYREL.PRED "_alienate_v_1_rel", PHON.ONSET voc ] ]. alienation_n1 := n_-_mc_le & [ STEM < "alienation" >, SYNSEM [ LKEYS.KEYREL.PRED "_alienation_n_1_rel", PHON.ONSET voc ] ]. alight_a1 := aj_-_i_le & [ STEM < "alight" >, SYNSEM [ LKEYS.KEYREL.PRED "_alight_a_1_rel", PHON.ONSET voc ] ]. alight_v1 := v_-_le & [ STEM < "alight" >, SYNSEM [ LKEYS.KEYREL.PRED "_alight_v_1_rel", PHON.ONSET voc ] ]. align_v1 := v_-_unacc_le & [ STEM < "align" >, SYNSEM [ LKEYS.KEYREL.PRED "_align_v_1_rel", PHON.ONSET voc ] ]. align_v2 := v_np_noger_le & [ STEM < "align" >, SYNSEM [ LKEYS.KEYREL.PRED "_align_v_cause_rel", PHON.ONSET voc ] ]. align_with_v1 := v_np-pp_e_le & [ STEM < "align" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_align_v_with_rel" ], PHON.ONSET voc ] ]. alignment_n1 := n_pp_c-of_le & [ STEM < "alignment" >, SYNSEM [ LKEYS.KEYREL.PRED "_alignment_n_of_rel", PHON.ONSET voc ] ]. alike_a1 := aj_-_i-prd_le & [ STEM < "alike" >, SYNSEM [ LKEYS.KEYREL.PRED "_alike_a_1_rel", PHON.ONSET voc ] ]. aliment_n1 := n_-_m_le & [ STEM < "aliment" >, SYNSEM [ LKEYS.KEYREL.PRED "_aliment_n_1_rel", PHON.ONSET voc ] ]. alison_n1 := n_-_pn_le & [ STEM < "Alison" >, SYNSEM [ LKEYS.KEYREL.CARG "Alison", PHON.ONSET voc ] ]. alive_a1 := aj_-_i-prd_le & [ STEM < "alive" >, SYNSEM [ LKEYS.KEYREL.PRED "_alive_a_1_rel", PHON.ONSET voc ] ]. alix_n1 := n_-_pn_le & [ STEM < "Alix" >, SYNSEM [ LKEYS.KEYREL.CARG "Alix", PHON.ONSET voc ] ]. alkali_n1 := n_-_c_le & [ STEM < "alkali" >, SYNSEM [ LKEYS.KEYREL.PRED "_alkali_n_1_rel", PHON.ONSET voc ] ]. alkaline_a1 := aj_-_i_le & [ STEM < "alkaline" >, SYNSEM [ LKEYS.KEYREL.PRED "_alkaline_a_1_rel", PHON.ONSET voc ] ]. alkaline_n1 := n_-_c_le & [ STEM < "alkaline" >, SYNSEM [ LKEYS.KEYREL.PRED "_alkaline_n_1_rel", PHON.ONSET voc ] ]. all := d_-_prt-plm_le & [ STEM < "all" >, SYNSEM [ LKEYS.KEYREL.PRED _all_q_rel, PHON.ONSET voc ] ]. all+the+while := p_cp_s_le & [ STEM < "all", "the", "while" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+the+while_x_rel", PHON.ONSET voc ] ]. all+too_deg := av_-_dg-cmp-so_le & [ STEM < "all", "too" >, SYNSEM [ LKEYS.KEYREL.PRED all+too_rel, PHON.ONSET con ] ]. all-state_a1 := aj_-_i_le & [ STEM < "All-", "State" >, SYNSEM [ LKEYS.KEYREL.PRED "_All-State_a_1_rel", PHON.ONSET con ] ]. all_adv1 := av_-_i-vp-x_le & [ STEM < "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_all_a_1_rel", PHON.ONSET voc ] ]. all_afternoon_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "afternoon", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+afternoon+long_a_1_rel", PHON.ONSET voc ] ]. all_around_adv1 := av_-_i-vp-po_le & [ STEM < "all", "around" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+around_a_1_rel", PHON.ONSET voc ] ]. all_around_p := p_np_i-reg_le & [ STEM < "all", "around" >, SYNSEM [ LKEYS.KEYREL.PRED _all+around_p_rel, PHON.ONSET voc ] ]. all_but_adv1 := av_-_i-vp-pr_le & [ STEM < "all", "but" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+but_a_1_rel", PHON.ONSET voc ] ]. all_day_a1 := aj_-_i-att_le & [ STEM < "all-", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+day_a_1_rel", PHON.ONSET voc ] ]. all_day_a2 := aj_-_i-att_le & [ STEM < "all", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+day_a_1_rel", PHON.ONSET voc ] ]. all_day_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "day", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+day+long_a_1_rel", PHON.ONSET voc ] ]. all_deg2 := av_-_dg-ppdir_le & [ STEM < "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_all_x_deg_rel", PHON.ONSET voc ] ]. all_det_adj := d_-_all-tm_le & [ STEM < "all" >, SYNSEM [ LKEYS.ALTKEYREL.PRED "_all_a_1_rel", PHON.ONSET voc ] ]. all_month_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "month", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+month+long_a_1_rel", PHON.ONSET voc ] ]. all_morning_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "morning", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+morning+long_a_1_rel", PHON.ONSET voc ] ]. all_night_a1 := aj_-_i-att_le & [ STEM < "all-", "night" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+night_a_1_rel", PHON.ONSET voc ] ]. all_night_a2 := aj_-_i-att_le & [ STEM < "all", "night" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+night_a_1_rel", PHON.ONSET voc ] ]. all_night_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "night", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+night+long_a_1_rel", PHON.ONSET voc ] ]. all_over_adv1 := av_-_i-vp-po_le & [ STEM < "all", "over" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+over_a_1_rel", PHON.ONSET voc ] ]. all_over_p := p_np_i-reg_le & [ STEM < "all", "over" >, SYNSEM [ LKEYS.KEYREL.PRED _all+over_p_rel, PHON.ONSET voc ] ]. all_pn := n_np_mc-a_le & [ STEM < "all" >, SYNSEM [ LKEYS.ALTKEYREL.PRED _all_q_rel, PHON.ONSET voc ] ]. all_right_a1 := aj_-_i_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. all_right_a2 := aj_pp-vp_i-it_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. all_right_a3 := aj_pp-vp_i-tgh_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. all_saints_day := n_np_pn-hol_le & [ STEM < "All", "Saints", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "All_Saints_Day", PHON.ONSET voc ] ]. all_season_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "season", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+season+long_a_1_rel", PHON.ONSET voc ] ]. all_summer_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "summer", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+summer+long_a_1_rel", PHON.ONSET voc ] ]. all_the_more_deg := av_-_dg-v_le & [ STEM < "all", "the", "more" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+the+more_x_rel", PHON.ONSET voc ] ]. all_the_way := av_-_i-vp_le & [ STEM < "all", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+the+way_a_1_rel", PHON.ONSET voc ] ]. all_the_way_deg := av_-_dg-jom_le & [ STEM < "all", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+the+way_x_deg_rel", PHON.ONSET voc ] ]. all_the_way_deg2 := av_-_dg-jov_le & [ STEM < "all", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+the+way_x_deg_rel", PHON.ONSET voc ] ]. all_week_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "week", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+week+long_a_1_rel", PHON.ONSET voc ] ]. all_winter_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "winter", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+winter+long_a_1_rel", PHON.ONSET voc ] ]. all_year_long_adv1 := av_-_i-vp-po_le & [ STEM < "all", "year", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+year+long_a_1_rel", PHON.ONSET voc ] ]. allan_n1 := n_-_pn_le & [ STEM < "Allan" >, SYNSEM [ LKEYS.KEYREL.CARG "Allan", PHON.ONSET voc ] ]. allegation_n1 := n_-_mc_le & [ STEM < "allegation" >, SYNSEM [ LKEYS.KEYREL.PRED "_allegation_n_1_rel", PHON.ONSET voc ] ]. allege_v1 := v_cp_prop_le & [ STEM < "allege" >, SYNSEM [ LKEYS.KEYREL.PRED "_allege_v_1_rel", PHON.ONSET voc ] ]. allege_v2 := v_np-vp_sor_le & [ STEM < "allege" >, SYNSEM [ LKEYS.KEYREL.PRED "_allege_v_1_rel", PHON.ONSET voc ] ]. alleged_a1 := aj_-_i-att_le & [ STEM < "alleged" >, SYNSEM [ LKEYS.KEYREL.PRED "_alleged_a_1_rel", PHON.ONSET voc ] ]. allegedly_adv1 := av_-_i-vp-x_le & [ STEM < "allegedly" >, SYNSEM [ LKEYS.KEYREL.PRED "_alleged_a_1_rel", PHON.ONSET voc ] ]. allegedly_adv2 := av_-_i-ap-pp_le & [ STEM < "allegedly" >, SYNSEM [ LKEYS.KEYREL.PRED "_alleged_a_1_rel", PHON.ONSET voc ] ]. allegheny_n1 := n_-_pn_le & [ STEM < "Allegheny" >, SYNSEM [ LKEYS.KEYREL.CARG "Allegheny", PHON.ONSET voc ] ]. allegiance_n1 := n_-_mc_le & [ STEM < "allegiance" >, SYNSEM [ LKEYS.KEYREL.PRED "_allegiance_n_1_rel", PHON.ONSET voc ] ]. allen_n1 := n_-_pn_le & [ STEM < "Allen" >, SYNSEM [ LKEYS.KEYREL.CARG "Allen", PHON.ONSET voc ] ]. allequippa_n1 := n_-_pn-city_le & [ STEM < "Allequippa" >, SYNSEM [ LKEYS.KEYREL.CARG "Allequippa", PHON.ONSET voc ] ]. allergic_a1 := aj_-_i_le & [ STEM < "allergic" >, SYNSEM [ LKEYS.KEYREL.PRED "_allergic_a_1_rel", PHON.ONSET voc ] ]. allergy_n1 := n_-_c_le & [ STEM < "allergy" >, SYNSEM [ LKEYS.KEYREL.PRED "_allergy_n_1_rel", PHON.ONSET voc ] ]. alleviate_v1 := v_np_le & [ STEM < "alleviate" >, SYNSEM [ LKEYS.KEYREL.PRED "_alleviate_v_1_rel", PHON.ONSET voc ] ]. alley_n1 := n_-_pn_le & [ STEM < "Alley" >, SYNSEM [ LKEYS.KEYREL.CARG "Alley", PHON.ONSET voc ] ]. alley_post_ttl := n_-_tt-post_le & [ STEM < "Alley" >, SYNSEM [ LKEYS.KEYREL.PRED "_alley_n_1_rel", PHON.ONSET voc ] ]. alleyway_n1 := n_-_c_le & [ STEM < "alleyway" >, SYNSEM [ LKEYS.KEYREL.PRED "_alleyway_n_1_rel", PHON.ONSET voc ] ]. alliance_n1 := n_-_c_le & [ STEM < "alliance" >, SYNSEM [ LKEYS.KEYREL.PRED "_alliance_n_1_rel", PHON.ONSET voc ] ]. allied_chemicals_n1 := n_-_pn_le & [ STEM < "Allied", "Chemicals" >, SYNSEM [ LKEYS.KEYREL.CARG "Allied_Chemicals", PHON.ONSET voc ] ]. alligator_n1 := n_-_c_le & [ STEM < "alligator" >, SYNSEM [ LKEYS.KEYREL.PRED "_alligator_n_1_rel", PHON.ONSET voc ] ]. alligatored_a1 := aj_-_i_le & [ STEM < "alligatored" >, SYNSEM [ LKEYS.KEYREL.PRED "_alligatored_a_1_rel", PHON.ONSET voc ] ]. allocate_v1 := v_np-pp*_to_le & [ STEM < "allocate" >, SYNSEM [ LKEYS.KEYREL.PRED "_allocate_v_to_rel", PHON.ONSET voc ] ]. allocation_n1 := n_pp_mc-of_le & [ STEM < "allocation" >, SYNSEM [ LKEYS.KEYREL.PRED "_allocation_n_of_rel", PHON.ONSET voc ] ]. allot_v1 := v_np-pp*_to_le & [ STEM < "allot" >, SYNSEM [ LKEYS.KEYREL.PRED "_allot_v_to_rel", PHON.ONSET voc ] ]. allotment_n1 := n_-_mc_le & [ STEM < "allotment" >, SYNSEM [ LKEYS.KEYREL.PRED "_allotment_n_1_rel", PHON.ONSET voc ] ]. allotted_isect := aj_-_i_le & [ STEM < "allotted" >, SYNSEM [ LKEYS.KEYREL.PRED "_allotted_a_1_rel", PHON.ONSET voc ] ]. allow_for_v1 := v_pp_e_le & [ STEM < "allow" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_allow_v_for_rel" ], PHON.ONSET voc ] ]. allow_rbst_v1 := v_vp_seq-rbst_le & [ STEM < "allow" >, SYNSEM [ LKEYS.KEYREL.PRED "_allow_v_1_rel", PHON.ONSET voc ] ]. allow_v1 := v_np-vp_oeq_le & [ STEM < "allow" >, SYNSEM [ LKEYS.KEYREL.PRED "_allow_v_1_rel", PHON.ONSET voc ] ]. allow_v2 := v_np_le & [ STEM < "allow" >, SYNSEM [ LKEYS.KEYREL.PRED "_allow_v_1_rel", PHON.ONSET voc ] ]. allow_v3 := v_np-np_le & [ STEM < "allow" >, SYNSEM [ LKEYS.KEYREL.PRED "_allow_v_1_rel", PHON.ONSET voc ] ]. allow_v4 := v_np-pp_prop_le & [ STEM < "allow" >, SYNSEM [ LKEYS.KEYREL.PRED "_allow_v_1_rel", PHON.ONSET voc ] ]. allowance_n1 := n_-_mc_le & [ STEM < "allowance" >, SYNSEM [ LKEYS.KEYREL.PRED "_allowance_n_1_rel", PHON.ONSET voc ] ]. alloy_n1 := n_-_mc_le & [ STEM < "alloy" >, SYNSEM [ LKEYS.KEYREL.PRED "_alloy_n_1_rel", PHON.ONSET voc ] ]. alloy_v1 := v_np_le & [ STEM < "alloy" >, SYNSEM [ LKEYS.KEYREL.PRED "_alloy_v_1_rel", PHON.ONSET voc ] ]. allright_a2 := av_-_i-vp-po_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. allright_isect := aj_-_i_le & [ STEM < "allright" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. allright_root_post := av_-_s-cp-nsp-po_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+right_a_1_rel", PHON.ONSET voc ] ]. allright_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "all", "right" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+right_a_1_rel", PHON.ONSET voc ] ]. alltech_n1 := n_-_pn_le & [ STEM < "Alltech" >, SYNSEM [ LKEYS.KEYREL.CARG "Alltech", PHON.ONSET voc ] ]. alltima_n1 := n_-_pn_le & [ STEM < "Alltima" >, SYNSEM [ LKEYS.KEYREL.CARG "Alltima", PHON.ONSET voc ] ]. allude_v1 := v_pp_e_le & [ STEM < "allude" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_allude_v_to_rel" ], PHON.ONSET voc ] ]. allure_n1 := n_-_m_le & [ STEM < "allure" >, SYNSEM [ LKEYS.KEYREL.PRED "_allure_n_1_rel", PHON.ONSET voc ] ]. allure_v1 := v_np_le & [ STEM < "allure" >, SYNSEM [ LKEYS.KEYREL.PRED "_allure_v_1_rel", PHON.ONSET voc ] ]. allurement_n1 := n_-_mc_le & [ STEM < "allurement" >, SYNSEM [ LKEYS.KEYREL.PRED "_allurement_n_1_rel", PHON.ONSET voc ] ]. allusion_n1 := n_-_mc_le & [ STEM < "allusion" >, SYNSEM [ LKEYS.KEYREL.PRED "_allusion_n_1_rel", PHON.ONSET voc ] ]. alluvial_a1 := aj_-_i_le & [ STEM < "alluvial" >, SYNSEM [ LKEYS.KEYREL.PRED "_alluvial_a_1_rel", PHON.ONSET voc ] ]. alluvium_n1 := n_-_mc_le & [ STEM < "alluvium" >, SYNSEM [ LKEYS.KEYREL.PRED "_alluvium_n_1_rel", PHON.ONSET voc ] ]. ally_n1 := n_-_c_le & [ STEM < "ally" >, SYNSEM [ LKEYS.KEYREL.PRED "_ally_n_1_rel", PHON.ONSET voc ] ]. ally_to_v1 := v_np-pp_e_le & [ STEM < "ally" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_ally_v_to-with_rel" ], PHON.ONSET voc ] ]. ally_v1 := v_np_le & [ STEM < "ally" >, SYNSEM [ LKEYS.KEYREL.PRED "_ally_v_to-with_rel", PHON.ONSET voc ] ]. ally_with_v1 := v_np-pp_e_le & [ STEM < "ally" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_ally_v_to-with_rel" ], PHON.ONSET voc ] ]. alma_mater_n1 := n_-_c_le & [ STEM < "alma", "mater" >, SYNSEM [ LKEYS.KEYREL.PRED "_alma+mater_n_1_rel", PHON.ONSET voc ] ]. almanac_n1 := n_-_c_le & [ STEM < "almanac" >, SYNSEM [ LKEYS.KEYREL.PRED "_almanac_n_1_rel", PHON.ONSET voc ] ]. almen := n_-_pn_le & [ STEM < "Almen" >, SYNSEM [ LKEYS.KEYREL.CARG "Almen", PHON.ONSET voc ] ]. almond_n1 := n_-_mc-col_le & [ STEM < "almond" >, SYNSEM [ LKEYS.KEYREL.PRED "_almond_n_1_rel", PHON.ONSET voc ] ]. almost_adv := av_-_s-vp-pr_le & [ STEM < "almost" >, SYNSEM [ LKEYS.KEYREL.PRED "_almost_a_1_rel", PHON.ONSET voc ] ]. almost_deg := av_-_dg-jov_le & [ STEM < "almost" >, SYNSEM [ LKEYS.KEYREL.PRED "_almost_x_deg_rel", PHON.ONSET voc ] ]. almost_much_deg := av_-_dg-m_le & [ STEM < "almost" >, SYNSEM [ LKEYS.KEYREL.PRED "_almost_x_deg_rel", PHON.ONSET voc ] ]. almost_root_post := av_-_s-cp-nsp-po_le & [ STEM < "almost" >, SYNSEM [ LKEYS.KEYREL.PRED "_almost_a_1_rel", PHON.ONSET voc ] ]. aloft_a1 := aj_-_i-prd_le & [ STEM < "aloft" >, SYNSEM [ LKEYS.KEYREL.PRED "_aloft_a_1_rel", PHON.ONSET voc ] ]. alone_adv2 := av_-_i-vp-x_le & [ STEM < "alone" >, SYNSEM [ LKEYS.KEYREL.PRED _alone_p_rel, PHON.ONSET voc ] ]. alone_pp := pp_-_i_le & [ STEM < "alone" >, SYNSEM [ LKEYS.KEYREL.PRED _alone_p_rel, PHON.ONSET voc ] ]. along := p_np_i-reg_le & [ STEM < "along" >, SYNSEM [ LKEYS.KEYREL.PRED _along_p_rel, PHON.ONSET voc ] ]. along_pp := pp_-_i_le & [ STEM < "along" >, SYNSEM [ LKEYS.KEYREL.PRED _along_p_rel, PHON.ONSET voc ] ]. along_prtcl := p_np_ptcl_le & [ STEM < "along" >, SYNSEM [ LKEYS.KEYREL.PRED _along_p_sel_rel, PHON.ONSET voc ] ]. along_with := p_np_i-reg_le & [ STEM < "along", "with" >, SYNSEM [ LKEYS.KEYREL.PRED _along+with_p_rel, PHON.ONSET voc ] ]. alongside := p_np_i-reg_le & [ STEM < "alongside" >, SYNSEM [ LKEYS.KEYREL.PRED _alongside_p_rel, PHON.ONSET voc ] ]. alongside_pp := pp_-_i_le & [ STEM < "alongside" >, SYNSEM [ LKEYS.KEYREL.PRED _alongside_p_rel, PHON.ONSET voc ] ]. aloud_a1 := aj_-_i_le & [ STEM < "aloud" >, SYNSEM [ LKEYS.KEYREL.PRED "_aloud_a_1_rel", PHON.ONSET voc ] ]. alp_n1 := n_-_pn_le & [ STEM < "Alp" >, SYNSEM [ LKEYS.KEYREL.CARG "Alp", PHON.ONSET voc ] ]. alpaca_n1 := n_-_mc_le & [ STEM < "alpaca" >, SYNSEM [ LKEYS.KEYREL.PRED "_alpaca_n_1_rel", PHON.ONSET voc ] ]. alpha := n_-_pn_le & [ STEM < "Alpha" >, SYNSEM [ LKEYS.KEYREL.CARG "Alpha", PHON.ONSET voc ] ]. alphabet_n1 := n_-_c_le & [ STEM < "alphabet" >, SYNSEM [ LKEYS.KEYREL.PRED "_alphabet_n_1_rel", PHON.ONSET voc ] ]. alphabetic_a1 := aj_-_i_le & [ STEM < "alphabetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_alphabetic_a_1_rel", PHON.ONSET voc ] ]. alpine_a1 := aj_-_i_le & [ STEM < "alpine" >, SYNSEM [ LKEYS.KEYREL.PRED "_alpine_a_1_rel", PHON.ONSET voc ] ]. alps := n_-_c-nm-pl_le & [ STEM < "Alp" >, SYNSEM [ LKEYS.KEYREL.CARG "Alps", PHON.ONSET voc ] ]. already_adv1 := av_-_i-vp-x_le & [ STEM < "already" >, SYNSEM [ LKEYS.KEYREL.PRED "_already_a_1_rel", PHON.ONSET voc ] ]. already_adv2 := av_-_i-ap-pp_le & [ STEM < "already" >, SYNSEM [ LKEYS.KEYREL.PRED "_already_a_1_rel", PHON.ONSET voc ] ]. already_adv3 := av_-_i-vp-po_le & [ STEM < "already" >, SYNSEM [ LKEYS.KEYREL.PRED "_already_a_1_rel", PHON.ONSET voc ] ]. already_deg := av_-_dg-jom_le & [ STEM < "already" >, SYNSEM [ LKEYS.KEYREL.PRED "_already_x_deg_rel", PHON.ONSET voc ] ]. already_m_deg := av_-_dg-m_le & [ STEM < "already" >, SYNSEM [ LKEYS.KEYREL.PRED "_already_x_deg_rel", PHON.ONSET voc ] ]. alright_a1 := aj_-_i_le & [ STEM < "alright" >, SYNSEM [ LKEYS.KEYREL.PRED "_allright_a_for_rel", PHON.ONSET voc ] ]. alright_root_post := av_-_s-cp-nsp-po_le & [ STEM < "alright" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+right_a_1_rel", PHON.ONSET voc ] ]. alright_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "alright" >, SYNSEM [ LKEYS.KEYREL.PRED "_all+right_a_1_rel", PHON.ONSET voc ] ]. alrighty_excl_post := av_-_s-cp-nsp-po_le & [ STEM < "alrighty" >, SYNSEM [ LKEYS.KEYREL.PRED "_alrighty_a_1_rel", PHON.ONSET voc ] ]. alrighty_excl_pre := av_-_s-cp-mc-pr_le & [ STEM < "alrighty" >, SYNSEM [ LKEYS.KEYREL.PRED "_alrighty_a_1_rel", PHON.ONSET voc ] ]. also_adv1 := av_-_s-vp-x_le & [ STEM < "also" >, SYNSEM [ LKEYS.KEYREL.PRED "_also_a_1_rel", PHON.ONSET voc ] ]. also_adv2 := av_-_s-cp-pr_le & [ STEM < "also" >, SYNSEM [ LKEYS.KEYREL.PRED "_also_a_1_rel", PHON.ONSET voc ] ]. also_jov_deg := av_-_dg-jov_le & [ STEM < "also" >, SYNSEM [ LKEYS.KEYREL.PRED "_also_a_1_rel", PHON.ONSET voc ] ]. also_root := av_-_s-cp-nsp-po_le & [ STEM < "also" >, SYNSEM [ LKEYS.KEYREL.PRED "_also_a_1_rel", PHON.ONSET voc ] ]. alta := n_-_pn_le & [ STEM < "Alta" >, SYNSEM [ LKEYS.KEYREL.CARG "Alta", PHON.ONSET voc ] ]. altar_n1 := n_-_c_le & [ STEM < "altar" >, SYNSEM [ LKEYS.KEYREL.PRED "_altar_n_1_rel", PHON.ONSET voc ] ]. altarpiece_n1 := n_-_c_le & [ STEM < "altarpiece" >, SYNSEM [ LKEYS.KEYREL.PRED "_altarpiece_n_1_rel", PHON.ONSET voc ] ]. alte-oper_n1 := n_-_pn_le & [ STEM < "Alte", "Oper" >, SYNSEM [ LKEYS.KEYREL.CARG "Alte-Oper", PHON.ONSET voc ] ]. alteoper_nd := n_-_pn_le & [ STEM < "Alte", "Oper" >, SYNSEM [ LKEYS.KEYREL.CARG "Alteoper", PHON.ONSET voc ] ]. alter-ego_n1 := n_-_c_le & [ STEM < "alter-", "ego" >, SYNSEM [ LKEYS.KEYREL.PRED "_alter-ego_n_1_rel", PHON.ONSET voc ] ]. alter-ego_n2 := n_-_c_le & [ STEM < "alter", "ego" >, SYNSEM [ LKEYS.KEYREL.PRED "_alter-ego_n_1_rel", PHON.ONSET voc ] ]. alter_v1 := v_np*_le & [ STEM < "alter" >, SYNSEM [ LKEYS.KEYREL.PRED "_alter_v_1_rel", PHON.ONSET voc ] ]. alter_v2 := v_np-vp_oeq_le & [ STEM < "alter" >, SYNSEM [ LKEYS.KEYREL.PRED "_alter_v_1_rel", PHON.ONSET voc ] ]. alteration_n1 := n_-_mc_le & [ STEM < "alteration" >, SYNSEM [ LKEYS.KEYREL.PRED "_alteration_n_1_rel", PHON.ONSET voc ] ]. altercation_n1 := n_-_c_le & [ STEM < "altercation" >, SYNSEM [ LKEYS.KEYREL.PRED "_altercation_n_1_rel", PHON.ONSET voc ] ]. alternate_a1 := aj_-_i_le & [ STEM < "alternate" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternate_a_1_rel", PHON.ONSET voc ] ]. alternate_between_v1 := v_pp_e_le & [ STEM < "alternate" >, SYNSEM [ LKEYS [ --COMPKEY _between_p_sel_rel, KEYREL.PRED "_alternate_v_between_rel" ], PHON.ONSET voc ] ]. alternate_n1 := n_pp_c_le & [ STEM < "alternate" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_alternate_n_to_rel" ], PHON.ONSET voc ] ]. alternate_v1 := v_np*_le & [ STEM < "alternate" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternate_v_1_rel", PHON.ONSET voc ] ]. alternately_adv1 := av_-_i-vp_le & [ STEM < "alternately" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternate_a_1_rel", PHON.ONSET voc ] ]. alternation_n1 := n_-_mc_le & [ STEM < "alternation" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternation_n_1_rel", PHON.ONSET voc ] ]. alternative_a1 := aj_-_i_le & [ STEM < "alternative" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternative_a_1_rel", PHON.ONSET voc ] ]. alternative_n1 := n_pp_c-ns_le & [ STEM < "alternative" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_alternative_n_to_rel" ], PHON.ONSET voc ] ]. alternatively_adv1 := av_-_i-vp_le & [ STEM < "alternatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternative_a_1_rel", PHON.ONSET voc ] ]. alternatively_adv2 := av_-_s-cp-pr_le & [ STEM < "alternatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternatively_a_1_rel", PHON.ONSET voc ] ]. alternator_n1 := n_-_c_le & [ STEM < "alternator" >, SYNSEM [ LKEYS.KEYREL.PRED "_alternator_n_1_rel", PHON.ONSET voc ] ]. although := p_cp_s_le & [ STEM < "although" >, SYNSEM [ LKEYS.KEYREL.PRED "_although_x_rel", PHON.ONSET voc ] ]. although_prd := p_prd_s_le & [ STEM < "although" >, SYNSEM [ LKEYS.KEYREL.PRED "_although_x_rel", PHON.ONSET voc ] ]. altima_n1 := n_-_pn_le & [ STEM < "Altima" >, SYNSEM [ LKEYS.KEYREL.CARG "Altima", PHON.ONSET voc ] ]. altitude_n1 := n_-_mc_le & [ STEM < "altitude" >, SYNSEM [ LKEYS.KEYREL.PRED "_altitude_n_1_rel", PHON.ONSET voc ] ]. altogether_adv1 := av_-_i-vp-po_le & [ STEM < "altogether" >, SYNSEM [ LKEYS.KEYREL.PRED "_altogether_a_1_rel", PHON.ONSET voc ] ]. altogether_deg := av_-_dg_le & [ STEM < "altogether" >, SYNSEM [ LKEYS.KEYREL.PRED "_altogether_x_rel", PHON.ONSET voc ] ]. alton_n1 := n_-_pn_le & [ STEM < "Alton" >, SYNSEM [ LKEYS.KEYREL.CARG "Alton", PHON.ONSET voc ] ]. aluminium_n1 := n_-_m_le & [ DIALECT br, STEM < "aluminium" >, SYNSEM [ LKEYS.KEYREL.PRED "_aluminum_n_1_rel", PHON.ONSET voc ] ]. aluminum_n1 := n_-_m_le & [ STEM < "aluminum" >, SYNSEM [ LKEYS.KEYREL.PRED "_aluminum_n_1_rel", PHON.ONSET voc ] ]. alveld_n1 := n_-_m_le & [ STEM < "alveld" >, SYNSEM [ LKEYS.KEYREL.PRED "_alveld_n_1_rel", PHON.ONSET voc ] ]. alvåsen_n1 := n_-_pn_le & [ STEM < "Alvåsen" >, SYNSEM [ LKEYS.KEYREL.CARG "Alvåsen", PHON.ONSET voc ] ]. always_adv1 := av_-_i-vp-x_le & [ STEM < "always" >, SYNSEM [ LKEYS.KEYREL.PRED "_always_a_1_rel", PHON.ONSET voc ] ]. always_adv2 := av_-_i-ap-pp_le & [ STEM < "always" >, SYNSEM [ LKEYS.KEYREL.PRED "_always_a_1_rel", PHON.ONSET voc ] ]. always_deg := av_-_dg-m_le & [ STEM < "always" >, SYNSEM [ LKEYS.KEYREL.PRED "_always_x_deg_rel", PHON.ONSET voc ] ]. alyssa_n1 := n_-_pn_le & [ STEM < "Alyssa" >, SYNSEM [ LKEYS.KEYREL.CARG "Alyssa", PHON.ONSET voc ] ]. alyssia_n1 := n_-_pn_le & [ STEM < "Alyssia" >, SYNSEM [ LKEYS.KEYREL.CARG "Alyssia", PHON.ONSET voc ] ]. am_temp := x_-_am-pm_le & [ STEM < "A.M." >, SYNSEM [ LKEYS.KEYREL [ CARG "am_time", PRED "_am_x_rel" ], PHON.ONSET voc ] ]. am_temp_2 := x_-_am-pm_le & [ STEM < "AM" >, SYNSEM [ LKEYS.KEYREL [ CARG "am_time", PRED "_am_x_rel" ], PHON.ONSET voc ] ]. am_temp_3 := x_-_am-pm_le & [ STEM < "A.M" >, SYNSEM [ LKEYS.KEYREL [ CARG "am_time", PRED "_am_x_rel" ], PHON.ONSET voc ] ]. ama_n1 := n_-_pn_le & [ STEM < "AMA" >, SYNSEM [ LKEYS.KEYREL.CARG "AMA", PHON.ONSET voc ] ]. ama_n2 := n_-_c-nm_le & [ STEM < "AMA" >, SYNSEM [ LKEYS.KEYREL.CARG "AMA", PHON.ONSET voc ] ]. amalgamate_v1 := v_np_noger_le & [ STEM < "amalgamate" >, SYNSEM [ LKEYS.KEYREL.PRED "_amalgamate_v_cause_rel", PHON.ONSET voc ] ]. amalgamate_v2 := v_-_unacc_le & [ STEM < "amalgamate" >, SYNSEM [ LKEYS.KEYREL.PRED "_amalgamate_v_1_rel", PHON.ONSET voc ] ]. amalgamate_v3 := v_np-pp_le & [ STEM < "amalgamate" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_rel, KEYREL.PRED "_amalgamate_v_cause_rel" ], PHON.ONSET voc ] ]. amalgamate_v4 := v_np-pp_le & [ STEM < "amalgamate" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_rel, KEYREL.PRED "_amalgamate_v_cause_rel" ], PHON.ONSET voc ] ]. amanda := n_-_pn_le & [ STEM < "Amanda" >, SYNSEM [ LKEYS.KEYREL.CARG "Amanda", PHON.ONSET voc ] ]. amanuel_n1 := n_-_pn_le & [ STEM < "Amanuel" >, SYNSEM [ LKEYS.KEYREL.CARG "Amanuel", PHON.ONSET voc ] ]. amass_v1 := v_np_le & [ STEM < "amass" >, SYNSEM [ LKEYS.KEYREL.PRED "_amass_v_1_rel", PHON.ONSET voc ] ]. amateur_a1 := aj_-_i_le & [ STEM < "amateur" >, SYNSEM [ LKEYS.KEYREL.PRED "_amateur_a_1_rel", PHON.ONSET voc ] ]. amateur_n1 := n_-_c_le & [ STEM < "amateur" >, SYNSEM [ LKEYS.KEYREL.PRED "_amateur_n_1_rel", PHON.ONSET voc ] ]. amaze_v1 := v_np_le & [ STEM < "amaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_amaze_v_1_rel", PHON.ONSET voc ] ]. amaze_v2 := v_np-cp_it-s_le & [ STEM < "amaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_amaze_v_1_rel", PHON.ONSET voc ] ]. amazement_n1 := n_pp_m_le & [ STEM < "amazement" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_amazement_n_at_rel" ], PHON.ONSET voc ] ]. amazing_a1 := aj_pp_i_le & [ STEM < "amazing" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_amazing_a_to_rel" ], PHON.ONSET voc ] ]. amazing_a2 := aj_pp-cp_i-it_le & [ STEM < "amazing" >, SYNSEM [ LKEYS.KEYREL.PRED "_amazing_a_to_rel", PHON.ONSET voc ] ]. amazingly_adv := av_-_i-vp_le & [ STEM < "amazingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_amazing_a_to_rel", PHON.ONSET voc ] ]. amazon_n1 := n_-_pn_le & [ STEM < "Amazon" >, SYNSEM [ LKEYS.KEYREL.CARG "Amazon", PHON.ONSET voc ] ]. amazon_n2 := n_-_pn_le & [ STEM < "Amazon", "com" >, SYNSEM [ LKEYS.KEYREL.CARG "Amazon_dot_com", PHON.ONSET voc ] ]. ambassador_n1 := n_-_c_le & [ STEM < "ambassador" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambassador_n_1_rel", PHON.ONSET voc ] ]. ambassadorial_a1 := aj_-_i_le & [ STEM < "ambassadorial" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambassadorial_a_1_rel", PHON.ONSET voc ] ]. amber_n1 := n_-_pn_le & [ STEM < "Amber" >, SYNSEM [ LKEYS.KEYREL.CARG "Amber", PHON.ONSET voc ] ]. amber_n2 := n_-_m_le & [ STEM < "amber" >, SYNSEM [ LKEYS.KEYREL.PRED "_amber_n_1_rel", PHON.ONSET voc ] ]. ambiance_n1 := n_-_m_le & [ STEM < "ambiance" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambiance_n_1_rel", PHON.ONSET voc ] ]. ambience_n1 := n_-_c_le & [ STEM < "ambience" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambience_n_1_rel", PHON.ONSET voc ] ]. ambient_a1 := aj_-_i_le & [ STEM < "ambient" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambient_a_1_rel", PHON.ONSET voc ] ]. ambiguity_n1 := n_-_mc_le & [ STEM < "ambiguity" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambiguity_n_1_rel", PHON.ONSET voc ] ]. ambition_n1 := n_-_mc_le & [ STEM < "ambition" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambition_n_1_rel", PHON.ONSET voc ] ]. ambitious_a1 := aj_-_i_le & [ STEM < "ambitious" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambitious_a_1_rel", PHON.ONSET voc ] ]. amble_n1 := n_-_c_le & [ STEM < "amble" >, SYNSEM [ LKEYS.KEYREL.PRED "_amble_n_1_rel", PHON.ONSET voc ] ]. amble_v1 := v_pp*_dir_le & [ STEM < "amble" >, SYNSEM [ LKEYS.KEYREL.PRED "_amble_v_1_rel", PHON.ONSET voc ] ]. ambler_n1 := n_-_c_le & [ STEM < "ambler" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambler_n_1_rel", PHON.ONSET voc ] ]. ambulance_n1 := n_-_c_le & [ STEM < "ambulance" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambulance_n_1_rel", PHON.ONSET voc ] ]. ambush_n1 := n_-_mc_le & [ STEM < "ambush" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambush_n_1_rel", PHON.ONSET voc ] ]. ambush_v1 := v_np_le & [ STEM < "ambush" >, SYNSEM [ LKEYS.KEYREL.PRED "_ambush_v_1_rel", PHON.ONSET voc ] ]. amelia_n1 := n_-_pn_le & [ STEM < "Amelia" >, SYNSEM [ LKEYS.KEYREL.CARG "Amelia", PHON.ONSET voc ] ]. amend_v1 := v_np*_le & [ STEM < "amend" >, SYNSEM [ LKEYS.KEYREL.PRED "_amend_v_1_rel", PHON.ONSET voc ] ]. amend_v2 := v_np-vp_oeq_le & [ STEM < "amend" >, SYNSEM [ LKEYS.KEYREL.PRED "_amend_v_1_rel", PHON.ONSET voc ] ]. amendment_n1 := n_pp_mc-of_le & [ STEM < "amendment" >, SYNSEM [ LKEYS.KEYREL.PRED "_amendment_n_of_rel", PHON.ONSET voc ] ]. amenities_n1 := n_-_c-pl_le & [ STEM < "amenity" >, SYNSEM [ LKEYS.KEYREL.PRED "_amenities_n_1_rel", PHON.ONSET voc ] ]. america_n1 := n_-_pn_le & [ STEM < "America" >, SYNSEM [ LKEYS.KEYREL.CARG "America", PHON.ONSET voc ] ]. american_a1 := aj_-_i_le & [ STEM < "American" >, SYNSEM [ LKEYS.KEYREL.PRED "_american_a_1_rel", PHON.ONSET voc ] ]. american_airlines_n1 := n_-_pn_le & [ STEM < "American", "Airlines" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Airlines", PHON.ONSET voc ] ]. american_assurance_underwriting_company_n1 := n_-_pn_le & [ STEM < "American", "Assurance", "Underwriting", "Company" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Assurance_Underwriting_Company", PHON.ONSET voc ] ]. american_assurance_underwriting_company_shanghai_branch_n1 := n_-_pn_le & [ STEM < "American", "Assurance", "Underwriting", "Company,", "Shanghai", "Branch" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Assurance_Underwriting_Company_Shanghai_Branch", PHON.ONSET voc ] ]. american_assurance_underwriting_company_shanghai_branch_n2 := n_-_pn_le & [ STEM < "American", "Assurance", "Underwriting", "Company", "Shanghai", "Branch" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Assurance_Underwriting_Company_Shanghai_Branch", PHON.ONSET voc ] ]. american_express_n1 := n_-_pn_le & [ STEM < "American", "Express" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Express", PHON.ONSET voc ] ]. american_express_n2 := n_-_pn_le & [ STEM < "AMEX" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Express", PHON.ONSET voc ] ]. american_n1 := n_-_c-nocnh_le & [ STEM < "American" >, SYNSEM [ LKEYS.KEYREL.PRED "_american_n_1_rel", PHON.ONSET voc ] ]. american_scoundrel_wall_n1 := n_-_pn_le & [ STEM < "American", "Scoundrel", "Wall" >, SYNSEM [ LKEYS.KEYREL.CARG "American_Scoundrel_Wall", PHON.ONSET voc ] ]. amiable_isect := aj_-_i_le & [ STEM < "amiable" >, SYNSEM [ LKEYS.KEYREL.PRED "_amiable_a_1_rel", PHON.ONSET voc ] ]. amiably_isect := av_-_i-vp_le & [ STEM < "amiably" >, SYNSEM [ LKEYS.KEYREL.PRED "_amiable_a_1_rel", PHON.ONSET voc ] ]. amicably := av_-_i-vp_le & [ STEM < "amicably" >, SYNSEM [ LKEYS.KEYREL.PRED "_amicable_a_1_rel", PHON.ONSET voc ] ]. amid_p := p_np_i_le & [ STEM < "amid" >, SYNSEM [ LKEYS.KEYREL.PRED _amid_p_rel, PHON.ONSET voc ] ]. amidst_p1 := p_np_i_le & [ STEM < "amidst" >, SYNSEM [ LKEYS.KEYREL.PRED _amidst_p_rel, PHON.ONSET voc ] ]. amino_acid_n1 := n_-_mc_le & [ STEM < "amino", "acid" >, SYNSEM [ LKEYS.KEYREL.PRED "_amino+acid_n_1_rel", PHON.ONSET voc ] ]. amiss_a1 := aj_-_i-prd_le & [ STEM < "amiss" >, SYNSEM [ LKEYS.KEYREL.PRED "_amiss_a_1_rel", PHON.ONSET voc ] ]. amity_n1 := n_-_c_le & [ STEM < "amity" >, SYNSEM [ LKEYS.KEYREL.PRED "_amity_n_1_rel", PHON.ONSET voc ] ]. ammonia_n1 := n_-_m_le & [ STEM < "ammonia" >, SYNSEM [ LKEYS.KEYREL.PRED "_ammonia_n_1_rel", PHON.ONSET voc ] ]. ammunition_n1 := n_-_m_le & [ STEM < "ammunition" >, SYNSEM [ LKEYS.KEYREL.PRED "_ammunition_n_1_rel", PHON.ONSET voc ] ]. amnesty_international_n1 := n_-_pn_le & [ STEM < "Amnesty", "International" >, SYNSEM [ LKEYS.KEYREL.CARG "Amnesty+International", PHON.ONSET voc ] ]. amnesty_n1 := n_-_mc_le & [ STEM < "amnesty" >, SYNSEM [ LKEYS.KEYREL.PRED "_amnesty_n_1_rel", PHON.ONSET voc ] ]. among := p_np_i-reg_le & [ STEM < "among" >, SYNSEM [ LKEYS.KEYREL.PRED _among_p_rel, PHON.ONSET voc ] ]. among_other_things_adv1 := av_-_s-cp-pr_le & [ STEM < "among", "other", "things" >, SYNSEM [ LKEYS.KEYREL.PRED "_among+other+things_a_1_rel", PHON.ONSET voc ] ]. among_other_things_adv2 := av_-_s-vp-po_le & [ STEM < "among", "other", "things" >, SYNSEM [ LKEYS.KEYREL.PRED "_among+other+things_a_1_rel", PHON.ONSET voc ] ]. among_prtcl := p_np_ptcl_le & [ STEM < "among" >, SYNSEM [ LKEYS.KEYREL.PRED _among_p_sel_rel, PHON.ONSET voc ] ]. amongst := p_np_i-reg_le & [ STEM < "amongst" >, SYNSEM [ LKEYS.KEYREL.PRED _amongst_p_rel, PHON.ONSET voc ] ]. amorous_a1 := aj_-_i_le & [ STEM < "amorous" >, SYNSEM [ LKEYS.KEYREL.PRED "_amorous_a_1_rel", PHON.ONSET voc ] ]. amorphous_a1 := aj_-_i_le & [ STEM < "amorphous" >, SYNSEM [ LKEYS.KEYREL.PRED "_amorphous_a_1_rel", PHON.ONSET voc ] ]. amount_n1 := n_pp_c-of_le & [ STEM < "amount" >, SYNSEM [ LKEYS.KEYREL.PRED "_amount_n_of_rel", PHON.ONSET voc ] ]. amount_to_v1 := v_pp_e_le & [ STEM < "amount" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_amount_v_to_rel" ], PHON.ONSET voc ] ]. amp_n1 := n_-_c_le & [ STEM < "amp" >, SYNSEM [ LKEYS.KEYREL.PRED "_amp_n_1_rel", PHON.ONSET voc ] ]. amp_n2 := n_-_c-meas_le & [ STEM < "amp" >, SYNSEM [ LKEYS.KEYREL.PRED "_ampere_n_1_rel", PHON.ONSET voc ] ]. amp_up_v1 := v_p-np_le & [ STEM < "amp" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_amp_v_up_rel" ], PHON.ONSET voc ] ]. amp_up_v2 := v_p_le & [ STEM < "amp" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_amp_v_up_rel" ], PHON.ONSET voc ] ]. amp_v1 := v_np_le & [ STEM < "amp" >, SYNSEM [ LKEYS.KEYREL.PRED "_amp_v_1_rel", PHON.ONSET voc ] ]. ampa_n1 := n_-_mc_le & [ STEM < "ampa" >, SYNSEM [ LKEYS.KEYREL.PRED "_ampa_n_1_rel", PHON.ONSET voc ] ]. amperage_n1 := n_pp_mc-of_le & [ STEM < "amperage" >, SYNSEM [ LKEYS.KEYREL.PRED "_amperage_n_of_rel", PHON.ONSET voc ] ]. ampere_n1 := n_-_c-meas_le & [ STEM < "ampere" >, SYNSEM [ LKEYS.KEYREL.PRED "_ampere_n_1_rel", PHON.ONSET voc ] ]. amphibian_a1 := aj_-_i_le & [ STEM < "amphibian" >, SYNSEM [ LKEYS.KEYREL.PRED "_amphibian_a_1_rel", PHON.ONSET voc ] ]. amphibian_n1 := n_-_c_le & [ STEM < "amphibian" >, SYNSEM [ LKEYS.KEYREL.PRED "_amphibian_n_1_rel", PHON.ONSET voc ] ]. amphipod_n1 := n_-_c_le & [ STEM < "amphipod" >, SYNSEM [ LKEYS.KEYREL.PRED "_amphipod_n_1_rel", PHON.ONSET voc ] ]. amphitheater_n1 := n_-_c_le & [ STEM < "amphitheater" >, SYNSEM [ LKEYS.KEYREL.PRED "_amphitheater_n_1_rel", PHON.ONSET voc ] ]. ample_a1 := aj_-_i_le & [ STEM < "ample" >, SYNSEM [ LKEYS.KEYREL.PRED "_ample_a_1_rel", PHON.ONSET voc ] ]. amplifier_n1 := n_pp_c-of_le & [ STEM < "amplifier" >, SYNSEM [ LKEYS.KEYREL.PRED "_amplifier_n_of_rel", PHON.ONSET voc ] ]. amplify_v1 := v_np*_le & [ STEM < "amplify" >, SYNSEM [ LKEYS.KEYREL.PRED "_amplify_v_1_rel", PHON.ONSET voc ] ]. amply_adv := av_-_i-vp_le & [ STEM < "amply" >, SYNSEM [ LKEYS.KEYREL.PRED "_ample_a_1_rel", PHON.ONSET voc ] ]. amps_n1 := n_-_pn_le & [ STEM < "AMPS" >, SYNSEM [ LKEYS.KEYREL.CARG "AMPS", PHON.ONSET voc ] ]. amsterdam_n1 := n_-_pn-city_le & [ STEM < "Amsterdam" >, SYNSEM [ LKEYS.KEYREL.CARG "Amsterdam", PHON.ONSET voc ] ]. amtrak_n1 := n_-_pn_le & [ STEM < "Amtrak" >, SYNSEM [ LKEYS.KEYREL.CARG "Amtrak", PHON.ONSET voc ] ]. amund_n1 := n_-_pn_le & [ STEM < "Amund" >, SYNSEM [ LKEYS.KEYREL.CARG "Amund", PHON.ONSET voc ] ]. amundsen_n1 := n_-_pn_le & [ STEM < "Amundsen" >, SYNSEM [ LKEYS.KEYREL.CARG "Amundsen", PHON.ONSET voc ] ]. amuse_v1 := v_np_le & [ STEM < "amuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_amuse_v_1_rel", PHON.ONSET voc ] ]. amuse_v2 := v_np-cp_it-s_le & [ STEM < "amuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_amuse_v_1_rel", PHON.ONSET voc ] ]. amusement_n1 := n_-_mc_le & [ STEM < "amusement" >, SYNSEM [ LKEYS.KEYREL.PRED "_amusement_n_1_rel", PHON.ONSET voc ] ]. amusing_isect := aj_-_i_le & [ STEM < "amusing" >, SYNSEM [ LKEYS.KEYREL.PRED "_amusing_a_1_rel", PHON.ONSET voc ] ]. amy_n1 := n_-_pn_le & [ STEM < "Amy" >, SYNSEM [ LKEYS.KEYREL.CARG "Amy", PHON.ONSET voc ] ]. amythest_n1 := n_-_c_le & [ STEM < "amythest" >, SYNSEM [ LKEYS.KEYREL.PRED "_amythest_n_1_rel", PHON.ONSET voc ] ]. an_det := d_-_sg-nmd-an_le & [ STEM < "an" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. an_det_rbst := d_-_sg-an-rbst_le & [ STEM < "an" >, SYNSEM [ LKEYS.KEYREL.PRED _a_q_rel, PHON.ONSET voc ] ]. an_one_adj := aj_-_i-an-nmd_le & [ STEM < "an" >, SYNSEM.PHON.ONSET voc ]. an_one_fract := aj_np_i-frct-an_le & [ STEM < "an" >, SYNSEM.PHON.ONSET voc ]. an_per_p := p_nb_i-nm-an_le & [ STEM < "an" >, SYNSEM [ LKEYS.KEYREL.PRED _a_p_per_rel, PHON.ONSET voc ] ]. an_pred_p1 := p_np_i-prd-an_le & [ STEM < "an" >, SYNSEM.PHON.ONSET voc ]. ana_n1 := n_-_pn_le & [ STEM < "Ana" >, SYNSEM [ LKEYS.KEYREL.CARG "Ana", PHON.ONSET voc ] ]. ana_n2 := n_-_pn_le & [ STEM < "ANA" >, SYNSEM [ LKEYS.KEYREL.CARG "ANA", PHON.ONSET voc ] ]. anabaptist_a1 := aj_-_i_le & [ STEM < "Anabaptist" >, SYNSEM [ LKEYS.KEYREL.PRED "_anabaptist_a_1_rel", PHON.ONSET voc ] ]. anabaptist_n1 := n_-_c-nocnh_le & [ STEM < "Anabaptist" >, SYNSEM [ LKEYS.KEYREL.PRED "_anabaptist_n_1_rel", PHON.ONSET voc ] ]. anachronism_n1 := n_-_c_le & [ STEM < "anachronism" >, SYNSEM [ LKEYS.KEYREL.PRED "_anachronism_n_1_rel", PHON.ONSET voc ] ]. anal_a1 := aj_-_i_le & [ STEM < "anal" >, SYNSEM [ LKEYS.KEYREL.PRED "_anal_a_1_rel", PHON.ONSET voc ] ]. analog_a1 := aj_-_i_le & [ STEM < "analog" >, SYNSEM [ LKEYS.KEYREL.PRED "_analog_a_1_rel", PHON.ONSET voc ] ]. analog_digital_a1 := aj_-_i_le & [ STEM < "analog", "/", "digital" >, SYNSEM [ LKEYS.KEYREL.PRED "_digital+analog_a_1_rel", PHON.ONSET voc ] ]. analogically_adv := av_-_i-vp_le & [ STEM < "analogically" >, SYNSEM [ LKEYS.KEYREL.PRED "_analogical_a_1_rel", PHON.ONSET voc ] ]. analogous_a1 := aj_pp_i_le & [ STEM < "analogous" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_analogous_a_to_rel" ], PHON.ONSET voc ] ]. analogue_n1 := n_-_c_le & [ STEM < "analogue" >, SYNSEM [ LKEYS.KEYREL.PRED "_analogue_n_1_rel", PHON.ONSET voc ] ]. analogy_n1 := n_-_mc_le & [ STEM < "analogy" >, SYNSEM [ LKEYS.KEYREL.PRED "_analogy_n_1_rel", PHON.ONSET voc ] ]. analysis_n1 := n_pp_mc-of_le & [ STEM < "analysis" >, SYNSEM [ LKEYS.KEYREL.PRED "_analysis_n_of_rel", PHON.ONSET voc ] ]. analyst_n1 := n_-_c_le & [ STEM < "analyst" >, SYNSEM [ LKEYS.KEYREL.PRED "_analyst_n_1_rel", PHON.ONSET voc ] ]. analyte_n1 := n_-_mc_le & [ STEM < "analyte" >, SYNSEM [ LKEYS.KEYREL.PRED "_analyte_n_1_rel", PHON.ONSET voc ] ]. analytical_a1 := aj_-_i_le & [ STEM < "analytical" >, SYNSEM [ LKEYS.KEYREL.PRED "_analytical_a_1_rel", PHON.ONSET voc ] ]. analyze_v1 := v_np_le & [ STEM < "analyze" >, SYNSEM [ LKEYS.KEYREL.PRED "_analyze_v_1_rel", PHON.ONSET voc ] ]. analyze_v1_br := v_np_le & [ DIALECT br, STEM < "analyse" >, SYNSEM [ LKEYS.KEYREL.PRED "_analyze_v_1_rel", PHON.ONSET voc ] ]. analyzer_n1 := n_-_c_le & [ STEM < "analyzer" >, SYNSEM [ LKEYS.KEYREL.PRED "_analyzer_n_1_rel", PHON.ONSET voc ] ]. anapophysis_n1 := n_-_m_le & [ STEM < "anapophysis" >, SYNSEM [ LKEYS.KEYREL.PRED "_anapophysis_n_1_rel", PHON.ONSET voc ] ]. anat_abb_n1 := n_-_m_le & [ STEM < "anat." >, SYNSEM [ LKEYS.KEYREL.PRED "_anatomy_n_1_rel", PHON.ONSET voc ] ]. anat_abb_n2 := n_-_m_le & [ STEM < "anat" >, SYNSEM [ LKEYS.KEYREL.PRED "_anatomy_n_1_rel", PHON.ONSET voc ] ]. anatomical_a1 := aj_-_i_le & [ STEM < "anatomical" >, SYNSEM [ LKEYS.KEYREL.PRED "_anatomical_a_1_rel", PHON.ONSET voc ] ]. anatomy_n1 := n_-_mc_le & [ STEM < "anatomy" >, SYNSEM [ LKEYS.KEYREL.PRED "_anatomy_n_1_rel", PHON.ONSET voc ] ]. ancestor_n1 := n_-_c_le & [ STEM < "ancestor" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancestor_n_1_rel", PHON.ONSET voc ] ]. ancestral_a1 := aj_-_i_le & [ STEM < "ancestral" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancestral_a_1_rel", PHON.ONSET voc ] ]. ancestry_n1 := n_-_mc_le & [ STEM < "ancestry" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancestry_n_1_rel", PHON.ONSET voc ] ]. anchor_n1 := n_-_c_le & [ STEM < "anchor" >, SYNSEM [ LKEYS.KEYREL.PRED "_anchor_n_1_rel", PHON.ONSET voc ] ]. anchor_v1 := v_np*_le & [ STEM < "anchor" >, SYNSEM [ LKEYS.KEYREL.PRED "_anchor_v_1_rel", PHON.ONSET voc ] ]. ancient_a1 := aj_-_i_le & [ STEM < "ancient" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancient_a_1_rel", PHON.ONSET voc ] ]. anciently_adv := av_-_i-vp_le & [ STEM < "anciently" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancient_a_1_rel", PHON.ONSET voc ] ]. ancillary_a1 := aj_-_i_le & [ STEM < "ancillary" >, SYNSEM [ LKEYS.KEYREL.PRED "_ancillary_a_1_rel", PHON.ONSET voc ] ]. and_also_1 := c_xp_and-also_le & [ STEM < "and", "also" >, SYNSEM.PHON.ONSET voc ]. and_c_prop := cm_vp_and_le & [ STEM < "and" >, SYNSEM.PHON.ONSET voc ]. and_conj := c_xp_and_le & [ STEM < "and" >, SYNSEM.PHON.ONSET voc ]. and_conj_amp := c_xp_amp_le & [ STEM < "&" >, SYNSEM.PHON.ONSET voc ]. and_finally_1 := c_xp_and-finally_le & [ STEM < "and", "finally" >, SYNSEM.PHON.ONSET voc ]. and_fract := c_xp_and-fract_le & [ STEM < "and" >, SYNSEM.PHON.ONSET voc ]. and_fract_2 := c_xp_and-fract_le & [ STEM < "-", "and", "-" >, SYNSEM.PHON.ONSET voc ]. and_neither_subord_inv := p_cp_inv-s_le & [ STEM < "and", "neither" >, SYNSEM [ LKEYS.KEYREL.PRED "_and+neither_x_subord_rel", PHON.ONSET voc ] ]. and_not_1 := c_xp_and-not_le & [ STEM < "and", "not" >, SYNSEM.PHON.ONSET voc ]. and_num := c_xp_and-num_le & [ STEM < "and" >, SYNSEM.PHON.ONSET voc ]. and_or_conj_1 := c_xp_and-or_le & [ STEM < "and", "/", "or" >, SYNSEM.PHON.ONSET voc ]. and_or_conj_2 := c_xp_and-or_le & [ STEM < "and/or" >, SYNSEM.PHON.ONSET voc ]. and_or_conj_3 := c_xp_and-or_le & [ STEM < "/" >, SYNSEM.PHON.ONSET voc ]. and_so_1 := c_xp_and-so_le & [ STEM < "and", "so" >, SYNSEM.PHON.ONSET voc ]. and_so_on_adv1 := av_-_i-vp-po_le & [ STEM < "and", "so", "on" >, SYNSEM [ LKEYS.KEYREL.PRED "_and+so+on_a_1_rel", PHON.ONSET voc ] ]. and_so_subord_inv := p_cp_inv-s_le & [ STEM < "and", "so" >, SYNSEM [ LKEYS.KEYREL.PRED "_and+so_x_subord_rel", PHON.ONSET voc ] ]. and_then_1 := c_xp_and-then_le & [ STEM < "and", "then" >, SYNSEM.PHON.ONSET voc ]. and_vice_versa_adv1 := av_-_i-vp-po_le & [ STEM < "and", "vice", "versa" >, SYNSEM [ LKEYS.KEYREL.PRED "_and+vice+versa_a_1_rel", PHON.ONSET voc ] ]. and_vice_versa_adv2 := av_-_i-vp-po_le & [ STEM < "and", "vice-", "versa" >, SYNSEM [ LKEYS.KEYREL.PRED "_and+vice+versa_a_1_rel", PHON.ONSET voc ] ]. and_yet_1 := c_xp_and-yet_le & [ STEM < "and", "yet" >, SYNSEM.PHON.ONSET voc ]. andenes := n_-_pn-city_le & [ STEM < "Andenes" >, SYNSEM [ LKEYS.KEYREL.CARG "Andenes", PHON.ONSET voc ] ]. andersen_n1 := n_-_pn_le & [ STEM < "Andersen" >, SYNSEM [ LKEYS.KEYREL.CARG "Andersen", PHON.ONSET voc ] ]. andersfjellet := n_-_pn_le & [ STEM < "Andersfjellet" >, SYNSEM [ LKEYS.KEYREL.CARG "Andersfjellet", PHON.ONSET voc ] ]. anderson_n1 := n_-_pn_le & [ STEM < "Anderson" >, SYNSEM [ LKEYS.KEYREL.CARG "Anderson", PHON.ONSET voc ] ]. andreas_n1 := n_-_pn_le & [ STEM < "Andreas" >, SYNSEM [ LKEYS.KEYREL.CARG "Andreas", PHON.ONSET voc ] ]. andrei_n1 := n_-_pn_le & [ STEM < "Andrei" >, SYNSEM [ LKEYS.KEYREL.CARG "Andrei", PHON.ONSET voc ] ]. andrevatnet_n1 := n_-_pn_le & [ STEM < "Andrevatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Andrevatnet", PHON.ONSET voc ] ]. andrew_n1 := n_-_pn_le & [ STEM < "Andrew" >, SYNSEM [ LKEYS.KEYREL.CARG "Andrew", PHON.ONSET voc ] ]. andy_n1 := n_-_pn_le & [ STEM < "Andy" >, SYNSEM [ LKEYS.KEYREL.CARG "Andy", PHON.ONSET voc ] ]. anecdote_n1 := n_-_c_le & [ STEM < "anecdote" >, SYNSEM [ LKEYS.KEYREL.PRED "_anecdote_n_1_rel", PHON.ONSET voc ] ]. anemone_n1 := n_-_c_le & [ STEM < "anemone" >, SYNSEM [ LKEYS.KEYREL.PRED "_anemone_n_1_rel", PHON.ONSET voc ] ]. anestølen := n_-_pn_le & [ STEM < "Anestølen" >, SYNSEM [ LKEYS.KEYREL.CARG "Anestølen", PHON.ONSET voc ] ]. anew_adv1 := av_-_i-vp-po_le & [ STEM < "anew" >, SYNSEM [ LKEYS.KEYREL.PRED "_anew_a_1_rel", PHON.ONSET voc ] ]. angardsvatnet_n1 := n_-_pn_le & [ STEM < "Angardsvatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Angardsvatnet", PHON.ONSET voc ] ]. angel_n1 := n_-_c_le & [ STEM < "angel" >, SYNSEM [ LKEYS.KEYREL.PRED "_angel_n_1_rel", PHON.ONSET voc ] ]. angela_n1 := n_-_pn_le & [ STEM < "Angela" >, SYNSEM [ LKEYS.KEYREL.CARG "Angela", PHON.ONSET voc ] ]. angelica_n1 := n_-_pn_le & [ STEM < "Angelica" >, SYNSEM [ LKEYS.KEYREL.CARG "Angelica", PHON.ONSET voc ] ]. angelina_n1 := n_-_pn_le & [ STEM < "Angelina" >, SYNSEM [ LKEYS.KEYREL.CARG "Angelina", PHON.ONSET voc ] ]. angelo_n1 := n_-_pn_le & [ STEM < "Angelo" >, SYNSEM [ LKEYS.KEYREL.CARG "Angelo", PHON.ONSET voc ] ]. anger_n1 := n_-_m_le & [ STEM < "anger" >, SYNSEM [ LKEYS.KEYREL.PRED "_anger_n_1_rel", PHON.ONSET voc ] ]. anger_v1 := v_np_le & [ STEM < "anger" >, SYNSEM [ LKEYS.KEYREL.PRED "_anger_v_1_rel", PHON.ONSET voc ] ]. anger_v2 := v_np-cp_it-s_le & [ STEM < "anger" >, SYNSEM [ LKEYS.KEYREL.PRED "_anger_v_1_rel", PHON.ONSET voc ] ]. angie_n1 := n_-_pn_le & [ STEM < "Angie" >, SYNSEM [ LKEYS.KEYREL.CARG "Angie", PHON.ONSET voc ] ]. angle_for_v1 := v_pp_e_le & [ STEM < "angle" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_angle_v_for_rel" ], PHON.ONSET voc ] ]. angle_n1 := n_-_c_le & [ STEM < "angle" >, SYNSEM [ LKEYS.KEYREL.PRED "_angle_n_1_rel", PHON.ONSET voc ] ]. angle_v1 := v_-_le & [ STEM < "angle" >, SYNSEM [ LKEYS.KEYREL.PRED "_angle_v_1_rel", PHON.ONSET voc ] ]. angle_v2 := v_np_le & [ STEM < "angle" >, SYNSEM [ LKEYS.KEYREL.PRED "_angle_v_2_rel", PHON.ONSET voc ] ]. angler_n1 := n_-_c_le & [ STEM < "angler" >, SYNSEM [ LKEYS.KEYREL.PRED "_angler_n_1_rel", PHON.ONSET voc ] ]. anglia_n1 := n_-_pn_le & [ STEM < "Anglia" >, SYNSEM [ LKEYS.KEYREL.CARG "Anglia", PHON.ONSET voc ] ]. anglian_a1 := aj_-_i_le & [ STEM < "Anglian" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglian_a_1_rel", PHON.ONSET voc ] ]. anglican_a1 := aj_-_i_le & [ STEM < "Anglican" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglican_a_1_rel", PHON.ONSET voc ] ]. anglican_n1 := n_-_c-nocnh_le & [ STEM < "Anglican" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglican_n_1_rel", PHON.ONSET voc ] ]. anglicanism_n1 := n_-_pn_le & [ STEM < "Anglicanism" >, SYNSEM [ LKEYS.KEYREL.CARG "Anglicanism", PHON.ONSET voc ] ]. angling_n1 := n_-_m_le & [ STEM < "angling" >, SYNSEM [ LKEYS.KEYREL.PRED "_angling_n_1_rel", PHON.ONSET voc ] ]. anglo-saxon_a1 := aj_-_i_le & [ STEM < "anglo-", "saxon" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglo-saxon_a_1_rel", PHON.ONSET voc ] ]. anglo-saxon_a2 := aj_-_i_le & [ STEM < "anglo", "saxon" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglo-saxon_a_1_rel", PHON.ONSET voc ] ]. anglo_a1 := aj_-_i-att_le & [ STEM < "Anglo-" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglo-_a_1_rel", PHON.ONSET voc ] ]. anglo_n1 := n_-_c-nocnh_le & [ STEM < "Anglo" >, SYNSEM [ LKEYS.KEYREL.PRED "_anglo_n_1_rel", PHON.ONSET voc ] ]. angrily_adv := av_-_i-vp_le & [ STEM < "angrily" >, SYNSEM [ LKEYS.KEYREL.PRED "_angry_a_1_rel", PHON.ONSET voc ] ]. angry_a1 := aj_pp_i_le & [ STEM < "angry" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_angry_a_at_rel" ], PHON.ONSET voc ] ]. angstrom_sign_n1 := n_-_c-meas_le & [ STEM < "Å" >, SYNSEM [ LKEYS.KEYREL.PRED "_angstrom_n_1_rel", PHON.ONSET voc ] ]. angstrom_sign_n2 := n_-_c-meas_le & [ STEM < "Å" >, SYNSEM [ LKEYS.KEYREL.PRED "_angstrom_n_1_rel", PHON.ONSET voc ] ]. angstrom_sign_n3 := n_-_c-meas_le & [ STEM < "Å." >, SYNSEM [ LKEYS.KEYREL.PRED "_angstrom_n_1_rel", PHON.ONSET voc ] ]. angstrom_sign_n4 := n_-_c-meas_le & [ STEM < "Å" >, SYNSEM [ LKEYS.KEYREL.PRED "_angstrom_n_1_rel", PHON.ONSET voc ] ]. anguish_n1 := n_-_m_le & [ STEM < "anguish" >, SYNSEM [ LKEYS.KEYREL.PRED "_anguish_n_1_rel", PHON.ONSET voc ] ]. angus_n1 := n_-_pn_le & [ STEM < "Angus" >, SYNSEM [ LKEYS.KEYREL.CARG "Angus", PHON.ONSET voc ] ]. anhui_n1 := n_-_pn_le & [ STEM < "Anhui" >, SYNSEM [ LKEYS.KEYREL.CARG "Anhui", PHON.ONSET voc ] ]. animal_n1 := n_-_c_le & [ STEM < "animal" >, SYNSEM [ LKEYS.KEYREL.PRED "_animal_n_1_rel", PHON.ONSET voc ] ]. animate_a1 := aj_-_i_le & [ STEM < "animate" >, SYNSEM [ LKEYS.KEYREL.PRED "_animate_a_1_rel", PHON.ONSET voc ] ]. animate_v1 := v_np_le & [ STEM < "animate" >, SYNSEM [ LKEYS.KEYREL.PRED "_animate_v_1_rel", PHON.ONSET voc ] ]. animation_n1 := n_pp_mc-of_le & [ STEM < "animation" >, SYNSEM [ LKEYS.KEYREL.PRED "_animation_n_of_rel", PHON.ONSET voc ] ]. anise_n1 := n_-_m_le & [ STEM < "anise" >, SYNSEM [ LKEYS.KEYREL.PRED "_anise_n_1_rel", PHON.ONSET voc ] ]. ankle_n1 := n_-_c_le & [ STEM < "ankle" >, SYNSEM [ LKEYS.KEYREL.PRED "_ankle_n_1_rel", PHON.ONSET voc ] ]. ann_n1 := n_-_pn_le & [ STEM < "Ann" >, SYNSEM [ LKEYS.KEYREL.CARG "Ann", PHON.ONSET voc ] ]. anna_n1 := n_-_pn_le & [ STEM < "Anna" >, SYNSEM [ LKEYS.KEYREL.CARG "Anna", PHON.ONSET voc ] ]. annals_n1 := n_-_c-pl-nocnh_le & [ STEM < "annal" >, SYNSEM [ LKEYS.KEYREL.PRED "_annals_n_1_rel", PHON.ONSET voc ] ]. anne := n_-_pn_le & [ STEM < "Anne" >, SYNSEM [ LKEYS.KEYREL.CARG "Anne", PHON.ONSET voc ] ]. anneal_v1 := v_np_noger_le & [ STEM < "anneal" >, SYNSEM [ LKEYS.KEYREL.PRED "_anneal_v_cause_rel", PHON.ONSET voc ] ]. anneal_v2 := v_-_unacc_le & [ STEM < "anneal" >, SYNSEM [ LKEYS.KEYREL.PRED "_anneal_v_1_rel", PHON.ONSET voc ] ]. annex_n1 := n_-_c_le & [ STEM < "annex" >, SYNSEM [ LKEYS.KEYREL.PRED "_annex_n_1_rel", PHON.ONSET voc ] ]. annex_v1 := v_np_le & [ STEM < "annex" >, SYNSEM [ LKEYS.KEYREL.PRED "_annex_v_1_rel", PHON.ONSET voc ] ]. annie_n1 := n_-_pn_le & [ STEM < "Annie" >, SYNSEM [ LKEYS.KEYREL.CARG "Annie", PHON.ONSET voc ] ]. annihilation_n1 := n_-_mc_le & [ STEM < "annihilation" >, SYNSEM [ LKEYS.KEYREL.PRED "_annihilation_n_1_rel", PHON.ONSET voc ] ]. anniversary_n1 := n_pp_c-of_le & [ STEM < "anniversary" >, SYNSEM [ LKEYS.KEYREL.PRED "_anniversary_n_of_rel", PHON.ONSET voc ] ]. annotate_v1 := v_np*_le & [ STEM < "annotate" >, SYNSEM [ LKEYS.KEYREL.PRED "_annotate_v_1_rel", PHON.ONSET voc ] ]. annotation_n1 := n_-_mc_le & [ STEM < "annotation" >, SYNSEM [ LKEYS.KEYREL.PRED "_annotation_n_1_rel", PHON.ONSET voc ] ]. announce_v1 := v_np-pp*_to_le & [ STEM < "announce" >, SYNSEM [ LKEYS.KEYREL.PRED "_announce_v_to_rel", PHON.ONSET voc ] ]. announce_v2 := v_cp_le & [ STEM < "announce" >, SYNSEM [ LKEYS.KEYREL.PRED "_announce_v_1_rel", PHON.ONSET voc ] ]. announcement_n1 := n_pp_c-of_le & [ STEM < "announcement" >, SYNSEM [ LKEYS.KEYREL.PRED "_announcement_n_of_rel", PHON.ONSET voc ] ]. annoy_v1 := v_np*_le & [ STEM < "annoy" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoy_v_1_rel", PHON.ONSET voc ] ]. annoy_v2 := v_np-cp_it-s_le & [ STEM < "annoy" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoy_v_1_rel", PHON.ONSET voc ] ]. annoyance_n1 := n_-_mc_le & [ STEM < "annoyance" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoyance_n_1_rel", PHON.ONSET voc ] ]. annoyed_a1 := aj_-_i_le & [ STEM < "annoyed" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoyed_a_1_rel", PHON.ONSET voc ] ]. annoyed_a2 := aj_cp_i-fin_le & [ STEM < "annoyed" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoyed_a_1_rel", PHON.ONSET voc ] ]. annoyingly := av_-_i-vp_le & [ STEM < "annoyingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_annoying_a_1_rel", PHON.ONSET voc ] ]. annual_a1 := aj_-_i_le & [ STEM < "annual" >, SYNSEM [ LKEYS.KEYREL.PRED "_annual_a_1_rel", PHON.ONSET voc ] ]. annual_n1 := n_-_c-nocnh_le & [ STEM < "annual" >, SYNSEM [ LKEYS.KEYREL.PRED "_annual_n_1_rel", PHON.ONSET voc ] ]. annually_isect := av_-_i-vp_le & [ STEM < "annually" >, SYNSEM [ LKEYS.KEYREL.PRED "_annual_a_1_rel", PHON.ONSET voc ] ]. annul_v1 := v_np_le & [ STEM < "annul" >, SYNSEM [ LKEYS.KEYREL.PRED "_annul_v_1_rel", PHON.ONSET voc ] ]. annular_a1 := aj_-_i_le & [ STEM < "annular" >, SYNSEM [ LKEYS.KEYREL.PRED "_annular_a_1_rel", PHON.ONSET voc ] ]. annulment_n1 := n_-_mc_le & [ STEM < "annulment" >, SYNSEM [ LKEYS.KEYREL.PRED "_annulment_n_1_rel", PHON.ONSET voc ] ]. anonymity_n1 := n_-_c_le & [ STEM < "anonymity" >, SYNSEM [ LKEYS.KEYREL.PRED "_anonymity_n_1_rel", PHON.ONSET voc ] ]. anonymous_a1 := aj_-_i_le & [ STEM < "anonymous" >, SYNSEM [ LKEYS.KEYREL.PRED "_anonymous_a_1_rel", PHON.ONSET voc ] ]. anonymously_adv1 := av_-_i-vp_le & [ STEM < "anonymously" >, SYNSEM [ LKEYS.KEYREL.PRED "_anonymous_a_1_rel", PHON.ONSET voc ] ]. anorak_n1 := n_-_c_le & [ STEM < "anorak" >, SYNSEM [ LKEYS.KEYREL.PRED "_anorak_n_1_rel", PHON.ONSET voc ] ]. anorexia_n1 := n_-_m_le & [ STEM < "anorexia" >, SYNSEM [ LKEYS.KEYREL.PRED "_anorexia_n_1_rel", PHON.ONSET voc ] ]. anorexia_nervosa_n1 := n_-_m_le & [ STEM < "anorexia", "nervosa" >, SYNSEM [ LKEYS.KEYREL.PRED "_anorexia_nervosa_n_1_rel", PHON.ONSET voc ] ]. another := d_-_prt-sg_le & [ STEM < "another" >, SYNSEM [ LKEYS.KEYREL.PRED _another_q_rel, PHON.ONSET voc ] ]. another_d2 := d_-_prt-anthr_le & [ STEM < "another" >, SYNSEM [ LKEYS.KEYREL.PRED _another_q_rel, PHON.ONSET voc ] ]. another_fract := aj_np_i-frct-ath_le & [ STEM < "another" >, SYNSEM.PHON.ONSET voc ]. another_pl := d_-_pl-modn_le & [ STEM < "another" >, SYNSEM [ LKEYS.KEYREL.PRED _another_q_rel, PHON.ONSET voc ] ]. anren_n1 := n_-_pn_le & [ STEM < "Anren" >, SYNSEM [ LKEYS.KEYREL.CARG "Anren", PHON.ONSET voc ] ]. answer_i_n1 := n_-_c-brno_le & [ STEM < "answer" >, SYNSEM [ LKEYS.KEYREL.PRED "_answer_n_to_rel", PHON.ONSET voc ] ]. answer_n1 := n_pp_c_le & [ STEM < "answer" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_answer_n_to_rel" ], PHON.ONSET voc ] ]. answer_v1 := v_np*-cp_le & [ STEM < "answer" >, SYNSEM [ LKEYS.KEYREL.PRED "_answer_v_1_rel", PHON.ONSET voc ] ]. answer_v2 := v_np*_le & [ STEM < "answer" >, SYNSEM [ LKEYS.KEYREL.PRED "_answer_v_1_rel", PHON.ONSET voc ] ]. answering_isect := aj_-_i_le & [ STEM < "answering" >, SYNSEM [ LKEYS.KEYREL.PRED "_answering_a_1_rel", PHON.ONSET voc ] ]. ant_n1 := n_-_c_le & [ STEM < "ant" >, SYNSEM [ LKEYS.KEYREL.PRED "_ant_n_1_rel", PHON.ONSET voc ] ]. antacid_n1 := n_-_mc_le & [ STEM < "antacid" >, SYNSEM [ LKEYS.KEYREL.PRED "_antacid_n_1_rel", PHON.ONSET voc ] ]. antagonist_n1 := n_-_c_le & [ STEM < "antagonist" >, SYNSEM [ LKEYS.KEYREL.PRED "_antagonist_n_1_rel", PHON.ONSET voc ] ]. antagonistic_a1 := aj_-_i_le & [ STEM < "antagonistic" >, SYNSEM [ LKEYS.KEYREL.PRED "_antagonistic_a_1_rel", PHON.ONSET voc ] ]. antagonistically := av_-_i-vp_le & [ STEM < "antagonistically" >, SYNSEM [ LKEYS.KEYREL.PRED "_antagonistic_a_1_rel", PHON.ONSET voc ] ]. antagonize_v1 := v_np_le & [ STEM < "antagonize" >, SYNSEM [ LKEYS.KEYREL.PRED "_antagonize_v_1_rel", PHON.ONSET voc ] ]. antarctica_n1 := n_-_pn_le & [ STEM < "Antarctica" >, SYNSEM [ LKEYS.KEYREL.CARG "Antarctica", PHON.ONSET voc ] ]. ante-bellum_a1 := aj_-_i_le & [ STEM < "ante-", "bellum" >, SYNSEM [ LKEYS.KEYREL.PRED "_ante-bellum_a_1_rel", PHON.ONSET voc ] ]. ante-bellum_a2 := aj_-_i_le & [ STEM < "ante", "bellum" >, SYNSEM [ LKEYS.KEYREL.PRED "_ante-bellum_a_1_rel", PHON.ONSET voc ] ]. ante-bellum_a3 := aj_-_i_le & [ STEM < "antebellum" >, SYNSEM [ LKEYS.KEYREL.PRED "_ante-bellum_a_1_rel", PHON.ONSET voc ] ]. antecedent_a1 := aj_-_i_le & [ STEM < "antecedent" >, SYNSEM [ LKEYS.KEYREL.PRED "_antecedent_a_1_rel", PHON.ONSET voc ] ]. antecedent_n1 := n_-_c_le & [ STEM < "antecedent" >, SYNSEM [ LKEYS.KEYREL.PRED "_antecedent_n_1_rel", PHON.ONSET voc ] ]. antenna_n1 := n_-_c_le & [ STEM < "antenna" >, SYNSEM [ LKEYS.KEYREL.PRED "_antenna_n_1_rel", PHON.ONSET voc ] ]. anterior_a1 := aj_-_i_le & [ STEM < "anterior" >, SYNSEM [ LKEYS.KEYREL.PRED "_anterior_a_1_rel", PHON.ONSET voc ] ]. anterior_n1 := n_-_mc_le & [ STEM < "anterior" >, SYNSEM [ LKEYS.KEYREL.PRED "_anterior_n_1_rel", PHON.ONSET voc ] ]. anteroom_n := n_-_c_le & [ STEM < "anteroom" >, SYNSEM [ LKEYS.KEYREL.PRED "_anteroom_n_1_rel", PHON.ONSET voc ] ]. anthem_n1 := n_-_c_le & [ STEM < "anthem" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthem_n_1_rel", PHON.ONSET voc ] ]. anther_n1 := n_-_c_le & [ STEM < "anther" >, SYNSEM [ LKEYS.KEYREL.PRED "_anther_n_1_rel", PHON.ONSET voc ] ]. anthony_n1 := n_-_pn_le & [ STEM < "Anthony" >, SYNSEM [ LKEYS.KEYREL.CARG "Anthony", PHON.ONSET voc ] ]. anthozoa := n_-_pn_le & [ STEM < "Anthozoa" >, SYNSEM [ LKEYS.KEYREL.CARG "Anthozoa", PHON.ONSET voc ] ]. anthracite_n1 := n_-_m_le & [ STEM < "anthracite" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthracite_n_1_rel", PHON.ONSET voc ] ]. anthropoid_a1 := aj_-_i_le & [ STEM < "anthropoid" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthropoid_a_1_rel", PHON.ONSET voc ] ]. anthropoid_n1 := n_-_c_le & [ STEM < "anthropoid" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthropoid_n_1_rel", PHON.ONSET voc ] ]. anthropologist_n1 := n_-_c_le & [ STEM < "anthropologist" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthropologist_n_1_rel", PHON.ONSET voc ] ]. anthropology_n1 := n_-_c_le & [ STEM < "anthropology" >, SYNSEM [ LKEYS.KEYREL.PRED "_anthropology_n_1_rel", PHON.ONSET voc ] ]. anti-diarrhoeic_a1 := aj_-_i_le & [ STEM < "anti-", "diarrhoeic" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-diarrhoeic_a_1_rel", PHON.ONSET voc ] ]. anti-semitism_n1 := n_-_m_le & [ STEM < "anti-", "Semitism" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semitism_n_1_rel", PHON.ONSET voc ] ]. anti_a1 := aj_-_i-att_le & [ STEM < "anti-" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-_a_1_rel", PHON.ONSET voc ] ]. anti_a2 := aj_-_i-att_le & [ STEM < "anti" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-_a_1_rel", PHON.ONSET voc ] ]. anti_cancer_a1 := aj_-_i_le & [ STEM < "anticancer" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti+cancer_a_1_rel", PHON.ONSET voc ] ]. anti_democratic_a1 := aj_-_i_le & [ STEM < "anti", "democratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti+democratic_a_1_rel", PHON.ONSET voc ] ]. anti_democratic_a2 := aj_-_i_le & [ STEM < "anti-", "democratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti+democratic_a_1_rel", PHON.ONSET voc ] ]. anti_semite_n1 := n_-_c_le & [ STEM < "anti-", "Semite" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semite_n_1_rel", PHON.ONSET voc ] ]. anti_semite_n2 := n_-_c_le & [ STEM < "anti", "Semite" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semite_n_1_rel", PHON.ONSET voc ] ]. anti_semite_n3 := n_-_c_le & [ STEM < "antiSemite" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semite_n_1_rel", PHON.ONSET voc ] ]. anti_semitic_a1 := aj_-_i_le & [ STEM < "anti-", "Semitic" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semitic_a_1_rel", PHON.ONSET voc ] ]. anti_semitic_a2 := aj_-_i_le & [ STEM < "anti", "Semitic" >, SYNSEM [ LKEYS.KEYREL.PRED "_anti-Semitic_a_1_rel", PHON.ONSET voc ] ]. antibiotic_n1 := n_-_c_le & [ STEM < "antibiotic" >, SYNSEM [ LKEYS.KEYREL.PRED "_antibiotic_n_1_rel", PHON.ONSET voc ] ]. antibody_n1 := n_-_c_le & [ STEM < "antibody" >, SYNSEM [ LKEYS.KEYREL.PRED "_antibody_n_1_rel", PHON.ONSET voc ] ]. anticipate_prp_v1 := v_vp_seq-prp_le & [ STEM < "anticipate" >, SYNSEM [ LKEYS.KEYREL.PRED "_anticipate_v_1_rel", PHON.ONSET voc ] ]. anticipate_v1 := v_np_le & [ STEM < "anticipate" >, SYNSEM [ LKEYS.KEYREL.PRED "_anticipate_v_1_rel", PHON.ONSET voc ] ]. anticipate_v2 := v_cp_le & [ STEM < "anticipate" >, SYNSEM [ LKEYS.KEYREL.PRED "_anticipate_v_1_rel", PHON.ONSET voc ] ]. anticipation_n1 := n_pp_m_le & [ STEM < "anticipation" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_anticipation_n_of_rel" ], PHON.ONSET voc ] ]. antimicrobial_a1 := aj_-_i_le & [ STEM < "antimicrobial" >, SYNSEM [ LKEYS.KEYREL.PRED "_antimicrobial_a_1_rel", PHON.ONSET voc ] ]. antiquated_a1 := aj_-_i_le & [ STEM < "antiquated" >, SYNSEM [ LKEYS.KEYREL.PRED "_antiquated_a_1_rel", PHON.ONSET voc ] ]. antique_a1 := aj_-_i_le & [ STEM < "antique" >, SYNSEM [ LKEYS.KEYREL.PRED "_antique_a_1_rel", PHON.ONSET voc ] ]. antique_n1 := n_-_c_le & [ STEM < "antique" >, SYNSEM [ LKEYS.KEYREL.PRED "_antique_n_1_rel", PHON.ONSET voc ] ]. antiquity_n1 := n_-_mc_le & [ STEM < "antiquity" >, SYNSEM [ LKEYS.KEYREL.PRED "_antiquity_n_1_rel", PHON.ONSET voc ] ]. antiseptic_a1 := aj_-_i_le & [ STEM < "antiseptic" >, SYNSEM [ LKEYS.KEYREL.PRED "_antiseptic_a_1_rel", PHON.ONSET voc ] ]. antiseptic_n1 := n_-_c_le & [ STEM < "antiseptic" >, SYNSEM [ LKEYS.KEYREL.PRED "_antiseptic_n_1_rel", PHON.ONSET voc ] ]. antithesis_n1 := n_-_c_le & [ STEM < "antithesis" >, SYNSEM [ LKEYS.KEYREL.PRED "_antithesis_n_1_rel", PHON.ONSET voc ] ]. antler_n1 := n_-_c_le & [ STEM < "antler" >, SYNSEM [ LKEYS.KEYREL.PRED "_antler_n_1_rel", PHON.ONSET voc ] ]. antoinette_n1 := n_-_pn_le & [ STEM < "Antoinette" >, SYNSEM [ LKEYS.KEYREL.CARG "Antoinette", PHON.ONSET voc ] ]. anton_n1 := n_-_pn_le & [ STEM < "Anton" >, SYNSEM [ LKEYS.KEYREL.CARG "Anton", PHON.ONSET voc ] ]. antony_n1 := n_-_pn_le & [ STEM < "Antony" >, SYNSEM [ LKEYS.KEYREL.CARG "Antony", PHON.ONSET voc ] ]. antonym_n1 := n_-_c_le & [ STEM < "antonym" >, SYNSEM [ LKEYS.KEYREL.PRED "_antonym_n_1_rel", PHON.ONSET voc ] ]. antsy_a1 := aj_pp_i_le & [ STEM < "antsy" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_antsy_a_about_rel" ], PHON.ONSET voc ] ]. antwerp := n_-_pn_le & [ STEM < "Antwerp" >, SYNSEM [ LKEYS.KEYREL.CARG "Antwerp", PHON.ONSET voc ] ]. anubis_n1 := n_-_pn_le & [ STEM < "Anubis" >, SYNSEM [ LKEYS.KEYREL.CARG "Anubis", PHON.ONSET voc ] ]. anuj_n1 := n_-_pn_le & [ STEM < "Anuj" >, SYNSEM [ LKEYS.KEYREL.CARG "Anuj", PHON.ONSET voc ] ]. anvil_n1 := n_-_c_le & [ STEM < "anvil" >, SYNSEM [ LKEYS.KEYREL.PRED "_anvil_n_1_rel", PHON.ONSET voc ] ]. anxiety_n1 := n_-_mc_le & [ STEM < "anxiety" >, SYNSEM [ LKEYS.KEYREL.PRED "_anxiety_n_1_rel", PHON.ONSET voc ] ]. anxious_a1 := aj_-_i_le & [ STEM < "anxious" >, SYNSEM [ LKEYS.KEYREL.PRED "_anxious_a_1_rel", PHON.ONSET voc ] ]. anxious_a2 := aj_vp_i-seq_le & [ STEM < "anxious" >, SYNSEM [ LKEYS.KEYREL.PRED "_anxious_a_1_rel", PHON.ONSET voc ] ]. anxiously_adv1 := av_-_i-vp_le & [ STEM < "anxiously" >, SYNSEM [ LKEYS.KEYREL.PRED "_anxious_a_1_rel", PHON.ONSET voc ] ]. any_deg := av_-_dg-any_le & [ STEM < "any" >, SYNSEM [ LKEYS.KEYREL.PRED "_any_x_deg_rel", PHON.ONSET voc ] ]. any_det := d_-_prt_le & [ STEM < "any" >, SYNSEM [ LKEYS.KEYREL.PRED _any_q_rel, PHON.ONSET voc ] ]. any_more_adv1 := av_-_i-vp-po_le & [ STEM < "any", "more" >, SYNSEM [ LKEYS.KEYREL.PRED _anymore_a_1_rel, PHON.ONSET voc ] ]. any_more_det := d_-_prt-plm_le & [ STEM < "any", "more" >, SYNSEM [ LKEYS.KEYREL.PRED _any+more_q_rel, PHON.ONSET voc ] ]. anybody := n_-_pr_le & [ STEM < "anybody" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED person_rel ], PHON.ONSET voc ] ]. anyhow_adv1 := av_-_i-vp-po-nmb_le & [ STEM < "anyhow" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyhow_a_1_rel", PHON.ONSET voc ] ]. anyhow_s_adv := av_-_s-cp-mc-pr_le & [ STEM < "anyhow" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyhow_a_1_rel", PHON.ONSET voc ] ]. anymore_adv1 := av_-_i-vp-po_le & [ STEM < "anymore" >, SYNSEM [ LKEYS.KEYREL.PRED _anymore_a_1_rel, PHON.ONSET voc ] ]. anyone := n_-_pr_le & [ STEM < "anyone" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED person_rel ], PHON.ONSET voc ] ]. anyplace_n1 := n_-_pr-ad_le & [ STEM < "anyplace" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. anything := n_-_pr_le & [ STEM < "anything" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED thing_rel ], PHON.ONSET voc ] ]. anytime_n1 := n_-_pr-ad_le & [ STEM < "anytime" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED time_n_rel ], PHON.ONSET voc ] ]. anyuan_n1 := n_-_pn_le & [ STEM < "Anyuan" >, SYNSEM [ LKEYS.KEYREL.CARG "Anyuan", PHON.ONSET voc ] ]. anyvalue_n1 := n_-_pn-unk_le & [ STEM < "anyvalue" > ]. anyway_adv1 := av_-_i-vp-po_le & [ STEM < "anyway" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyway_a_1_rel", PHON.ONSET voc ] ]. anyway_adv2 := av_-_s-cp-mc-pr_le & [ STEM < "anyway" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyway_a_1_rel", PHON.ONSET voc ] ]. anyways_adv1 := av_-_i-vp-po_le & [ STEM < "anyways" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyways_a_1_rel", PHON.ONSET voc ] ]. anyways_adv2 := av_-_s-cp-mc-pr_le & [ STEM < "anyways" >, SYNSEM [ LKEYS.KEYREL.PRED "_anyways_a_1_rel", PHON.ONSET voc ] ]. anywhere_n1 := n_-_pr-ad_le & [ STEM < "anywhere" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. anywhere_n2 := n_-_pr-ad_le & [ STEM < "any", "where" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. anywise_adv1 := av_-_i-vp-po-nmb_le & [ STEM < "anywise" >, SYNSEM [ LKEYS.KEYREL.PRED "_anywise_a_1_rel", PHON.ONSET voc ] ]. anywise_s_adv := av_-_s-cp-mc-pr_le & [ STEM < "anywise" >, SYNSEM [ LKEYS.KEYREL.PRED "_anywise_a_1_rel", PHON.ONSET voc ] ]. anzus_n1 := n_-_pn_le & [ STEM < "Anzus" >, SYNSEM [ LKEYS.KEYREL.CARG "Anzus", PHON.ONSET voc ] ]. aol_n1 := n_-_pn_le & [ STEM < "AOL" >, SYNSEM [ LKEYS.KEYREL.CARG "AOL", PHON.ONSET voc ] ]. apart_a1 := aj_-_i-prd_le & [ STEM < "apart" >, SYNSEM [ LKEYS.KEYREL.PRED "_apart_a_1_rel", PHON.ONSET voc ] ]. apart_from := p_np_i_le & [ STEM < "apart", "from" >, SYNSEM [ LKEYS.KEYREL.PRED _apart+from_p_rel, PHON.ONSET voc ] ]. apart_prtcl := pp_-_ptcl_le & [ STEM < "apart" >, SYNSEM [ LKEYS.KEYREL.PRED _apart_a_sel_rel, PHON.ONSET voc ] ]. apartment_abb_n1 := n_-_c_le & [ STEM < "apt" >, SYNSEM [ LKEYS.KEYREL.PRED "_apartment_n_1_rel", PHON.ONSET voc ] ]. apartment_abb_n2 := n_-_c_le & [ STEM < "apt." >, SYNSEM [ LKEYS.KEYREL.PRED "_apartment_n_1_rel", PHON.ONSET voc ] ]. apartment_n1 := n_-_c_le & [ STEM < "apartment" >, SYNSEM [ LKEYS.KEYREL.PRED "_apartment_n_1_rel", PHON.ONSET voc ] ]. apartments_abb_n1 := n_-_c-pl-nocnh_le & [ STEM < "apts." >, SYNSEM [ LKEYS.KEYREL.PRED "_apartment_n_1_rel", PHON.ONSET voc ] ]. apartments_post_ttl := n_-_tt-post-pl_le & [ STEM < "Apartment" >, SYNSEM [ LKEYS.KEYREL.PRED "_apartment_n_1_rel", PHON.ONSET voc ] ]. apathetic_a1 := aj_-_i_le & [ STEM < "apathetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_apathetic_a_1_rel", PHON.ONSET voc ] ]. apathetically_adv1 := av_-_i-vp_le & [ STEM < "apathetically" >, SYNSEM [ LKEYS.KEYREL.PRED "_apathetic_a_1_rel", PHON.ONSET voc ] ]. apcom_n1 := n_-_pn_le & [ STEM < "APCOM" >, SYNSEM [ LKEYS.KEYREL.CARG "APCOM", PHON.ONSET voc ] ]. ape_n1 := n_-_c_le & [ STEM < "ape" >, SYNSEM [ LKEYS.KEYREL.PRED "_ape_n_1_rel", PHON.ONSET voc ] ]. ape_v1 := v_np_le & [ STEM < "ape" >, SYNSEM [ LKEYS.KEYREL.PRED "_ape_v_1_rel", PHON.ONSET voc ] ]. aperient_a1 := aj_-_i_le & [ STEM < "aperient" >, SYNSEM [ LKEYS.KEYREL.PRED "_aperient_a_1_rel", PHON.ONSET voc ] ]. aperient_n1 := n_-_c_le & [ STEM < "aperient" >, SYNSEM [ LKEYS.KEYREL.PRED "_aperient_n_1_rel", PHON.ONSET voc ] ]. aperitif_n1 := n_-_c_le & [ STEM < "aperitif" >, SYNSEM [ LKEYS.KEYREL.PRED "_aperitif_n_1_rel", PHON.ONSET voc ] ]. aperture_n1 := n_-_c_le & [ STEM < "aperture" >, SYNSEM [ LKEYS.KEYREL.PRED "_aperture_n_1_rel", PHON.ONSET voc ] ]. apex_n1 := n_-_pn_le & [ STEM < "APEX" >, SYNSEM [ LKEYS.KEYREL.CARG "APEX", PHON.ONSET voc ] ]. api_n1 := n_-_pn_le & [ STEM < "API" >, SYNSEM [ LKEYS.KEYREL.CARG "API", PHON.ONSET voc ] ]. api_n2 := n_-_pn_le & [ STEM < "A.P.I." >, SYNSEM [ LKEYS.KEYREL.CARG "API", PHON.ONSET voc ] ]. aplenty_a1 := aj_-_i-prd_le & [ STEM < "aplenty" >, SYNSEM [ LKEYS.KEYREL.PRED "_aplenty_a_1_rel", PHON.ONSET voc ] ]. apocalyptic_a1 := aj_-_i_le & [ STEM < "apocalyptic" >, SYNSEM [ LKEYS.KEYREL.PRED "_apocalyptic_a_1_rel", PHON.ONSET voc ] ]. apollyon := n_-_pn_le & [ STEM < "Apollyon" >, SYNSEM [ LKEYS.KEYREL.CARG "Apollyon", PHON.ONSET voc ] ]. apologetic_a1 := aj_-_i_le & [ STEM < "apologetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_apologetic_a_1_rel", PHON.ONSET voc ] ]. apologetically_adv1 := av_-_i-vp_le & [ STEM < "apologetically" >, SYNSEM [ LKEYS.KEYREL.PRED "_apologetic_a_1_rel", PHON.ONSET voc ] ]. apologize_v1 := v_pp*-pp*_le & [ STEM < "apologize" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, --OCOMPKEY _for_p_rel, KEYREL.PRED "_apologize_v_1_rel" ], PHON.ONSET voc ] ]. apologize_v1_br := v_pp*-pp*_le & [ DIALECT br, STEM < "apologise" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, --OCOMPKEY _for_p_rel, KEYREL.PRED "_apologize_v_1_rel" ], PHON.ONSET voc ] ]. apology_n1 := n_-_mc_le & [ STEM < "apology" >, SYNSEM [ LKEYS.KEYREL.PRED "_apology_n_1_rel", PHON.ONSET voc ] ]. aposematic_a1 := aj_-_i_le & [ STEM < "aposematic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aposematic_a_1_rel", PHON.ONSET voc ] ]. apostle_n1 := n_-_c_le & [ STEM < "apostle" >, SYNSEM [ LKEYS.KEYREL.PRED "_apostle_n_1_rel", PHON.ONSET voc ] ]. apostrophe_n1 := n_-_c_le & [ STEM < "apostrophe" >, SYNSEM [ LKEYS.KEYREL.PRED "_apostrophe_n_1_rel", PHON.ONSET voc ] ]. apostrophe_s_2_lex := n_-_cl-poss_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. apostrophe_s_3_lex := n_-_cl-poss-pl_le & [ STEM < "'" >, SYNSEM.PHON.ONSET con ]. apostrophe_s_4_lex := n_-_cl-poss-pr_le & [ STEM < "'" >, SYNSEM.PHON.ONSET con ]. apostrophe_s_nq_lex := n_-_cl-poss-nq_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. app_n1 := n_-_c_le & [ STEM < "app" >, SYNSEM [ LKEYS.KEYREL.PRED "_app_n_1_rel", PHON.ONSET voc ] ]. appall_n1 := n_-_m_le & [ STEM < "appall" >, SYNSEM [ LKEYS.KEYREL.PRED "_appall_n_1_rel", PHON.ONSET voc ] ]. appall_v1 := v_np_le & [ STEM < "appall" >, SYNSEM [ LKEYS.KEYREL.PRED "_appall_v_1_rel", PHON.ONSET voc ] ]. appall_v2 := v_np-cp_it-s_le & [ STEM < "appall" >, SYNSEM [ LKEYS.KEYREL.PRED "_appall_v_1_rel", PHON.ONSET voc ] ]. appalling_a1 := aj_-_i_le & [ STEM < "appalling" >, SYNSEM [ LKEYS.KEYREL.PRED "_appalling_a_1_rel", PHON.ONSET voc ] ]. apparatus_n1 := n_-_c_le & [ STEM < "apparatus" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparatus_n_1_rel", PHON.ONSET voc ] ]. apparent_a2 := aj_pp-cp_i-it_le & [ STEM < "apparent" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparent_a_to_rel", PHON.ONSET voc ] ]. apparent_isect := aj_-_i_le & [ STEM < "apparent" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparent_a_to_rel", PHON.ONSET voc ] ]. apparently_adv1 := av_-_s-vp-x_le & [ STEM < "apparently" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparent_a_1_rel", PHON.ONSET voc ] ]. apparently_adv2 := av_-_s-cp-pr_le & [ STEM < "apparently" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparent_a_1_rel", PHON.ONSET voc ] ]. apparently_adv3 := av_-_s-negmod_le & [ STEM < "apparently" >, SYNSEM [ LKEYS.KEYREL.PRED "_apparent_a_1_rel", PHON.ONSET voc ] ]. appeal_n1 := n_-_mc_le & [ STEM < "appeal" >, SYNSEM [ LKEYS.KEYREL.PRED "_appeal_n_1_rel", PHON.ONSET voc ] ]. appeal_to_v1 := v_pp_e_le & [ STEM < "appeal" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appeal_v_to_rel" ], PHON.ONSET voc ] ]. appeal_v1 := v_pp-vp_oeq_le & [ STEM < "appeal" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appeal_v_to_rel" ], PHON.ONSET voc ] ]. appeal_v2 := v_np*_le & [ STEM < "appeal" >, SYNSEM [ LKEYS.KEYREL.PRED "_appeal_v_1_rel", PHON.ONSET voc ] ]. appealing_a1 := aj_pp_i_le & [ STEM < "appealing" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appealing_a_to_rel" ], PHON.ONSET voc ] ]. appear_v1 := v_pp-vp_ssr_le & [ STEM < "appear" >, SYNSEM [ LKEYS.KEYREL.PRED "_appear_v_to_rel", PHON.ONSET voc ] ]. appear_v2 := v_ap-pp_seq_le & [ STEM < "appear" >, SYNSEM [ LKEYS.KEYREL.PRED "_appear_v_to_rel", PHON.ONSET voc ] ]. appear_v3 := v_pp*-cp_it-s_le & [ STEM < "appear" >, SYNSEM [ LKEYS.KEYREL.PRED "_appear_v_to_rel", PHON.ONSET voc ] ]. appear_v4 := v_-_le & [ STEM < "appear" >, SYNSEM [ LKEYS.KEYREL.PRED "_appear_v_1_rel", PHON.ONSET voc ] ]. appearance_n1 := n_pp_mc-of_le & [ STEM < "appearance" >, SYNSEM [ LKEYS.KEYREL.PRED "_appearance_n_of_rel", PHON.ONSET voc ] ]. appellation_n1 := n_-_c_le & [ STEM < "appellation" >, SYNSEM [ LKEYS.KEYREL.PRED "_appellation_n_1_rel", PHON.ONSET voc ] ]. append_v1 := v_np*_le & [ STEM < "append" >, SYNSEM [ LKEYS.KEYREL.PRED "_append_v_1_rel", PHON.ONSET voc ] ]. appendage_n1 := n_-_c_le & [ STEM < "appendage" >, SYNSEM [ LKEYS.KEYREL.PRED "_appendage_n_1_rel", PHON.ONSET voc ] ]. appendant_a1 := aj_pp_i_le & [ STEM < "appendant" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appendant_a_to_rel" ], PHON.ONSET voc ] ]. appendant_n1 := n_-_c_le & [ STEM < "appendant" >, SYNSEM [ LKEYS.KEYREL.PRED "_appendant_n_1_rel", PHON.ONSET voc ] ]. appendix_n1 := n_-_c_le & [ STEM < "appendix" >, SYNSEM [ LKEYS.KEYREL.PRED "_appendix_n_1_rel", PHON.ONSET voc ] ]. appertain_to_v1 := v_pp_e_le & [ STEM < "appertain" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appertain_v_to_rel" ], PHON.ONSET voc ] ]. appetite_n1 := n_-_mc_le & [ STEM < "appetite" >, SYNSEM [ LKEYS.KEYREL.PRED "_appetite_n_1_rel", PHON.ONSET voc ] ]. appetizer_n1 := n_-_c_le & [ STEM < "appetizer" >, SYNSEM [ LKEYS.KEYREL.PRED "_appetizer_n_1_rel", PHON.ONSET voc ] ]. appetizing_a1 := aj_-_i_le & [ STEM < "appetizing" >, SYNSEM [ LKEYS.KEYREL.PRED "_appetizing_a_1_rel", PHON.ONSET voc ] ]. appetizingly_a1 := av_-_i-vp_le & [ STEM < "appetizingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_appetizing_a_1_rel", PHON.ONSET voc ] ]. applause_n1 := n_-_m_le & [ STEM < "applause" >, SYNSEM [ LKEYS.KEYREL.PRED "_applause_n_1_rel", PHON.ONSET voc ] ]. apple_n1 := n_-_c_le & [ STEM < "apple" >, SYNSEM [ LKEYS.KEYREL.PRED "_apple_n_1_rel", PHON.ONSET voc ] ]. applesauce_n1 := n_-_m_le & [ STEM < "applesauce" >, SYNSEM [ LKEYS.KEYREL.PRED "_applesauce_n_1_rel", PHON.ONSET voc ] ]. appliance_n1 := n_-_c_le & [ STEM < "appliance" >, SYNSEM [ LKEYS.KEYREL.PRED "_appliance_n_1_rel", PHON.ONSET voc ] ]. applicability_n1 := n_-_m_le & [ STEM < "applicability" >, SYNSEM [ LKEYS.KEYREL.PRED "_applicability_n_1_rel", PHON.ONSET voc ] ]. applicable_a1 := aj_-_i_le & [ STEM < "applicable" >, SYNSEM [ LKEYS.KEYREL.PRED "_applicable_a_1_rel", PHON.ONSET voc ] ]. applicant_n1 := n_-_c_le & [ STEM < "applicant" >, SYNSEM [ LKEYS.KEYREL.PRED "_applicant_n_1_rel", PHON.ONSET voc ] ]. application_n1 := n_pp_mc-of_le & [ STEM < "application" >, SYNSEM [ LKEYS.KEYREL.PRED "_application_n_of_rel", PHON.ONSET voc ] ]. applicator_n1 := n_-_c_le & [ STEM < "applicator" >, SYNSEM [ LKEYS.KEYREL.PRED "_applicator_n_1_rel", PHON.ONSET voc ] ]. applied_a1 := aj_-_i_le & [ STEM < "applied" >, SYNSEM [ LKEYS.KEYREL.PRED "_applied_a_1_rel", PHON.ONSET voc ] ]. apply_to_v1 := v_pp-pp_le & [ STEM < "apply" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, --OCOMPKEY _for_p_rel, KEYREL.PRED "_apply_v_to_rel" ], PHON.ONSET voc ] ]. apply_v1 := v_np_noger_le & [ STEM < "apply" >, SYNSEM [ LKEYS.KEYREL.PRED "_apply_v_2_rel", PHON.ONSET voc ] ]. apply_v2 := v_np-pp_le & [ STEM < "apply" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_rel, KEYREL.PRED "_apply_v_to_rel" ], PHON.ONSET voc ] ]. apply_v3 := v_pp_e_le & [ STEM < "apply" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_apply_v_for_rel" ], PHON.ONSET voc ] ]. apply_v4 := v_-_unacc_le & [ STEM < "apply" >, SYNSEM [ LKEYS.KEYREL.PRED "_apply_v_1_rel", PHON.ONSET voc ] ]. apply_v5 := v_pp_e_le & [ STEM < "apply" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_apply_v_to_rel" ], PHON.ONSET voc ] ]. apply_v6 := v_vp_seq_le & [ STEM < "apply" >, SYNSEM [ LKEYS.KEYREL.PRED "_apply_v_1_rel", PHON.ONSET voc ] ]. appoint_v1 := v_np_le & [ STEM < "appoint" >, SYNSEM [ LKEYS.KEYREL.PRED "_appoint_v_1_rel", PHON.ONSET voc ] ]. appoint_v2 := v_np-pp_oeq-as_le & [ STEM < "appoint" >, SYNSEM [ LKEYS.KEYREL.PRED "_appoint_v_as_rel", PHON.ONSET voc ] ]. appoint_v3 := v_np-np_only_le & [ STEM < "appoint" >, SYNSEM [ LKEYS.KEYREL.PRED "_appoint_v_1_rel", PHON.ONSET voc ] ]. appoint_v4 := v_np-nb_le & [ STEM < "appoint" >, SYNSEM [ LKEYS.KEYREL.PRED "_appoint_v_1_rel", PHON.ONSET voc ] ]. appointment_abb_n1 := n_-_c_le & [ STEM < "appt." >, SYNSEM [ LKEYS.KEYREL.PRED "_appointment_n_1_rel", PHON.ONSET voc ] ]. appointment_abb_n2 := n_-_c_le & [ STEM < "appt" >, SYNSEM [ LKEYS.KEYREL.PRED "_appointment_n_1_rel", PHON.ONSET voc ] ]. appointment_n1 := n_-_c_le & [ STEM < "appointment" >, SYNSEM [ LKEYS.KEYREL.PRED "_appointment_n_1_rel", PHON.ONSET voc ] ]. apportion_v1 := v_np_le & [ STEM < "apportion" >, SYNSEM [ LKEYS.KEYREL.PRED "_apportion_v_1_rel", PHON.ONSET voc ] ]. apportionment_n1 := n_-_mc_le & [ STEM < "apportionment" >, SYNSEM [ LKEYS.KEYREL.PRED "_apportionment_n_1_rel", PHON.ONSET voc ] ]. apposition_n1 := n_-_mc_le & [ STEM < "apposition" >, SYNSEM [ LKEYS.KEYREL.PRED "_apposition_n_1_rel", PHON.ONSET voc ] ]. appraisal_n1 := n_pp_mc-of_le & [ STEM < "appraisal" >, SYNSEM [ LKEYS.KEYREL.PRED "_appraisal_n_of_rel", PHON.ONSET voc ] ]. appraise_v1 := v_np_le & [ STEM < "appraise" >, SYNSEM [ LKEYS.KEYREL.PRED "_appraise_v_1_rel", PHON.ONSET voc ] ]. appreciable_a1 := aj_-_i_le & [ STEM < "appreciable" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciable_a_1_rel", PHON.ONSET voc ] ]. appreciate_v1 := v_np_le & [ STEM < "appreciate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciate_v_1_rel", PHON.ONSET voc ] ]. appreciate_v2 := v_-_le & [ STEM < "appreciate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciate_v_2_rel", PHON.ONSET voc ] ]. appreciate_v3 := v_cp_le & [ STEM < "appreciate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciate_v_1_rel", PHON.ONSET voc ] ]. appreciation_n1 := n_pp_m_le & [ STEM < "appreciation" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_appreciation_n_for_rel" ], PHON.ONSET voc ] ]. appreciation_n2 := n_-_c-sg_le & [ STEM < "appreciation" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciation_n_for_rel", PHON.ONSET voc ] ]. appreciative_a1 := aj_-_i_le & [ STEM < "appreciative" >, SYNSEM [ LKEYS.KEYREL.PRED "_appreciative_a_1_rel", PHON.ONSET voc ] ]. apprehend_v1 := v_np_le & [ STEM < "apprehend" >, SYNSEM [ LKEYS.KEYREL.PRED "_apprehend_v_1_rel", PHON.ONSET voc ] ]. apprehension_n1 := n_-_mc_le & [ STEM < "apprehension" >, SYNSEM [ LKEYS.KEYREL.PRED "_apprehension_n_1_rel", PHON.ONSET voc ] ]. apprentice_n1 := n_-_c_le & [ STEM < "apprentice" >, SYNSEM [ LKEYS.KEYREL.PRED "_apprentice_n_1_rel", PHON.ONSET voc ] ]. apprentice_to_v1 := v_np-pp_e_le & [ STEM < "apprentice" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_apprentice_v_to_rel" ], PHON.ONSET voc ] ]. apprentice_v1 := v_np*_le & [ STEM < "apprentice" >, SYNSEM [ LKEYS.KEYREL.PRED "_apprentice_v_to_rel", PHON.ONSET voc ] ]. approach_n1 := n_pp_c_le & [ STEM < "approach" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_approach_n_to_rel" ], PHON.ONSET voc ] ]. approach_v1 := v_np*_le & [ STEM < "approach" >, SYNSEM [ LKEYS.KEYREL.PRED "_approach_v_1_rel", PHON.ONSET voc ] ]. appropriate_a1 := aj_pp_i_le & [ STEM < "appropriate" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_appropriate_a_to_rel" ], PHON.ONSET voc ] ]. appropriate_a2 := aj_pp-vp_i-it_le & [ STEM < "appropriate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appropriate_a_to_rel", PHON.ONSET voc ] ]. appropriate_a3 := aj_pp-cp_i-it_le & [ STEM < "appropriate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appropriate_a_to_rel", PHON.ONSET voc ] ]. appropriate_v1 := v_np_le & [ STEM < "appropriate" >, SYNSEM [ LKEYS.KEYREL.PRED "_appropriate_v_1_rel", PHON.ONSET voc ] ]. appropriately_isect := av_-_i-vp_le & [ STEM < "appropriately" >, SYNSEM [ LKEYS.KEYREL.PRED "_appropriate_a_1_rel", PHON.ONSET voc ] ]. appropriation_n1 := n_-_mc_le & [ STEM < "appropriation" >, SYNSEM [ LKEYS.KEYREL.PRED "_appropriation_n_1_rel", PHON.ONSET voc ] ]. approval_n1 := n_pp_mc-of_le & [ STEM < "approval" >, SYNSEM [ LKEYS.KEYREL.PRED "_approval_n_of_rel", PHON.ONSET voc ] ]. approve_of_v1 := v_pp_e_le & [ STEM < "approve" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_approve_v_of_rel" ], PHON.ONSET voc ] ]. approve_v1 := v_np*_le & [ STEM < "approve" >, SYNSEM [ LKEYS.KEYREL.PRED "_approve_v_1_rel", PHON.ONSET voc ] ]. approx_thirty_minute := aj_-_i-mnt-app_le & [ STEM < "thirtyish" >, SYNSEM [ LKEYS.KEYREL.CARG "30", PHON.ONSET con ] ]. approximate_a1 := aj_-_i_le & [ STEM < "approximate" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximate_a_1_rel", PHON.ONSET voc ] ]. approximate_v1 := v_np_le & [ STEM < "approximate" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximate_v_1_rel", PHON.ONSET voc ] ]. approximately := av_-_dg-m_le & [ STEM < "approximately" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximately_x_rel", PHON.ONSET voc ] ]. approximately_abb := av_-_dg-m_le & [ STEM < "approx." >, SYNSEM [ LKEYS.KEYREL.PRED "_approximately_x_rel", PHON.ONSET voc ] ]. approximately_abb_2 := av_-_dg-m_le & [ STEM < "approx" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximately_x_rel", PHON.ONSET voc ] ]. approximately_abb_3 := av_-_dg-m_le & [ STEM < "appr." >, SYNSEM [ LKEYS.KEYREL.PRED "_approximately_x_rel", PHON.ONSET voc ] ]. approximately_adv1 := av_-_i-vp_le & [ STEM < "approximately" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximate_a_1_rel", PHON.ONSET voc ] ]. approximately_deg2 := av_-_dg-jov_le & [ STEM < "approximately" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximately_x_deg_rel", PHON.ONSET voc ] ]. approximation_n1 := n_pp_mc-of_le & [ STEM < "approximation" >, SYNSEM [ LKEYS.KEYREL.PRED "_approximation_n_of_rel", PHON.ONSET voc ] ]. appurtenance_n1 := n_-_c_le & [ STEM < "appurtenance" >, SYNSEM [ LKEYS.KEYREL.PRED "_appurtenance_n_1_rel", PHON.ONSET voc ] ]. apricot_computer_n1 := n_-_pn_le & [ STEM < "Apricot", "Computer" >, SYNSEM [ LKEYS.KEYREL.CARG "Apricot_Computer", PHON.ONSET voc ] ]. april := n_-_c-month_le & [ STEM < "April" >, SYNSEM [ LKEYS.KEYREL.CARG "Apr", PHON.ONSET voc ] ]. april_abb_n1 := n_-_c-month_le & [ STEM < "Apr" >, SYNSEM [ LKEYS.KEYREL.CARG "Apr", PHON.ONSET voc ] ]. april_abb_n3 := n_-_c-month_le & [ STEM < "Apr." >, SYNSEM [ LKEYS.KEYREL.CARG "Apr", PHON.ONSET voc ] ]. april_the_det := d_-_month_le & [ STEM < "April", "the" >, SYNSEM [ LKEYS.ALTKEYREL.CARG "apr", PHON.ONSET voc ] ]. apron_n1 := n_-_c_le & [ STEM < "apron" >, SYNSEM [ LKEYS.KEYREL.PRED "_apron_n_1_rel", PHON.ONSET voc ] ]. apropos_a1 := aj_-_i_le & [ STEM < "apropos" >, SYNSEM [ LKEYS.KEYREL.PRED "_apropos_a_1_rel", PHON.ONSET voc ] ]. apse_n1 := n_-_c_le & [ STEM < "apse" >, SYNSEM [ LKEYS.KEYREL.PRED "_apse_n_1_rel", PHON.ONSET voc ] ]. apt_a1 := aj_-_i_le & [ STEM < "apt" >, SYNSEM [ LKEYS.KEYREL.PRED "_apt_a_1_rel", PHON.ONSET voc ] ]. apt_a2 := aj_vp_i-seq_le & [ STEM < "apt" >, SYNSEM [ LKEYS.KEYREL.PRED "_apt_a_1_rel", PHON.ONSET voc ] ]. aptly_adv := av_-_i-vp_le & [ STEM < "aptly" >, SYNSEM [ LKEYS.KEYREL.PRED "_apt_a_1_rel", PHON.ONSET voc ] ]. aqua_n1 := n_-_mc-col_le & [ STEM < "aqua" >, SYNSEM [ LKEYS.KEYREL.PRED "_aqua_n_1_rel", PHON.ONSET voc ] ]. aqua_regia_n1 := n_-_mc_le & [ STEM < "aqua", "regia" >, SYNSEM [ LKEYS.KEYREL.PRED "_aqua+regia_n_1_rel", PHON.ONSET voc ] ]. aquamarine_n1 := n_-_mc-col_le & [ STEM < "aquamarine" >, SYNSEM [ LKEYS.KEYREL.PRED "_aquamarine_n_1_rel", PHON.ONSET voc ] ]. aquarium_n1 := n_-_c_le & [ STEM < "aquarium" >, SYNSEM [ LKEYS.KEYREL.PRED "_aquarium_n_1_rel", PHON.ONSET voc ] ]. aquatic_a1 := aj_-_i_le & [ STEM < "aquatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aquatic_a_1_rel", PHON.ONSET voc ] ]. aqueous_a1 := aj_-_i_le & [ STEM < "aqueous" >, SYNSEM [ LKEYS.KEYREL.PRED "_aqueous_a_1_rel", PHON.ONSET voc ] ]. arab_a1 := aj_-_i_le & [ STEM < "Arab" >, SYNSEM [ LKEYS.KEYREL.PRED "_arab_a_1_rel", PHON.ONSET voc ] ]. arab_n1 := n_-_c_le & [ STEM < "Arab" >, SYNSEM [ LKEYS.KEYREL.PRED "_arab_n_1_rel", PHON.ONSET voc ] ]. arabia_n1 := n_-_pn_le & [ STEM < "Arabia" >, SYNSEM [ LKEYS.KEYREL.CARG "Arabia", PHON.ONSET voc ] ]. arabian_a1 := aj_-_i_le & [ STEM < "Arabian" >, SYNSEM [ LKEYS.KEYREL.PRED "_arabian_a_1_rel", PHON.ONSET voc ] ]. arabian_n1 := n_-_c-nocnh_le & [ STEM < "Arabian" >, SYNSEM [ LKEYS.KEYREL.PRED "_arabian_n_1_rel", PHON.ONSET voc ] ]. arabian_n2 := n_-_pn_le & [ STEM < "Arabian" >, SYNSEM [ LKEYS.KEYREL.CARG "Arabian", PHON.ONSET voc ] ]. arabic_a1 := aj_-_i_le & [ STEM < "Arabic" >, SYNSEM [ LKEYS.KEYREL.PRED "_arabic_a_1_rel", PHON.ONSET voc ] ]. arabic_n1 := n_-_pn_le & [ STEM < "Arabic" >, SYNSEM [ LKEYS.KEYREL.CARG "Arabic", PHON.ONSET voc ] ]. arabica_n1 := n_-_pn_le & [ STEM < "Arabica" >, SYNSEM [ LKEYS.KEYREL.CARG "Arabica", PHON.ONSET voc ] ]. arability_n1 := n_-_m_le & [ STEM < "arability" >, SYNSEM [ LKEYS.KEYREL.PRED "_arability_n_1_rel", PHON.ONSET voc ] ]. arable_a1 := aj_-_i_le & [ STEM < "arable" >, SYNSEM [ LKEYS.KEYREL.PRED "_arable_a_1_rel", PHON.ONSET voc ] ]. aral_n1 := n_-_c-nm_le & [ STEM < "Aral" >, SYNSEM [ LKEYS.KEYREL.CARG "Aral", PHON.ONSET voc ] ]. arbitrarily_isect := av_-_i-vp_le & [ STEM < "arbitrarily" >, SYNSEM [ LKEYS.KEYREL.PRED "_arbitrary_a_1_rel", PHON.ONSET voc ] ]. arbitrary_a1 := aj_-_i_le & [ STEM < "arbitrary" >, SYNSEM [ LKEYS.KEYREL.PRED "_arbitrary_a_1_rel", PHON.ONSET voc ] ]. arbitrator_n1 := n_-_c_le & [ STEM < "arbitrator" >, SYNSEM [ LKEYS.KEYREL.PRED "_arbitrator_n_1_rel", PHON.ONSET voc ] ]. arbo_n1 := n_-_pn_le & [ STEM < "Arbo" >, SYNSEM [ LKEYS.KEYREL.CARG "Arbo", PHON.ONSET voc ] ]. arbor_n1 := n_-_c_le & [ STEM < "arbor" >, SYNSEM [ LKEYS.KEYREL.PRED "_arbor_n_1_rel", PHON.ONSET voc ] ]. arborescent_a1 := aj_-_i_le & [ STEM < "arborescent" >, SYNSEM [ LKEYS.KEYREL.PRED "_arborescent_a_1_rel", PHON.ONSET voc ] ]. arboretum_n1 := n_-_c_le & [ STEM < "arboretum" >, SYNSEM [ LKEYS.KEYREL.PRED "_arboretum_n_1_rel", PHON.ONSET voc ] ]. arboretum_post_ttl := n_-_tt-post_le & [ STEM < "Arboretum" >, SYNSEM [ LKEYS.KEYREL.PRED "_arboretum_n_1_rel", PHON.ONSET voc ] ]. arc_de_triomphe_n1 := n_-_pn_le & [ STEM < "Arc", "de", "Triomphe" >, SYNSEM [ LKEYS.KEYREL.CARG "Arc_de_Triomphe", PHON.ONSET voc ] ]. arc_n1 := n_-_c_le & [ STEM < "arc" >, SYNSEM [ LKEYS.KEYREL.PRED "_arc_n_1_rel", PHON.ONSET voc ] ]. arc_v1 := v_np_noger_le & [ STEM < "arc" >, SYNSEM [ LKEYS.KEYREL.PRED "_arc_v_cause_rel", PHON.ONSET voc ] ]. arc_v2 := v_-_unacc_le & [ STEM < "arc" >, SYNSEM [ LKEYS.KEYREL.PRED "_arc_v_1_rel", PHON.ONSET voc ] ]. arcade_n1 := n_-_c_le & [ STEM < "arcade" >, SYNSEM [ LKEYS.KEYREL.PRED "_arcade_n_1_rel", PHON.ONSET voc ] ]. arch_a1 := aj_-_i_le & [ STEM < "arch" >, SYNSEM [ LKEYS.KEYREL.PRED "_arch_a_1_rel", PHON.ONSET voc ] ]. arch_n1 := n_-_c_le & [ STEM < "arch" >, SYNSEM [ LKEYS.KEYREL.PRED "_arch_n_1_rel", PHON.ONSET voc ] ]. arch_of_triumph_n1 := n_-_c-nm_le & [ STEM < "Arch", "of", "Triumph" >, SYNSEM [ LKEYS.KEYREL.CARG "Arch_of_Triumph", PHON.ONSET voc ] ]. arch_v1 := v_np_noger_le & [ STEM < "arch" >, SYNSEM [ LKEYS.KEYREL.PRED "_arch_v_cause_rel", PHON.ONSET voc ] ]. arch_v2 := v_-_unacc_le & [ STEM < "arch" >, SYNSEM [ LKEYS.KEYREL.PRED "_arch_v_1_rel", PHON.ONSET voc ] ]. arch_v3 := v_pp_dir_le & [ STEM < "arch" >, SYNSEM [ LKEYS.KEYREL.PRED "_arch_v_cause_rel", PHON.ONSET voc ] ]. archaeological_a1 := aj_-_i_le & [ STEM < "archaeological" >, SYNSEM [ LKEYS.KEYREL.PRED "_archaeological_a_1_rel", PHON.ONSET voc ] ]. archaeologist_n3 := n_-_c_le & [ STEM < "archaeologist" >, SYNSEM [ LKEYS.KEYREL.PRED "_archeologist_n_1_rel", PHON.ONSET voc ] ]. archaeology_n1 := n_-_m_le & [ STEM < "archaeology" >, SYNSEM [ LKEYS.KEYREL.PRED "_archaeology_n_1_rel", PHON.ONSET voc ] ]. archangel_n1 := n_-_c_le & [ STEM < "archangel" >, SYNSEM [ LKEYS.KEYREL.PRED "_archangel_n_1_rel", PHON.ONSET voc ] ]. archbishop_n1 := n_-_c_le & [ STEM < "archbishop" >, SYNSEM [ LKEYS.KEYREL.PRED "_archbishop_n_1_rel", PHON.ONSET voc ] ]. arched_a1 := aj_-_i_le & [ STEM < "arched" >, SYNSEM [ LKEYS.KEYREL.PRED "_arched_a_1_rel", PHON.ONSET voc ] ]. archegonium_n1 := n_-_c_le & [ STEM < "archegonium" >, SYNSEM [ LKEYS.KEYREL.PRED "_archegonium_n_1_rel", PHON.ONSET voc ] ]. archeological_a1 := aj_-_i_le & [ STEM < "archeological" >, SYNSEM [ LKEYS.KEYREL.PRED "_archeological_a_1_rel", PHON.ONSET voc ] ]. archeologist_n1 := n_-_c_le & [ STEM < "archeologist" >, SYNSEM [ LKEYS.KEYREL.PRED "_archeologist_n_1_rel", PHON.ONSET voc ] ]. archeologist_n2 := n_-_c_le & [ STEM < "archæologist" >, SYNSEM [ LKEYS.KEYREL.PRED "_archeologist_n_1_rel", PHON.ONSET voc ] ]. archeology_n1 := n_-_m_le & [ STEM < "archeology" >, SYNSEM [ LKEYS.KEYREL.PRED "_archeology_n_1_rel", PHON.ONSET voc ] ]. archepiscopal_a1 := aj_-_i_le & [ STEM < "archepiscopal" >, SYNSEM [ LKEYS.KEYREL.PRED "_archepiscopal_a_1_rel", PHON.ONSET voc ] ]. archer_n1 := n_-_pn_le & [ STEM < "Archer" >, SYNSEM [ LKEYS.KEYREL.CARG "Archer", PHON.ONSET voc ] ]. archer_n2 := n_-_c_le & [ STEM < "archer" >, SYNSEM [ LKEYS.KEYREL.PRED "_archer_n_1_rel", PHON.ONSET voc ] ]. archerfish_n1 := n_-_c_le & [ STEM < "archerfish" >, SYNSEM [ LKEYS.KEYREL.PRED "_archerfish_n_1_rel", PHON.ONSET voc ] ]. archers_n1 := n_-_c-pl-nocnh_le & [ STEM < "archer" >, SYNSEM [ LKEYS.KEYREL.PRED "_archers_n_1_rel", PHON.ONSET voc ] ]. archery_n1 := n_-_m_le & [ STEM < "archery" >, SYNSEM [ LKEYS.KEYREL.PRED "_archery_n_1_rel", PHON.ONSET voc ] ]. archiepiscopal_a1 := aj_-_i_le & [ STEM < "archiepiscopal" >, SYNSEM [ LKEYS.KEYREL.PRED "_archiepiscopal_a_1_rel", PHON.ONSET voc ] ]. archimedes_n1 := n_-_pn_le & [ STEM < "Archimedes" >, SYNSEM [ LKEYS.KEYREL.CARG "Archimedes", PHON.ONSET voc ] ]. archipelago_n1 := n_-_c_le & [ STEM < "archipelago" >, SYNSEM [ LKEYS.KEYREL.PRED "_archipelago_n_1_rel", PHON.ONSET voc ] ]. architect_n1 := n_pp_c-of_le & [ STEM < "architect" >, SYNSEM [ LKEYS.KEYREL.PRED "_architect_n_of_rel", PHON.ONSET voc ] ]. architectonic_a1 := aj_-_i_le & [ STEM < "architectonic" >, SYNSEM [ LKEYS.KEYREL.PRED "_architectonic_a_1_rel", PHON.ONSET voc ] ]. architectural_a1 := aj_-_i_le & [ STEM < "architectural" >, SYNSEM [ LKEYS.KEYREL.PRED "_architectural_a_1_rel", PHON.ONSET voc ] ]. architecturally_adv1 := av_-_i-vp_le & [ STEM < "architecturally" >, SYNSEM [ LKEYS.KEYREL.PRED "_architectural_a_1_rel", PHON.ONSET voc ] ]. architecture_n1 := n_-_mc_le & [ STEM < "architecture" >, SYNSEM [ LKEYS.KEYREL.PRED "_architecture_n_1_rel", PHON.ONSET voc ] ]. architrave_n1 := n_-_c_le & [ STEM < "architrave" >, SYNSEM [ LKEYS.KEYREL.PRED "_architrave_n_1_rel", PHON.ONSET voc ] ]. archive_n1 := n_-_c_le & [ STEM < "archive" >, SYNSEM [ LKEYS.KEYREL.PRED "_archive_n_1_rel", PHON.ONSET voc ] ]. archive_v1 := v_np_le & [ STEM < "archive" >, SYNSEM [ LKEYS.KEYREL.PRED "_archive_v_1_rel", PHON.ONSET voc ] ]. archway_n1 := n_-_c_le & [ STEM < "archway" >, SYNSEM [ LKEYS.KEYREL.PRED "_archway_n_1_rel", PHON.ONSET voc ] ]. arctic_a1 := aj_-_i_le & [ STEM < "arctic" >, SYNSEM [ LKEYS.KEYREL.PRED "_arctic_a_1_rel", PHON.ONSET voc ] ]. arctic_circle_n := n_-_c-nm_le & [ STEM < "Arctic", "Circle" >, SYNSEM [ LKEYS.KEYREL.CARG "Arctic+Circle", PHON.ONSET voc ] ]. arctic_n1 := n_-_c-nocnh_le & [ STEM < "arctic" >, SYNSEM [ LKEYS.KEYREL.PRED "_arctic_n_1_rel", PHON.ONSET voc ] ]. arduous_a1 := aj_-_i_le & [ STEM < "arduous" >, SYNSEM [ LKEYS.KEYREL.PRED "_arduous_a_1_rel", PHON.ONSET voc ] ]. area_n1 := n_pp_mc-of_le & [ STEM < "area" >, SYNSEM [ LKEYS.KEYREL.PRED "_area_n_of_rel", PHON.ONSET voc ] ]. area_post_ttl := n_-_tt-post_le & [ STEM < "Area" >, SYNSEM [ LKEYS.KEYREL.PRED "_area_n_of_rel", PHON.ONSET voc ] ]. areaway_n1 := n_-_c_le & [ STEM < "areaway" >, SYNSEM [ LKEYS.KEYREL.PRED "_areaway_n_1_rel", PHON.ONSET voc ] ]. arena_n1 := n_-_c_le & [ STEM < "arena" >, SYNSEM [ LKEYS.KEYREL.PRED "_arena_n_1_rel", PHON.ONSET voc ] ]. arena_n2 := n_-_pn_le & [ STEM < "ARENA" >, SYNSEM [ LKEYS.KEYREL.CARG "ARENA", PHON.ONSET voc ] ]. arena_post_ttl := n_-_tt-post_le & [ STEM < "Arena" >, SYNSEM [ LKEYS.KEYREL.PRED "_arena_n_1_rel", PHON.ONSET voc ] ]. arentzbu_n1 := n_-_pn_le & [ STEM < "Arentzbu" >, SYNSEM [ LKEYS.KEYREL.CARG "Arentzbu", PHON.ONSET voc ] ]. argentina_n1 := n_-_pn_le & [ STEM < "Argentina" >, SYNSEM [ LKEYS.KEYREL.CARG "Argentina", PHON.ONSET voc ] ]. argentinian_a1 := aj_-_i_le & [ STEM < "Argentinian" >, SYNSEM [ LKEYS.KEYREL.PRED "_argentinian_a_1_rel", PHON.ONSET voc ] ]. argentinian_n1 := n_-_c-nocnh_le & [ STEM < "Argentinian" >, SYNSEM [ LKEYS.KEYREL.PRED "_argentinian_n_1_rel", PHON.ONSET voc ] ]. argiento_n1 := n_-_pn_le & [ STEM < "Argiento" >, SYNSEM [ LKEYS.KEYREL.CARG "Argiento", PHON.ONSET voc ] ]. argot_n1 := n_-_mc_le & [ STEM < "argot" >, SYNSEM [ LKEYS.KEYREL.PRED "_argot_n_1_rel", PHON.ONSET voc ] ]. arguably_adv1 := av_-_s-vp-x_le & [ STEM < "arguably" >, SYNSEM [ LKEYS.KEYREL.PRED "_arguable_a_1_rel", PHON.ONSET voc ] ]. arguably_adv2 := av_-_s-cp-pr_le & [ STEM < "arguably" >, SYNSEM [ LKEYS.KEYREL.PRED "_arguable_a_1_rel", PHON.ONSET voc ] ]. arguably_adv3 := av_-_s-negmod_le & [ STEM < "arguably" >, SYNSEM [ LKEYS.KEYREL.PRED "_arguable_a_1_rel", PHON.ONSET voc ] ]. argue_about_v1 := v_pp_e_le & [ STEM < "argue" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_argue_v_about_rel" ], PHON.ONSET voc ] ]. argue_for_v1 := v_pp_e_le & [ STEM < "argue" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_argue_v_for_rel" ], PHON.ONSET voc ] ]. argue_over_v1 := v_pp_e_le & [ STEM < "argue" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_argue_v_over_rel" ], PHON.ONSET voc ] ]. argue_v1 := v_cp_prop_le & [ STEM < "argue" >, SYNSEM [ LKEYS.KEYREL.PRED "_argue_v_1_rel", PHON.ONSET voc ] ]. argue_v2 := v_np*_le & [ STEM < "argue" >, SYNSEM [ LKEYS.KEYREL.PRED "_argue_v_1_rel", PHON.ONSET voc ] ]. argument_n1 := n_-_mc_le & [ STEM < "argument" >, SYNSEM [ LKEYS.KEYREL.PRED "_argument_n_1_rel", PHON.ONSET voc ] ]. argumentation_n1 := n_-_mc_le & [ STEM < "argumentation" >, SYNSEM [ LKEYS.KEYREL.PRED "_argumentation_n_1_rel", PHON.ONSET voc ] ]. arhats_n1 := n_-_pn_le & [ STEM < "Arhats" >, SYNSEM [ LKEYS.KEYREL.CARG "Arhats", PHON.ONSET voc ] ]. ari_n1 := n_-_pn_le & [ STEM < "Ari" >, SYNSEM [ LKEYS.KEYREL.CARG "Ari", PHON.ONSET voc ] ]. aria_n1 := n_-_c_le & [ STEM < "aria" >, SYNSEM [ LKEYS.KEYREL.PRED "_aria_n_1_rel", PHON.ONSET voc ] ]. arianist_n1 := n_-_c_le & [ STEM < "Arianist" >, SYNSEM [ LKEYS.KEYREL.PRED "_arianist_n_1_rel", PHON.ONSET voc ] ]. arid_a1 := aj_-_i_le & [ STEM < "arid" >, SYNSEM [ LKEYS.KEYREL.PRED "_arid_a_1_rel", PHON.ONSET voc ] ]. arise_v1 := v_-_le & [ STEM < "arise" >, SYNSEM [ LKEYS.KEYREL.PRED "_arise_v_1_rel", PHON.ONSET voc ] ]. arise_v2 := v_pp_e_le & [ STEM < "arise" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_arise_v_from_rel" ], PHON.ONSET voc ] ]. aristocratic_a1 := aj_-_i_le & [ STEM < "aristocratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aristocratic_a_1_rel", PHON.ONSET voc ] ]. arithmetic_n1 := n_-_m_le & [ STEM < "arithmetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_arithmetic_n_1_rel", PHON.ONSET voc ] ]. arithmetical_a1 := aj_-_i_le & [ STEM < "arithmetical" >, SYNSEM [ LKEYS.KEYREL.PRED "_arithmetical_a_1_rel", PHON.ONSET voc ] ]. arizona_n1 := n_-_pn_le & [ STEM < "Arizona" >, SYNSEM [ LKEYS.KEYREL.CARG "Arizona", PHON.ONSET voc ] ]. arizona_n2 := n_-_pn-abb_le & [ STEM < "AZ" >, SYNSEM [ LKEYS.KEYREL.CARG "Arizona", PHON.ONSET voc ] ]. arkansas_n1 := n_-_pn_le & [ STEM < "Arkansas" >, SYNSEM [ LKEYS.KEYREL.CARG "Arkansas", PHON.ONSET voc ] ]. arkansas_n2 := n_-_pn-abb_le & [ STEM < "AR" >, SYNSEM [ LKEYS.KEYREL.CARG "Arkansas", PHON.ONSET voc ] ]. arm_in_arm_pp := pp_-_i_le & [ STEM < "arm", "in", "arm" >, SYNSEM [ LKEYS.KEYREL.PRED _arm+in+arm_a_1_rel, PHON.ONSET voc ] ]. arm_n1 := n_-_c-ed_le & [ STEM < "arm" >, SYNSEM [ LKEYS.KEYREL.PRED "_arm_n_1_rel", PHON.ONSET voc ] ]. armada_n1 := n_-_c_le & [ STEM < "armada" >, SYNSEM [ LKEYS.KEYREL.PRED "_armada_n_1_rel", PHON.ONSET voc ] ]. armadillo_n1 := n_-_c_le & [ STEM < "armadillo" >, SYNSEM [ LKEYS.KEYREL.PRED "_armadillo_n_1_rel", PHON.ONSET voc ] ]. armament_n1 := n_-_mc_le & [ STEM < "armament" >, SYNSEM [ LKEYS.KEYREL.PRED "_armament_n_1_rel", PHON.ONSET voc ] ]. armchair_n1 := n_-_c_le & [ STEM < "armchair" >, SYNSEM [ LKEYS.KEYREL.PRED "_armchair_n_1_rel", PHON.ONSET voc ] ]. armed+forces_n1 := n_-_c-pl_le & [ STEM < "armed", "forces" >, SYNSEM [ LKEYS.KEYREL.PRED "_armed+forces_n_1_rel", PHON.ONSET voc ] ]. armed_a1 := aj_-_i_le & [ STEM < "armed" >, SYNSEM [ LKEYS.KEYREL.PRED "_armed_a_1_rel", PHON.ONSET voc ] ]. armor_n1 := n_-_m_le & [ STEM < "armor" >, SYNSEM [ LKEYS.KEYREL.PRED "_armor_n_1_rel", PHON.ONSET voc ] ]. armor_n1_br := n_-_m_le & [ DIALECT br, STEM < "armour" >, SYNSEM [ LKEYS.KEYREL.PRED "_armor_n_1_rel", PHON.ONSET voc ] ]. armor_v1 := v_np_le & [ STEM < "armor" >, SYNSEM [ LKEYS.KEYREL.PRED "_armor_v_1_rel", PHON.ONSET voc ] ]. armor_v1_br := v_np_le & [ DIALECT br, STEM < "armour" >, SYNSEM [ LKEYS.KEYREL.PRED "_armor_v_1_rel", PHON.ONSET voc ] ]. armpit_n1 := n_-_c_le & [ STEM < "armpit" >, SYNSEM [ LKEYS.KEYREL.PRED "_armpit_n_1_rel", PHON.ONSET voc ] ]. armrest_n1 := n_-_c_le & [ STEM < "armrest" >, SYNSEM [ LKEYS.KEYREL.PRED "_armrest_n_1_rel", PHON.ONSET voc ] ]. arms_length_n1 := n_-_m_le & [ STEM < "arm's", "length" >, SYNSEM [ LKEYS.KEYREL.PRED "_arms+length_n_1_rel", PHON.ONSET voc ] ]. arms_length_n2 := n_-_m_le & [ STEM < "arms", "length" >, SYNSEM [ LKEYS.KEYREL.PRED "_arms+length_n_1_rel", PHON.ONSET voc ] ]. arms_length_n3 := n_-_m_le & [ STEM < "arm", "'s", "length" >, SYNSEM [ LKEYS.KEYREL.PRED "_arms+length_n_1_rel", PHON.ONSET voc ] ]. arms_n1 := n_-_c-pl-cpd_le & [ STEM < "arms" >, SYNSEM [ LKEYS.KEYREL.PRED "_arms_n_1_rel", PHON.ONSET voc ] ]. arms_n2 := n_-_c-pl-nocnh_le & [ STEM < "arm" >, SYNSEM [ LKEYS.KEYREL.PRED "_arms_n_1_rel", PHON.ONSET voc ] ]. armstrong_n1 := n_-_pn_le & [ STEM < "Armstrong" >, SYNSEM [ LKEYS.KEYREL.CARG "Armstrong", PHON.ONSET voc ] ]. army_n1 := n_pp_c-of_le & [ STEM < "army" >, SYNSEM [ LKEYS.KEYREL.PRED "_army_n_of_rel", PHON.ONSET voc ] ]. arne_n1 := n_-_pn_le & [ STEM < "Arne" >, SYNSEM [ LKEYS.KEYREL.CARG "Arne", PHON.ONSET voc ] ]. arnesen_n1 := n_-_pn_le & [ STEM < "Arnesen" >, SYNSEM [ LKEYS.KEYREL.CARG "Arnesen", PHON.ONSET voc ] ]. arnfinn_n1 := n_-_pn_le & [ STEM < "Arnfinn" >, SYNSEM [ LKEYS.KEYREL.CARG "Arnfinn", PHON.ONSET voc ] ]. arnold_n1 := n_-_pn_le & [ STEM < "Arnold" >, SYNSEM [ LKEYS.KEYREL.CARG "Arnold", PHON.ONSET voc ] ]. aromatic_a1 := aj_-_i_le & [ STEM < "aromatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_aromatic_a_1_rel", PHON.ONSET voc ] ]. around := p_np_i_le & [ STEM < "around" >, SYNSEM [ LKEYS.KEYREL.PRED _around_p_rel, PHON.ONSET voc ] ]. around_adv := pp_-_i-nnm_le & [ STEM < "around" >, SYNSEM [ LKEYS.KEYREL.PRED _around_p_rel, PHON.ONSET voc ] ]. around_deg := av_-_dg-m_le & [ STEM < "around" >, SYNSEM [ LKEYS.KEYREL.PRED "_around_x_deg_rel", PHON.ONSET voc ] ]. around_prtcl := p_np_ptcl_le & [ STEM < "around" >, SYNSEM [ LKEYS.KEYREL.PRED _around_p_sel_rel, PHON.ONSET voc ] ]. arousal_n1 := n_-_mc_le & [ STEM < "arousal" >, SYNSEM [ LKEYS.KEYREL.PRED "_arousal_n_1_rel", PHON.ONSET voc ] ]. arouse_v1 := v_np_le & [ STEM < "arouse" >, SYNSEM [ LKEYS.KEYREL.PRED "_arouse_v_1_rel", PHON.ONSET voc ] ]. arrange_for_v1 := v_it-pp-vp_seq_le & [ STEM < "arrange" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_arrange_v_for_rel" ], PHON.ONSET voc ] ]. arrange_v1 := v_np_le & [ STEM < "arrange" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrange_v_1_rel", PHON.ONSET voc ] ]. arrange_v2 := v_pp_e_le & [ STEM < "arrange" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_arrange_v_for_rel" ], PHON.ONSET voc ] ]. arrange_v3 := v_cp_le & [ STEM < "arrange" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrange_v_1_rel", PHON.ONSET voc ] ]. arrange_v4 := v_cp_inf-only_le & [ STEM < "arrange" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrange_v_1_rel", PHON.ONSET voc ] ]. arrange_with_v1 := v_pp-vp_seq_le & [ STEM < "arrange" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_arrange_v_with_rel" ], PHON.ONSET voc ] ]. arrange_with_v2 := v_it-pp-vp_seq_le & [ STEM < "arrange" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_arrange_v_with_rel" ], PHON.ONSET voc ] ]. arrangement_n1 := n_-_c_le & [ STEM < "arrangement" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrangement_n_1_rel", PHON.ONSET voc ] ]. arranger_n1 := n_pp_c-of_le & [ STEM < "arranger" >, SYNSEM [ LKEYS.KEYREL.PRED "_arranger_n_of_rel", PHON.ONSET voc ] ]. arranging_n1 := n_-_c_le & [ STEM < "arranging" >, SYNSEM [ LKEYS.KEYREL.PRED "_arranging_n_1_rel", PHON.ONSET voc ] ]. array_n1 := n_-_c_le & [ STEM < "array" >, SYNSEM [ LKEYS.KEYREL.PRED "_array_n_1_rel", PHON.ONSET voc ] ]. array_v1 := v_np_le & [ STEM < "array" >, SYNSEM [ LKEYS.KEYREL.PRED "_array_v_1_rel", PHON.ONSET voc ] ]. arrear_nom := n_-_ad-pl_le & [ STEM < "arrear" >, SYNSEM [ LKEYS [ ALT2KEYREL.PRED _arrear_a_1_rel, KEYREL.PRED place_n_rel ], PHON.ONSET voc ] ]. arrears_n1 := n_-_c-pl-nocnh_le & [ STEM < "arrear" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrears_n_1_rel", PHON.ONSET voc ] ]. arrest_n1 := n_-_mc_le & [ STEM < "arrest" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrest_n_1_rel", PHON.ONSET voc ] ]. arrest_v1 := v_np*_le & [ STEM < "arrest" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrest_v_1_rel", PHON.ONSET voc ] ]. arrival_abb_n1 := n_-_mc-ns_le & [ STEM < "arr." >, SYNSEM [ LKEYS.KEYREL.PRED "_arrival_n_1_rel", PHON.ONSET voc ] ]. arrival_n1 := n_-_mc-ns_le & [ STEM < "arrival" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrival_n_1_rel", PHON.ONSET voc ] ]. arrive_v1 := v_-_le & [ STEM < "arrive" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrive_v_1_rel", PHON.ONSET voc ] ]. arriving_abb_a1 := aj_np_i-unsp_le & [ STEM < "arr." >, SYNSEM [ LKEYS.KEYREL.PRED "_arrive_v_1_rel", PHON.ONSET voc ] ]. arrogance_n1 := n_-_m_le & [ STEM < "arrogance" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrogance_n_1_rel", PHON.ONSET voc ] ]. arrogant_a1 := aj_-_i_le & [ STEM < "arrogant" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrogant_a_1_rel", PHON.ONSET voc ] ]. arrow_n1 := n_-_c_le & [ STEM < "arrow" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrow_n_1_rel", PHON.ONSET voc ] ]. arrowhead_n1 := n_-_c_le & [ STEM < "arrowhead" >, SYNSEM [ LKEYS.KEYREL.PRED "_arrowhead_n_1_rel", PHON.ONSET voc ] ]. arsenal_n1 := n_pp_c-of_le & [ STEM < "arsenal" >, SYNSEM [ LKEYS.KEYREL.PRED "_arsenal_n_of_rel", PHON.ONSET voc ] ]. arsenal_n2 := n_-_pn_le & [ STEM < "Arsenal" >, SYNSEM [ LKEYS.KEYREL.CARG "Arsenal", PHON.ONSET voc ] ]. arsenic_n1 := n_-_m_le & [ STEM < "arsenic" >, SYNSEM [ LKEYS.KEYREL.PRED "_arsenic_n_1_rel", PHON.ONSET voc ] ]. art_n1 := n_-_mc_le & [ STEM < "art" >, SYNSEM [ LKEYS.KEYREL.PRED "_art_n_1_rel", PHON.ONSET voc ] ]. arterial_a1 := aj_-_i_le & [ STEM < "arterial" >, SYNSEM [ LKEYS.KEYREL.PRED "_arterial_a_1_rel", PHON.ONSET voc ] ]. artery_n1 := n_-_c_le & [ STEM < "artery" >, SYNSEM [ LKEYS.KEYREL.PRED "_artery_n_1_rel", PHON.ONSET voc ] ]. artful_a1 := aj_-_i_le & [ STEM < "artful" >, SYNSEM [ LKEYS.KEYREL.PRED "_artful_a_1_rel", PHON.ONSET voc ] ]. arthritis_n1 := n_-_m_le & [ STEM < "arthritis" >, SYNSEM [ LKEYS.KEYREL.PRED "_arthritis_n_1_rel", PHON.ONSET voc ] ]. arthur_n1 := n_-_pn_le & [ STEM < "Arthur" >, SYNSEM [ LKEYS.KEYREL.CARG "Arthur", PHON.ONSET voc ] ]. article_n1 := n_pp_c-of_le & [ STEM < "article" >, SYNSEM [ LKEYS.KEYREL.PRED "_article_n_of_rel", PHON.ONSET voc ] ]. articulate_a1 := aj_-_i_le & [ STEM < "articulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_articulate_a_1_rel", PHON.ONSET voc ] ]. articulate_v1 := v_np_le & [ STEM < "articulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_articulate_v_1_rel", PHON.ONSET voc ] ]. articulate_v2 := v_cp_le & [ STEM < "articulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_articulate_v_1_rel", PHON.ONSET voc ] ]. articulation_n1 := n_-_mc_le & [ STEM < "articulation" >, SYNSEM [ LKEYS.KEYREL.PRED "_articulation_n_1_rel", PHON.ONSET voc ] ]. artifact_n1 := n_-_c_le & [ STEM < "artifact" >, SYNSEM [ LKEYS.KEYREL.PRED "_artifact_n_1_rel", PHON.ONSET voc ] ]. artifice_n1 := n_-_mc_le & [ STEM < "artifice" >, SYNSEM [ LKEYS.KEYREL.PRED "_artifice_n_1_rel", PHON.ONSET voc ] ]. artificial_a1 := aj_-_i_le & [ STEM < "artificial" >, SYNSEM [ LKEYS.KEYREL.PRED "_artificial_a_1_rel", PHON.ONSET voc ] ]. artificially := av_-_i-vp_le & [ STEM < "artificially" >, SYNSEM [ LKEYS.KEYREL.PRED "_artificial_a_1_rel", PHON.ONSET voc ] ]. artillery_n1 := n_-_m_le & [ STEM < "artillery" >, SYNSEM [ LKEYS.KEYREL.PRED "_artillery_n_1_rel", PHON.ONSET voc ] ]. artisan_n1 := n_-_c_le & [ STEM < "artisan" >, SYNSEM [ LKEYS.KEYREL.PRED "_artisan_n_1_rel", PHON.ONSET voc ] ]. artist_n1 := n_-_c_le & [ STEM < "artist" >, SYNSEM [ LKEYS.KEYREL.PRED "_artist_n_1_rel", PHON.ONSET voc ] ]. artistic_a1 := aj_-_i_le & [ STEM < "artistic" >, SYNSEM [ LKEYS.KEYREL.PRED "_artistic_a_1_rel", PHON.ONSET voc ] ]. artistical_a1 := aj_-_i_le & [ STEM < "artistical" >, SYNSEM [ LKEYS.KEYREL.PRED "_artistical_a_1_rel", PHON.ONSET voc ] ]. artists_a1 := aj_-_i-cmpd_le & [ STEM < "artist", "'s" >, SYNSEM [ LKEYS.KEYREL.PRED "_artists_a_1_rel", PHON.ONSET voc ] ]. artless_a1 := aj_-_i_le & [ STEM < "artless" >, SYNSEM [ LKEYS.KEYREL.PRED "_artless_a_1_rel", PHON.ONSET voc ] ]. arvid_n1 := n_-_pn_le & [ STEM < "Arvid" >, SYNSEM [ LKEYS.KEYREL.CARG "Arvid", PHON.ONSET voc ] ]. as_abb_post_ttl := n_-_tt-post_le & [ STEM < "AS." >, SYNSEM [ LKEYS.KEYREL.PRED "_AS_n_abb_rel", PHON.ONSET voc ] ]. as_always_adv1 := av_-_i-vp_le & [ STEM < "as", "always" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+always_a_1_rel", PHON.ONSET voc ] ]. as_comp_prep := p_prd_ptcl-ngap_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_comp_rel, PHON.ONSET voc ] ]. as_comp_prep_nc := p_np_ptcl-ngap_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_comp_rel, PHON.ONSET voc ] ]. as_eq_deg := av_pp_dg-as_le & [ STEM < "as" >, SYNSEM.PHON.ONSET voc ]. as_eq_nc_deg := av_-_dg-cmp-so_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED comp_equal_rel, PHON.ONSET voc ] ]. as_far_as_p := p_np_i-reg_le & [ STEM < "as", "far", "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as+far+as_p_rel, PHON.ONSET voc ] ]. as_far_as_subord := p_cp_s-notop_le & [ STEM < "as", "far", "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+far+as_x_rel", PHON.ONSET voc ] ]. as_follows_adv1 := pp_-_i_le & [ STEM < "as", "follows" >, SYNSEM [ LKEYS.KEYREL.PRED _as+follows_p_rel, PHON.ONSET voc ] ]. as_for_p := p_np_i_le & [ STEM < "as", "for" >, SYNSEM [ LKEYS.KEYREL.PRED _as+for_p_rel, PHON.ONSET voc ] ]. as_if := p_cp_s-unsp_le & [ STEM < "as", "if" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+if_x_rel", PHON.ONSET voc ] ]. as_if_c := cm_np-vp_i-like_le & [ STEM < "as", "if" >, SYNSEM.PHON.ONSET voc ]. as_if_c_s := cm_np-vp_s-like_le & [ STEM < "as", "if" >, SYNSEM.PHON.ONSET voc ]. as_if_p := p_np_i_le & [ STEM < "as", "if" >, SYNSEM [ LKEYS.KEYREL.PRED _as+if_p_rel, PHON.ONSET voc ] ]. as_if_prd := p_prd_s_le & [ STEM < "as", "if" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+if_x_rel", PHON.ONSET voc ] ]. as_in_subord := p_cp_s_le & [ STEM < "as", "in" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+in_x_rel", PHON.ONSET voc ] ]. as_it_adj_p := p_ap_i_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_comp_rel, PHON.ONSET voc ] ]. as_it_happens_adv1 := av_-_i-vp_le & [ STEM < "as", "it", "happens" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+it+happens_a_1_rel", PHON.ONSET voc ] ]. as_long_as_subord := p_cp_s_le & [ STEM < "as", "long", "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+long+as_x_rel", PHON.ONSET voc ] ]. as_nbar := p_nb_i-phr_le & [ STEM < "as" >, SYNSEM [ LKEYS [ --COMPKEY non_temp_nom_rel, KEYREL.PRED _as_p_nbar_rel ], PHON.ONSET voc ] ]. as_of := p_np_i_le & [ STEM < "as", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _as+of_p_rel, PHON.ONSET voc ] ]. as_of_yet_adv1 := av_-_i-vp_le & [ STEM < "as", "of", "yet" >, SYNSEM [ LKEYS.KEYREL.PRED _as+of+yet_a_1_rel, PHON.ONSET voc ] ]. as_p1 := p_np_i-nger_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_rel, PHON.ONSET voc ] ]. as_prd := p_prd_s-v-p_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as_x_prd_rel", PHON.ONSET voc ] ]. as_prdp_p1 := p_vp_i_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_rel, PHON.ONSET voc ] ]. as_prdp_p2 := p_prd_ptcl_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_sel_rel, PHON.ONSET voc ] ]. as_prtcl := p_np_ptcl_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED _as_p_sel_rel, PHON.ONSET voc ] ]. as_subord := p_cp_s_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as_x_subord_rel", PHON.ONSET voc ] ]. as_subord_cp-gap := p_cp_cp-gap_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as_x_subord_rel", PHON.ONSET voc ] ]. as_subord_gap := p_cp_gap-s_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as_x_subord_rel", PHON.ONSET voc ] ]. as_subord_inv := p_cp_inv-s_le & [ STEM < "as" >, SYNSEM [ LKEYS.KEYREL.PRED "_as_x_subord_rel", PHON.ONSET voc ] ]. as_though := p_cp_s-unsp_le & [ STEM < "as", "though" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+though_x_rel", PHON.ONSET voc ] ]. as_though_c := cm_np-vp_i-like_le & [ STEM < "as", "though" >, SYNSEM.PHON.ONSET voc ]. as_though_c_s := cm_np-vp_s-like_le & [ STEM < "as", "though" >, SYNSEM.PHON.ONSET voc ]. as_though_prd := p_prd_s_le & [ STEM < "as", "though" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+though_x_rel", PHON.ONSET voc ] ]. as_to_p1 := p_np_i-reg_le & [ STEM < "as", "to" >, SYNSEM [ LKEYS.KEYREL.PRED _as+to_p_rel, PHON.ONSET voc ] ]. as_to_prtcl := p_np_ptcl_le & [ STEM < "as", "to" >, SYNSEM [ LKEYS.KEYREL.PRED _as+to_p_sel_rel, PHON.ONSET voc ] ]. as_usual_adv1 := av_-_i-vp_le & [ STEM < "as", "usual" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+usual_a_1_rel", PHON.ONSET voc ] ]. as_well := av_-_s-vp-po_le & [ STEM < "as", "well" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+well_a_1_rel", PHON.ONSET voc ] ]. as_well_adv2 := av_-_s-vp-x_le & [ STEM < "as", "well" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+well_a_1_rel", PHON.ONSET voc ] ]. as_well_as_conj_1 := c_xp_aswellas_le & [ STEM < "as", "well", "as" >, SYNSEM.PHON.ONSET voc ]. as_yet_adv1 := av_-_i-vp_le & [ STEM < "as", "yet" >, SYNSEM [ LKEYS.KEYREL.PRED "_as+yet_a_1_rel", PHON.ONSET voc ] ]. asap_adv1 := av_-_i-vp-po_le & [ STEM < "ASAP" >, SYNSEM [ LKEYS.KEYREL.PRED "_asap_a_1_rel", PHON.ONSET voc ] ]. asbestos_n1 := n_-_m_le & [ STEM < "asbestos" >, SYNSEM [ LKEYS.KEYREL.PRED "_asbestos_n_1_rel", PHON.ONSET voc ] ]. ascend_v1 := v_np*_le & [ STEM < "ascend" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascend_v_1_rel", PHON.ONSET voc ] ]. ascend_v2 := v_pp_dir_le & [ STEM < "ascend" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascend_v_1_rel", PHON.ONSET voc ] ]. ascendant_a1 := aj_-_i_le & [ STEM < "ascendant" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascendant_a_1_rel", PHON.ONSET voc ] ]. ascender_n1 := n_-_c_le & [ STEM < "ascender" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascender_n_1_rel", PHON.ONSET voc ] ]. ascension_day := n_np_pn-hol_le & [ STEM < "Ascension", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Ascension_Day", PHON.ONSET voc ] ]. ascension_n1 := n_-_c_le & [ STEM < "ascension" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascension_n_1_rel", PHON.ONSET voc ] ]. ascent_n1 := n_-_mc_le & [ STEM < "ascent" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascent_n_1_rel", PHON.ONSET voc ] ]. ascertain_v1 := v_np_le & [ STEM < "ascertain" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascertain_v_1_rel", PHON.ONSET voc ] ]. ascertain_v2 := v_cp_le & [ STEM < "ascertain" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascertain_v_1_rel", PHON.ONSET voc ] ]. ascidian_n1 := n_-_c_le & [ STEM < "ascidian" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascidian_n_1_rel", PHON.ONSET voc ] ]. ascii_n1 := n_-_pn_le & [ STEM < "ASCII" >, SYNSEM [ LKEYS.KEYREL.CARG "ASCII", PHON.ONSET voc ] ]. ascribe_v1 := v_np-pp_to_le & [ STEM < "ascribe" >, SYNSEM [ LKEYS.KEYREL.PRED "_ascribe_v_to_rel", PHON.ONSET voc ] ]. ascribe_v2 := v_np-pp_e_le & [ STEM < "ascribe" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_ascribe_v_to_rel" ], PHON.ONSET voc ] ]. ash_n1 := n_-_mc_le & [ STEM < "ash" >, SYNSEM [ LKEYS.KEYREL.PRED "_ash_n_1_rel", PHON.ONSET voc ] ]. ash_wednesday := n_np_pn-hol_le & [ STEM < "Ash", "Wednesday" >, SYNSEM [ LKEYS.KEYREL.CARG "Ash_Wednesday", PHON.ONSET voc ] ]. ashamed_a1 := aj_-_i_le & [ STEM < "ashamed" >, SYNSEM [ LKEYS.KEYREL.PRED "_ashamed_a_1_rel", PHON.ONSET voc ] ]. ashdown_n1 := n_-_pn_le & [ STEM < "Ashdown" >, SYNSEM [ LKEYS.KEYREL.CARG "Ashdown", PHON.ONSET voc ] ]. ashley_n1 := n_-_pn_le & [ STEM < "Ashley" >, SYNSEM [ LKEYS.KEYREL.CARG "Ashley", PHON.ONSET voc ] ]. ashore_adv := pp_-_i_le & [ STEM < "ashore" >, SYNSEM [ LKEYS.KEYREL.PRED _ashore_p_rel, PHON.ONSET voc ] ]. asia_n1 := n_-_pn_le & [ STEM < "Asia" >, SYNSEM [ LKEYS.KEYREL.CARG "Asia", PHON.ONSET voc ] ]. asia_petrol_n1 := n_-_pn_le & [ STEM < "Asia", "Petrol" >, SYNSEM [ LKEYS.KEYREL.CARG "Asia_Petrol", PHON.ONSET voc ] ]. asian_a1 := aj_-_i_le & [ STEM < "Asian" >, SYNSEM [ LKEYS.KEYREL.PRED "_asian_a_1_rel", PHON.ONSET voc ] ]. asian_n1 := n_-_c-nocnh_le & [ STEM < "Asian" >, SYNSEM [ LKEYS.KEYREL.PRED "_asian_n_1_rel", PHON.ONSET voc ] ]. aside_adv := pp_-_i_le & [ STEM < "aside" >, SYNSEM [ LKEYS.KEYREL.PRED _aside_p_rel, PHON.ONSET voc ] ]. aside_from := p_np_i_le & [ STEM < "aside", "from" >, SYNSEM [ LKEYS.KEYREL.PRED _aside+from_p_rel, PHON.ONSET voc ] ]. aside_prtcl := p_np_ptcl_le & [ STEM < "aside" >, SYNSEM [ LKEYS.KEYREL.PRED _aside_p_sel_rel, PHON.ONSET voc ] ]. asimov_n1 := n_-_pn_le & [ STEM < "Asimov" >, SYNSEM [ LKEYS.KEYREL.CARG "Asimov", PHON.ONSET voc ] ]. ask_about_v1 := v_np*-pp_e_le & [ STEM < "ask" >, SYNSEM [ LKEYS [ --OCOMPKEY _about_p_sel_rel, KEYREL.PRED "_ask_v_about_rel" ], PHON.ONSET voc ] ]. ask_for_v1 := v_np*-pp_e_le & [ STEM < "ask" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_ask_v_for_rel" ], PHON.ONSET voc ] ]. ask_v1 := v_np*-np*_only_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. ask_v2 := v_np-vp_oeq_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. ask_v3 := v_np-cp_q_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. ask_v4 := v_vp_seq_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. ask_v5 := v_cp_sbjnct_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. ask_v6 := v_cp_inf-only_le & [ STEM < "ask" >, SYNSEM [ LKEYS.KEYREL.PRED "_ask_v_1_rel", PHON.ONSET voc ] ]. aslacton_n1 := n_-_pn-city_le & [ STEM < "Aslacton" >, SYNSEM [ LKEYS.KEYREL.CARG "Aslacton", PHON.ONSET voc ] ]. aslaksen_n1 := n_-_pn_le & [ STEM < "Aslaksen" >, SYNSEM [ LKEYS.KEYREL.CARG "Aslaksen", PHON.ONSET voc ] ]. asleep_a1 := aj_-_i-prd_le & [ STEM < "asleep" >, SYNSEM [ LKEYS.KEYREL.PRED "_asleep_a_1_rel", PHON.ONSET voc ] ]. asmodeus := n_-_pn_le & [ STEM < "Asmodeus" >, SYNSEM [ LKEYS.KEYREL.CARG "Asmodeus", PHON.ONSET voc ] ]. aspartame_n1 := n_-_pn_le & [ STEM < "Aspartame" >, SYNSEM [ LKEYS.KEYREL.CARG "Aspartame", PHON.ONSET voc ] ]. aspect_n1 := n_-_mc_le & [ STEM < "aspect" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspect_n_1_rel", PHON.ONSET voc ] ]. aspeggsetra_n1 := n_-_pn_le & [ STEM < "Aspeggsetra" >, SYNSEM [ LKEYS.KEYREL.CARG "Aspeggsetra", PHON.ONSET voc ] ]. aspen_n1 := n_-_c_le & [ STEM < "aspen" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspen_n_1_rel", PHON.ONSET voc ] ]. asphalt_n1 := n_-_m_le & [ STEM < "asphalt" >, SYNSEM [ LKEYS.KEYREL.PRED "_asphalt_n_1_rel", PHON.ONSET voc ] ]. asphalt_v1 := v_np_le & [ STEM < "asphalt" >, SYNSEM [ LKEYS.KEYREL.PRED "_asphalt_v_1_rel", PHON.ONSET voc ] ]. asphodel_n1 := n_-_c_le & [ STEM < "asphodel" >, SYNSEM [ LKEYS.KEYREL.PRED "_asphodel_n_1_rel", PHON.ONSET voc ] ]. aspiration_n1 := n_-_mc_le & [ STEM < "aspiration" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspiration_n_1_rel", PHON.ONSET voc ] ]. aspire_to_v1 := v_pp_e_le & [ STEM < "aspire" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_aspire_v_to_rel" ], PHON.ONSET voc ] ]. aspire_v1 := v_vp_seq_le & [ STEM < "aspire" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspire_v_to_rel", PHON.ONSET voc ] ]. aspirin_n1 := n_-_mc_le & [ STEM < "aspirin" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspirin_n_1_rel", PHON.ONSET voc ] ]. aspiring_a1 := aj_-_i_le & [ STEM < "aspiring" >, SYNSEM [ LKEYS.KEYREL.PRED "_aspiring_a_1_rel", PHON.ONSET voc ] ]. ass_n1 := n_-_c_le & [ STEM < "ass" >, SYNSEM [ LKEYS.KEYREL.PRED "_ass_n_1_rel", PHON.ONSET voc ] ]. assail_v1 := v_np_le & [ STEM < "assail" >, SYNSEM [ LKEYS.KEYREL.PRED "_assail_v_1_rel", PHON.ONSET voc ] ]. assassin_n1 := n_-_c_le & [ STEM < "assassin" >, SYNSEM [ LKEYS.KEYREL.PRED "_assassin_n_1_rel", PHON.ONSET voc ] ]. assassinate_v1 := v_np_le & [ STEM < "assassinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_assassinate_v_1_rel", PHON.ONSET voc ] ]. assassination_n1 := n_pp_mc-of_le & [ STEM < "assassination" >, SYNSEM [ LKEYS.KEYREL.PRED "_assassination_n_of_rel", PHON.ONSET voc ] ]. assault_n1 := n_-_mc_le & [ STEM < "assault" >, SYNSEM [ LKEYS.KEYREL.PRED "_assault_n_1_rel", PHON.ONSET voc ] ]. assault_v1 := v_np_le & [ STEM < "assault" >, SYNSEM [ LKEYS.KEYREL.PRED "_assault_v_1_rel", PHON.ONSET voc ] ]. assay_n1 := n_-_mc_le & [ STEM < "assay" >, SYNSEM [ LKEYS.KEYREL.PRED "_assay_n_1_rel", PHON.ONSET voc ] ]. assay_v1 := v_vp_seq_le & [ STEM < "assay" >, SYNSEM [ LKEYS.KEYREL.PRED "_assay_v_1_rel", PHON.ONSET voc ] ]. assay_v2 := v_np*_le & [ STEM < "assay" >, SYNSEM [ LKEYS.KEYREL.PRED "_assay_v_1_rel", PHON.ONSET voc ] ]. assemblage_n1 := n_-_mc_le & [ STEM < "assemblage" >, SYNSEM [ LKEYS.KEYREL.PRED "_assemblage_n_1_rel", PHON.ONSET voc ] ]. assemble_v1 := v_np_noger_le & [ STEM < "assemble" >, SYNSEM [ LKEYS.KEYREL.PRED "_assemble_v_cause_rel", PHON.ONSET voc ] ]. assemble_v2 := v_-_unacc_le & [ STEM < "assemble" >, SYNSEM [ LKEYS.KEYREL.PRED "_assemble_v_1_rel", PHON.ONSET voc ] ]. assembly_n1 := n_pp_mc-of_le & [ STEM < "assembly" >, SYNSEM [ LKEYS.KEYREL.PRED "_assembly_n_of_rel", PHON.ONSET voc ] ]. assent_n1 := n_-_mc_le & [ STEM < "assent" >, SYNSEM [ LKEYS.KEYREL.PRED "_assent_n_1_rel", PHON.ONSET voc ] ]. assent_to_v1 := v_pp_e_le & [ STEM < "assent" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_assent_v_to_rel" ], PHON.ONSET voc ] ]. assent_v1 := v_-_le & [ STEM < "assent" >, SYNSEM [ LKEYS.KEYREL.PRED "_assent_v_1_rel", PHON.ONSET voc ] ]. assert_v1 := v_np*_le & [ STEM < "assert" >, SYNSEM [ LKEYS.KEYREL.PRED "_assert_v_1_rel", PHON.ONSET voc ] ]. assert_v2 := v_cp_le & [ STEM < "assert" >, SYNSEM [ LKEYS.KEYREL.PRED "_assert_v_1_rel", PHON.ONSET voc ] ]. assertion_n1 := n_pp_mc-of_le & [ STEM < "assertion" >, SYNSEM [ LKEYS.KEYREL.PRED "_assertion_n_of_rel", PHON.ONSET voc ] ]. assertion_n2 := n_cp_c-fin_le & [ STEM < "assertion" >, SYNSEM [ LKEYS.KEYREL.PRED "_assertion_n_of_rel", PHON.ONSET voc ] ]. assertive_a1 := aj_-_i_le & [ STEM < "assertive" >, SYNSEM [ LKEYS.KEYREL.PRED "_assertive_a_1_rel", PHON.ONSET voc ] ]. assess_v1 := v_np_le & [ STEM < "assess" >, SYNSEM [ LKEYS.KEYREL.PRED "_assess_v_1_rel", PHON.ONSET voc ] ]. assess_v2 := v_np-pp_oeq-as_le & [ STEM < "assess" >, SYNSEM [ LKEYS.KEYREL.PRED "_assess_v_as_rel", PHON.ONSET voc ] ]. assess_v3 := v_np-vp_oeq_le & [ STEM < "assess" >, SYNSEM [ LKEYS.KEYREL.PRED "_assess_v_1_rel", PHON.ONSET voc ] ]. assess_v4 := v_cp_le & [ STEM < "assess" >, SYNSEM [ LKEYS.KEYREL.PRED "_assess_v_1_rel", PHON.ONSET voc ] ]. assessment_n1 := n_-_mc_le & [ STEM < "assessment" >, SYNSEM [ LKEYS.KEYREL.PRED "_assessment_n_1_rel", PHON.ONSET voc ] ]. asset_n1 := n_-_c_le & [ STEM < "asset" >, SYNSEM [ LKEYS.KEYREL.PRED "_asset_n_1_rel", PHON.ONSET voc ] ]. assign_v1 := v_np-np_le & [ STEM < "assign" >, SYNSEM [ LKEYS.KEYREL.PRED "_assign_v_to_rel", PHON.ONSET voc ] ]. assign_v2 := v_np_le & [ STEM < "assign" >, SYNSEM [ LKEYS.KEYREL.PRED "_assign_v_1_rel", PHON.ONSET voc ] ]. assign_v3 := v_np-vp_oeq_le & [ STEM < "assign" >, SYNSEM [ LKEYS.KEYREL.PRED "_assign_v_1_rel", PHON.ONSET voc ] ]. assignment_n1 := n_pp_mc-of_le & [ STEM < "assignment" >, SYNSEM [ LKEYS.KEYREL.PRED "_assignment_n_of_rel", PHON.ONSET voc ] ]. assimilate_v1 := v_np*_le & [ STEM < "assimilate" >, SYNSEM [ LKEYS.KEYREL.PRED "_assimilate_v_1_rel", PHON.ONSET voc ] ]. assimilation_n1 := n_-_m_le & [ STEM < "assimilation" >, SYNSEM [ LKEYS.KEYREL.PRED "_assimilation_n_1_rel", PHON.ONSET voc ] ]. assiniboine_n1 := n_-_pn_le & [ STEM < "Assiniboine" >, SYNSEM [ LKEYS.KEYREL.CARG "Assiniboine", PHON.ONSET voc ] ]. assist_n1 := n_-_c_le & [ STEM < "assist" >, SYNSEM [ LKEYS.KEYREL.PRED "_assist_n_1_rel", PHON.ONSET voc ] ]. assist_v1 := v_np*_le & [ STEM < "assist" >, SYNSEM [ LKEYS.KEYREL.PRED "_assist_v_1_rel", PHON.ONSET voc ] ]. assistance_n1 := n_-_m_le & [ STEM < "assistance" >, SYNSEM [ LKEYS.KEYREL.PRED "_assistance_n_1_rel", PHON.ONSET voc ] ]. assistant_n1 := n_-_c_le & [ STEM < "assistant" >, SYNSEM [ LKEYS.KEYREL.PRED "_assistant_n_1_rel", PHON.ONSET voc ] ]. associate_n1 := n_pp_c-of_le & [ STEM < "associate" >, SYNSEM [ LKEYS.KEYREL.PRED "_associate_n_of_rel", PHON.ONSET voc ] ]. associate_with_v1 := v_np-pp_e_le & [ STEM < "associate" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_associate_v_with_rel" ], PHON.ONSET voc ] ]. associate_with_v2 := v_pp_e_le & [ STEM < "associate" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_associate_v_with_rel" ], PHON.ONSET voc ] ]. associated_a1 := aj_-_i-att_le & [ STEM < "associated" >, SYNSEM [ LKEYS.KEYREL.PRED "_associated_a_1_rel", PHON.ONSET voc ] ]. association_n1 := n_pp_mc-of_le & [ STEM < "association" >, SYNSEM [ LKEYS.KEYREL.PRED "_association_n_of_rel", PHON.ONSET voc ] ]. association_post_ttl := n_-_tt-post_le & [ STEM < "Association" >, SYNSEM [ LKEYS.KEYREL.PRED "_association_n_of_rel", PHON.ONSET voc ] ]. assorted_a1 := aj_-_i_le & [ STEM < "assorted" >, SYNSEM [ LKEYS.KEYREL.PRED "_assorted_a_1_rel", PHON.ONSET voc ] ]. assortment_n1 := n_-_c_le & [ STEM < "assortment" >, SYNSEM [ LKEYS.KEYREL.PRED "_assortment_n_1_rel", PHON.ONSET voc ] ]. assume_v1 := v_cp_prop_le & [ STEM < "assume" >, SYNSEM [ LKEYS.KEYREL.PRED "_assume_v_1_rel", PHON.ONSET voc ] ]. assume_v2 := v_np_le & [ STEM < "assume" >, SYNSEM [ LKEYS.KEYREL.PRED "_assume_v_1_rel", PHON.ONSET voc ] ]. assume_v3 := v_np-vp_oeq_le & [ STEM < "assume" >, SYNSEM [ LKEYS.KEYREL.PRED "_assume_v_1_rel", PHON.ONSET voc ] ]. assumption_day := n_np_pn-hol_le & [ STEM < "Assumption", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Assumption_Day", PHON.ONSET voc ] ]. assumption_n1 := n_-_c_le & [ STEM < "assumption" >, SYNSEM [ LKEYS.KEYREL.PRED "_assumption_n_1_rel", PHON.ONSET voc ] ]. assumption_n2 := n_cp_c-fin_le & [ STEM < "assumption" >, SYNSEM [ LKEYS.KEYREL.PRED "_assumption_n_1_rel", PHON.ONSET voc ] ]. assurance_n1 := n_cp_mc-fin_le & [ STEM < "assurance" >, SYNSEM [ LKEYS.KEYREL.PRED "_assurance_n_1_rel", PHON.ONSET voc ] ]. assurance_n2 := n_-_mc_le & [ STEM < "assurance" >, SYNSEM [ LKEYS.KEYREL.PRED "_assurance_n_1_rel", PHON.ONSET voc ] ]. assure_v1 := v_np-np_only_le & [ STEM < "assure" >, SYNSEM [ LKEYS.KEYREL.PRED "_assure_v_of_rel", PHON.ONSET voc ] ]. assure_v2 := v_np_le & [ STEM < "assure" >, SYNSEM [ LKEYS.KEYREL.PRED "_assure_v_of_rel", PHON.ONSET voc ] ]. assure_v3 := v_np-cp_prop_le & [ STEM < "assure" >, SYNSEM [ LKEYS.KEYREL.PRED "_assure_v_of_rel", PHON.ONSET voc ] ]. assure_v4 := v_np-pp_e_le & [ STEM < "assure" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_assure_v_of_rel" ], PHON.ONSET voc ] ]. assyrian_a1 := aj_-_i_le & [ STEM < "Assyrian" >, SYNSEM [ LKEYS.KEYREL.PRED "_assyrian_a_1_rel", PHON.ONSET voc ] ]. assyrian_n1 := n_-_c-nocnh_le & [ STEM < "Assyrian" >, SYNSEM [ LKEYS.KEYREL.PRED "_assyrian_n_1_rel", PHON.ONSET voc ] ]. assyrian_n2 := n_-_pn_le & [ STEM < "Assyrian" >, SYNSEM [ LKEYS.KEYREL.CARG "Assyrian", PHON.ONSET voc ] ]. assyriology_n1 := n_-_m_le & [ STEM < "assyriology" >, SYNSEM [ LKEYS.KEYREL.PRED "_assyriology_n_1_rel", PHON.ONSET voc ] ]. asterisk_adv_post_1 := av_-_dc-like-po_le & [ STEM < "*" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_post_1", PHON.ONSET voc ] ]. asterisk_adv_post_2 := av_-_dc-like-po_le & [ STEM < "**" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_post_2", PHON.ONSET voc ] ]. asterisk_adv_post_3 := av_-_dc-like-po_le & [ STEM < "***" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_post_3", PHON.ONSET voc ] ]. asterisk_adv_pre_1 := av_-_dc-like-pr_le & [ STEM < "*" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_pre_1", PHON.ONSET voc ] ]. asterisk_adv_pre_2 := av_-_dc-like-pr_le & [ STEM < "**" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_pre_2", PHON.ONSET voc ] ]. asterisk_adv_pre_3 := av_-_dc-like-pr_le & [ STEM < "***" >, SYNSEM [ LKEYS.KEYREL.CARG "asterisk_pre_3", PHON.ONSET voc ] ]. asterisk_n1 := n_-_c_le & [ STEM < "asterisk" >, SYNSEM [ LKEYS.KEYREL.PRED "_asterisk_n_1_rel", PHON.ONSET voc ] ]. asthma_n1 := n_-_m_le & [ STEM < "asthma" >, SYNSEM [ LKEYS.KEYREL.PRED "_asthma_n_1_rel", PHON.ONSET voc ] ]. aston_n1 := n_-_pn-city_le & [ STEM < "Aston" >, SYNSEM [ LKEYS.KEYREL.CARG "Aston", PHON.ONSET voc ] ]. astonish_v1 := v_np_le & [ STEM < "astonish" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonish_v_1_rel", PHON.ONSET voc ] ]. astonish_v2 := v_np-cp_it-s_le & [ STEM < "astonish" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonish_v_1_rel", PHON.ONSET voc ] ]. astonished_a1 := aj_pp_i_le & [ STEM < "astonished" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_astonished_a_at_rel" ], PHON.ONSET voc ] ]. astonishing_a1 := aj_pp-vp_i-it_le & [ STEM < "astonishing" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonishing_a_for_rel", PHON.ONSET voc ] ]. astonishing_a2 := aj_pp-cp_i-it_le & [ STEM < "astonishing" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonishing_a_for_rel", PHON.ONSET voc ] ]. astonishingly_adv := av_-_i-vp_le & [ STEM < "astonishingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonishing_a_1_rel", PHON.ONSET voc ] ]. astonishment_n1 := n_-_m_le & [ STEM < "astonishment" >, SYNSEM [ LKEYS.KEYREL.PRED "_astonishment_n_1_rel", PHON.ONSET voc ] ]. astound_v1 := v_np_le & [ STEM < "astound" >, SYNSEM [ LKEYS.KEYREL.PRED "_astound_v_1_rel", PHON.ONSET voc ] ]. astounding_a1 := aj_-_i_le & [ STEM < "astounding" >, SYNSEM [ LKEYS.KEYREL.PRED "_astounding_a_1_rel", PHON.ONSET voc ] ]. astray_adv := pp_-_i_le & [ STEM < "astray" >, SYNSEM [ LKEYS.KEYREL.PRED _astray_p_rel, PHON.ONSET voc ] ]. astride := p_np_i_le & [ STEM < "astride" >, SYNSEM [ LKEYS.KEYREL.PRED _astride_p_rel, PHON.ONSET voc ] ]. astrologer_n1 := n_-_c_le & [ STEM < "astrologer" >, SYNSEM [ LKEYS.KEYREL.PRED "_astrologer_n_1_rel", PHON.ONSET voc ] ]. astronaut_n1 := n_-_c_le & [ STEM < "astronaut" >, SYNSEM [ LKEYS.KEYREL.PRED "_astronaut_n_1_rel", PHON.ONSET voc ] ]. astronomical_a1 := aj_-_i_le & [ STEM < "astronomical" >, SYNSEM [ LKEYS.KEYREL.PRED "_astronomical_a_1_rel", PHON.ONSET voc ] ]. astronomically := av_-_i-vp_le & [ STEM < "astronomically" >, SYNSEM [ LKEYS.KEYREL.PRED "_astronomical_a_1_rel", PHON.ONSET voc ] ]. astronomy_n1 := n_-_m_le & [ STEM < "astronomy" >, SYNSEM [ LKEYS.KEYREL.PRED "_astronomy_n_1_rel", PHON.ONSET voc ] ]. asunder_a1 := aj_-_i-prd_le & [ STEM < "asunder" >, SYNSEM [ LKEYS.KEYREL.PRED "_asunder_a_1_rel", PHON.ONSET voc ] ]. asylum_n1 := n_-_mc_le & [ STEM < "asylum" >, SYNSEM [ LKEYS.KEYREL.PRED "_asylum_n_1_rel", PHON.ONSET voc ] ]. asymmetric_a1 := aj_-_i_le & [ STEM < "asymmetric" >, SYNSEM [ LKEYS.KEYREL.PRED "_asymmetric_a_1_rel", PHON.ONSET voc ] ]. asymmetrical_a1 := aj_-_i_le & [ STEM < "asymmetrical" >, SYNSEM [ LKEYS.KEYREL.PRED "_asymmetrical_a_1_rel", PHON.ONSET voc ] ]. at := p_np_i-reg_le & [ STEM < "at" >, SYNSEM [ LKEYS.KEYREL.PRED _at_p_rel, PHON.ONSET voc ] ]. at+best_adv1 := av_-_i-vp_le & [ STEM < "at", "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+best_a_1_rel", PHON.ONSET voc ] ]. at+large_pp := pp_-_i_le & [ STEM < "at", "large" >, SYNSEM [ LKEYS.KEYREL.PRED _at+large_p_rel, PHON.ONSET voc ] ]. at_all_adv1 := av_-_i-vp-po_le & [ STEM < "at", "all" >, SYNSEM [ LKEYS.KEYREL.PRED _at+all_a_1_rel, PHON.ONSET voc ] ]. at_any_rate_adv1 := av_-_i-vp-po_le & [ STEM < "at", "any", "rate" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+any+rate_a_1_rel", PHON.ONSET voc ] ]. at_any_rate_adv2 := av_-_i-vp-x_le & [ STEM < "at", "any", "rate" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+any+rate_a_1_rel", PHON.ONSET voc ] ]. at_first_adv1 := av_-_i-vp_le & [ STEM < "at", "first" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+first_a_1_rel", PHON.ONSET voc ] ]. at_last_adv1 := av_-_i-vp-x_le & [ STEM < "at", "last" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+last_a_1_rel", PHON.ONSET voc ] ]. at_least_adv := av_-_i-vp-nvm_le & [ STEM < "at", "least" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+least_a_1_rel", PHON.ONSET voc ] ]. at_least_deg := av_-_dg-jov_le & [ STEM < "at", "least" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+least_x_deg_rel", PHON.ONSET voc ] ]. at_least_m_deg := av_-_dg-m_le & [ STEM < "at", "least" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+least_x_deg_rel", PHON.ONSET voc ] ]. at_most := av_-_i-vp-po_le & [ STEM < "at", "most" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+most_a_1_rel", PHON.ONSET voc ] ]. at_most_deg := av_-_dg_le & [ STEM < "at", "most" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+most_x_deg_rel", PHON.ONSET voc ] ]. at_once_adv1 := av_-_i-vp_le & [ STEM < "at", "once" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+once_a_1_rel", PHON.ONSET voc ] ]. at_prtcl := p_np_ptcl_le & [ STEM < "at" >, SYNSEM [ LKEYS.KEYREL.PRED _at_p_sel_rel, PHON.ONSET voc ] ]. at_temp := p_np_i-tmp_le & [ STEM < "at" >, SYNSEM [ LKEYS [ --COMPKEY hour_or_time_rel, KEYREL.PRED _at_p_temp_rel ], PHON.ONSET voc ] ]. at_the_earliest := av_-_i-vp-po_le & [ STEM < "at", "the", "earliest" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+the+earliest_a_1_rel", PHON.ONSET voc ] ]. at_the_latest := av_-_i-vp-po_le & [ STEM < "at", "the", "latest" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+the+latest_a_1_rel", PHON.ONSET voc ] ]. at_the_most_deg := av_-_dg_le & [ STEM < "at", "the", "most" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+the+most_x_deg_rel", PHON.ONSET voc ] ]. at_worst_deg := av_-_dg_le & [ STEM < "at", "worst" >, SYNSEM [ LKEYS.KEYREL.PRED "_at+worst_x_rel", PHON.ONSET voc ] ]. atandt_n1 := n_-_pn_le & [ STEM < "AT", "&", "T" >, SYNSEM [ LKEYS.KEYREL.CARG "ATT", PHON.ONSET voc ] ]. atandt_n2 := n_-_pn_le & [ STEM < "AT&T" >, SYNSEM [ LKEYS.KEYREL.CARG "ATT", PHON.ONSET voc ] ]. atelier_n1 := n_-_c_le & [ STEM < "atelier" >, SYNSEM [ LKEYS.KEYREL.PRED "_atelier_n_1_rel", PHON.ONSET voc ] ]. atheist_n1 := n_-_c_le & [ STEM < "atheist" >, SYNSEM [ LKEYS.KEYREL.PRED "_atheist_n_1_rel", PHON.ONSET voc ] ]. athelstan_n1 := n_-_pn_le & [ STEM < "Athelstan" >, SYNSEM [ LKEYS.KEYREL.CARG "Athelstan", PHON.ONSET voc ] ]. athens_n1 := n_-_pn-city_le & [ STEM < "Athens" >, SYNSEM [ LKEYS.KEYREL.CARG "Athens", PHON.ONSET voc ] ]. atherton_n1 := n_-_pn-city_le & [ STEM < "Atherton" >, SYNSEM [ LKEYS.KEYREL.CARG "Atherton", PHON.ONSET voc ] ]. athlete_n1 := n_-_c_le & [ STEM < "athlete" >, SYNSEM [ LKEYS.KEYREL.PRED "_athlete_n_1_rel", PHON.ONSET voc ] ]. athletes_a1 := aj_-_i-cmpd_le & [ STEM < "athlete", "'s" >, SYNSEM [ LKEYS.KEYREL.PRED "_athletes_a_1_rel", PHON.ONSET voc ] ]. athletic_isect := aj_-_i_le & [ STEM < "athletic" >, SYNSEM [ LKEYS.KEYREL.PRED "_athletic_a_1_rel", PHON.ONSET voc ] ]. athletically := av_-_i-vp_le & [ STEM < "athletically" >, SYNSEM [ LKEYS.KEYREL.PRED "_athletic_a_1_rel", PHON.ONSET voc ] ]. athletics_n1 := n_-_m_le & [ STEM < "athletics" >, SYNSEM [ LKEYS.KEYREL.PRED "_athletics_n_1_rel", PHON.ONSET voc ] ]. athwart := p_np_i-reg_le & [ STEM < "athwart" >, SYNSEM [ LKEYS.KEYREL.PRED _athwart_p_rel, PHON.ONSET voc ] ]. athwart_pp := pp_-_i_le & [ STEM < "athwart" >, SYNSEM [ LKEYS.KEYREL.PRED _athwart_p_rel, PHON.ONSET voc ] ]. atkinson_n1 := n_-_pn_le & [ STEM < "Atkinson" >, SYNSEM [ LKEYS.KEYREL.CARG "Atkinson", PHON.ONSET voc ] ]. atlanta_n1 := n_-_pn-city_le & [ STEM < "Atlanta" >, SYNSEM [ LKEYS.KEYREL.CARG "Atlanta", PHON.ONSET voc ] ]. atlantic_city_n1 := n_-_pn-city_le & [ STEM < "Atlantic", "City" >, SYNSEM [ LKEYS.KEYREL.CARG "Atlantic_City", PHON.ONSET voc ] ]. atlantic_n1 := n_-_c-nm_le & [ STEM < "Atlantic" >, SYNSEM [ LKEYS.KEYREL.CARG "Atlantic", PHON.ONSET voc ] ]. atlas_n1 := n_-_c_le & [ STEM < "atlas" >, SYNSEM [ LKEYS.KEYREL.PRED "_atlas_n_1_rel", PHON.ONSET voc ] ]. atlas_n2 := n_-_pn_le & [ STEM < "Atlas" >, SYNSEM [ LKEYS.KEYREL.CARG "Atlas", PHON.ONSET voc ] ]. atm_n1 := n_-_c_le & [ STEM < "ATM" >, SYNSEM [ LKEYS.KEYREL.PRED "_atm_n_1_rel", PHON.ONSET voc ] ]. atmosphere_n1 := n_-_mc_le & [ STEM < "atmosphere" >, SYNSEM [ LKEYS.KEYREL.PRED "_atmosphere_n_1_rel", PHON.ONSET voc ] ]. atmospheric_a1 := aj_-_i_le & [ STEM < "atmospheric" >, SYNSEM [ LKEYS.KEYREL.PRED "_atmospheric_a_1_rel", PHON.ONSET voc ] ]. atom_n := n_-_c_le & [ STEM < "atom" >, SYNSEM [ LKEYS.KEYREL.PRED "_atom_n_1_rel", PHON.ONSET voc ] ]. atomic_a1 := aj_-_i_le & [ STEM < "atomic" >, SYNSEM [ LKEYS.KEYREL.PRED "_atomic_a_1_rel", PHON.ONSET voc ] ]. atop := p_np_i-reg_le & [ STEM < "atop" >, SYNSEM [ LKEYS.KEYREL.PRED _atop_p_rel, PHON.ONSET voc ] ]. atremble_a1 := aj_-_i-prd_le & [ STEM < "atremble" >, SYNSEM [ LKEYS.KEYREL.PRED "_atremble_a_1_rel", PHON.ONSET voc ] ]. atrium_n1 := n_-_c_le & [ STEM < "atrium" >, SYNSEM [ LKEYS.KEYREL.PRED "_atrium_n_1_rel", PHON.ONSET voc ] ]. atrociously := av_-_i-vp_le & [ STEM < "atrociously" >, SYNSEM [ LKEYS.KEYREL.PRED "_atrocious_a_1_rel", PHON.ONSET voc ] ]. att_n1 := n_-_pn_le & [ STEM < "ATT" >, SYNSEM [ LKEYS.KEYREL.CARG "ATT", PHON.ONSET voc ] ]. attach_v1 := v_np_le & [ STEM < "attach" >, SYNSEM [ LKEYS.KEYREL.PRED "_attach_v_1_rel", PHON.ONSET voc ] ]. attach_v2 := v_np-pp_prop_le & [ STEM < "attach" >, SYNSEM [ LKEYS.KEYREL.PRED "_attach_v_1_rel", PHON.ONSET voc ] ]. attachment_n1 := n_pp_mc-of_le & [ STEM < "attachment" >, SYNSEM [ LKEYS.KEYREL.PRED "_attachment_n_of_rel", PHON.ONSET voc ] ]. attack_n1 := n_-_mc_le & [ STEM < "attack" >, SYNSEM [ LKEYS.KEYREL.PRED "_attack_n_1_rel", PHON.ONSET voc ] ]. attack_v1 := v_np*_le & [ STEM < "attack" >, SYNSEM [ LKEYS.KEYREL.PRED "_attack_v_1_rel", PHON.ONSET voc ] ]. attacker_n1 := n_-_c_le & [ STEM < "attacker" >, SYNSEM [ LKEYS.KEYREL.PRED "_attacker_n_1_rel", PHON.ONSET voc ] ]. attain_v1 := v_np_le & [ STEM < "attain" >, SYNSEM [ LKEYS.KEYREL.PRED "_attain_v_1_rel", PHON.ONSET voc ] ]. attainment_n1 := n_pp_mc-of_le & [ STEM < "attainment" >, SYNSEM [ LKEYS.KEYREL.PRED "_attainment_n_of_rel", PHON.ONSET voc ] ]. attempt_n1 := n_-_c_le & [ STEM < "attempt" >, SYNSEM [ LKEYS.KEYREL.PRED "_attempt_n_1_rel", PHON.ONSET voc ] ]. attempt_n2 := n_vp_c_le & [ STEM < "attempt" >, SYNSEM [ LKEYS.KEYREL.PRED "_attempt_n_1_rel", PHON.ONSET voc ] ]. attempt_v1 := v_np_le & [ STEM < "attempt" >, SYNSEM [ LKEYS.KEYREL.PRED "_attempt_v_1_rel", PHON.ONSET voc ] ]. attempt_v2 := v_vp_seq_le & [ STEM < "attempt" >, SYNSEM [ LKEYS.KEYREL.PRED "_attempt_v_1_rel", PHON.ONSET voc ] ]. attend_to_v1 := v_pp_e_le & [ STEM < "attend" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_attend_v_to_rel" ], PHON.ONSET voc ] ]. attend_v1 := v_np*_le & [ STEM < "attend" >, SYNSEM [ LKEYS.KEYREL.PRED "_attend_v_1_rel", PHON.ONSET voc ] ]. attendance_n1 := n_-_mc_le & [ STEM < "attendance" >, SYNSEM [ LKEYS.KEYREL.PRED "_attendance_n_1_rel", PHON.ONSET voc ] ]. attendant_n := n_-_c_le & [ STEM < "attendant" >, SYNSEM [ LKEYS.KEYREL.PRED "_attendant_n_1_rel", PHON.ONSET voc ] ]. attendee_n1 := n_-_c_le & [ STEM < "attendee" >, SYNSEM [ LKEYS.KEYREL.PRED "_attendee_n_1_rel", PHON.ONSET voc ] ]. attention_n1 := n_pp_mc-to_le & [ STEM < "attention" >, SYNSEM [ LKEYS.KEYREL.PRED "_attention_n_to_rel", PHON.ONSET voc ] ]. attention_n2 := n_-_mc_le & [ STEM < "attention" >, SYNSEM [ LKEYS.KEYREL.PRED "_attention_n_to_rel", PHON.ONSET voc ] ]. attentive_a1 := aj_-_i_le & [ STEM < "attentive" >, SYNSEM [ LKEYS.KEYREL.PRED "_attentive_a_1_rel", PHON.ONSET voc ] ]. attentively := av_-_i-vp_le & [ STEM < "attentively" >, SYNSEM [ LKEYS.KEYREL.PRED "_attentive_a_1_rel", PHON.ONSET voc ] ]. attest_to_v1 := v_pp_e_le & [ STEM < "attest" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_attest_v_to_rel" ], PHON.ONSET voc ] ]. attest_v1 := v_np_le & [ STEM < "attest" >, SYNSEM [ LKEYS.KEYREL.PRED "_attest_v_1_rel", PHON.ONSET voc ] ]. attest_v2 := v_cp_prop_le & [ STEM < "attest" >, SYNSEM [ LKEYS.KEYREL.PRED "_attest_v_1_rel", PHON.ONSET voc ] ]. attic_a1 := aj_-_i_le & [ STEM < "attic" >, SYNSEM [ LKEYS.KEYREL.PRED "_attic_a_1_rel", PHON.ONSET voc ] ]. attic_n1 := n_-_c_le & [ STEM < "attic" >, SYNSEM [ LKEYS.KEYREL.PRED "_attic_n_1_rel", PHON.ONSET voc ] ]. attitude_n1 := n_-_mc_le & [ STEM < "attitude" >, SYNSEM [ LKEYS.KEYREL.PRED "_attitude_n_1_rel", PHON.ONSET voc ] ]. attopeu_n1 := n_-_pn-city_le & [ STEM < "Attopeu" >, SYNSEM [ LKEYS.KEYREL.CARG "Attopeu", PHON.ONSET voc ] ]. attorney_n1 := n_-_c_le & [ STEM < "attorney" >, SYNSEM [ LKEYS.KEYREL.PRED "_attorney_n_1_rel", PHON.ONSET voc ] ]. attract_v1 := v_np_le & [ STEM < "attract" >, SYNSEM [ LKEYS.KEYREL.PRED "_attract_v_1_rel", PHON.ONSET voc ] ]. attracted_a1 := aj_pp_i-obl_le & [ STEM < "attracted" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_attracted_a_to_rel" ], PHON.ONSET voc ] ]. attraction_n1 := n_pp_mc-of_le & [ STEM < "attraction" >, SYNSEM [ LKEYS.KEYREL.PRED "_attraction_n_of_rel", PHON.ONSET voc ] ]. attractive_isect := aj_-_i_le & [ STEM < "attractive" >, SYNSEM [ LKEYS.KEYREL.PRED "_attractive_a_1_rel", PHON.ONSET voc ] ]. attractively_a1 := av_-_i-vp_le & [ STEM < "attractively" >, SYNSEM [ LKEYS.KEYREL.PRED "_attractive_a_1_rel", PHON.ONSET voc ] ]. attribute_n1 := n_-_c_le & [ STEM < "attribute" >, SYNSEM [ LKEYS.KEYREL.PRED "_attribute_n_1_rel", PHON.ONSET voc ] ]. attribute_v1 := v_np-pp_to_le & [ STEM < "attribute" >, SYNSEM [ LKEYS.KEYREL.PRED "_attribute_v_to_rel", PHON.ONSET voc ] ]. aubrey := n_-_pn_le & [ STEM < "Aubrey" >, SYNSEM [ LKEYS.KEYREL.CARG "Aubrey", PHON.ONSET voc ] ]. auckland_n1 := n_-_pn-city_le & [ STEM < "Auckland" >, SYNSEM [ LKEYS.KEYREL.CARG "Auckland", PHON.ONSET voc ] ]. auction_n1 := n_pp_mc-of_le & [ STEM < "auction" >, SYNSEM [ LKEYS.KEYREL.PRED "_auction_n_of_rel", PHON.ONSET voc ] ]. auction_v1 := v_np_le & [ STEM < "auction" >, SYNSEM [ LKEYS.KEYREL.PRED "_auction_v_1_rel", PHON.ONSET voc ] ]. audacious_a1 := aj_-_i_le & [ STEM < "audacious" >, SYNSEM [ LKEYS.KEYREL.PRED "_audacious_a_1_rel", PHON.ONSET voc ] ]. audacity_n1 := n_-_mc_le & [ STEM < "audacity" >, SYNSEM [ LKEYS.KEYREL.PRED "_audacity_n_1_rel", PHON.ONSET voc ] ]. audible_a1 := aj_-_i_le & [ STEM < "audible" >, SYNSEM [ LKEYS.KEYREL.PRED "_audible_a_1_rel", PHON.ONSET voc ] ]. audience_n1 := n_-_c_le & [ STEM < "audience" >, SYNSEM [ LKEYS.KEYREL.PRED "_audience_n_1_rel", PHON.ONSET voc ] ]. audio_n1 := n_-_m_le & [ STEM < "audio" >, SYNSEM [ LKEYS.KEYREL.PRED "_audio_n_1_rel", PHON.ONSET voc ] ]. audio_visual_a1 := aj_-_i_le & [ STEM < "audio", "visual" >, SYNSEM [ LKEYS.KEYREL.PRED "_audio+visual_a_1_rel", PHON.ONSET voc ] ]. audio_visual_a2 := aj_-_i_le & [ STEM < "audio-", "visual" >, SYNSEM [ LKEYS.KEYREL.PRED "_audio+visual_a_1_rel", PHON.ONSET voc ] ]. audit_n1 := n_pp_mc-of_le & [ STEM < "audit" >, SYNSEM [ LKEYS.KEYREL.PRED "_audit_n_1_rel", PHON.ONSET voc ] ]. audit_v1 := v_np_le & [ STEM < "audit" >, SYNSEM [ LKEYS.KEYREL.PRED "_audit_v_1_rel", PHON.ONSET voc ] ]. auditor_n1 := n_-_c_le & [ STEM < "auditor" >, SYNSEM [ LKEYS.KEYREL.PRED "_auditor_n_1_rel", PHON.ONSET voc ] ]. auditorium_n1 := n_-_c_le & [ STEM < "auditorium" >, SYNSEM [ LKEYS.KEYREL.PRED "_auditorium_n_1_rel", PHON.ONSET voc ] ]. auditorium_post_ttl := n_-_tt-post_le & [ STEM < "Auditorium" >, SYNSEM [ LKEYS.KEYREL.PRED "_auditorium_n_1_rel", PHON.ONSET voc ] ]. auerbach_n1 := n_-_pn_le & [ STEM < "Auerbach" >, SYNSEM [ LKEYS.KEYREL.CARG "Auerbach", PHON.ONSET voc ] ]. augen_gneiss_n1 := n_-_mc_le & [ STEM < "augen", "gneiss" >, SYNSEM [ LKEYS.KEYREL.PRED "_augen+gneiss_n_1_rel", PHON.ONSET voc ] ]. auger_adv := v_adv_le & [ STEM < "auger" >, SYNSEM [ LKEYS.KEYREL.PRED "_auger_v_1_rel", PHON.ONSET voc ] ]. auger_n1 := n_-_c_le & [ STEM < "auger" >, SYNSEM [ LKEYS.KEYREL.PRED "_auger_n_1_rel", PHON.ONSET voc ] ]. aught := n_-_pr_le & [ STEM < "aught" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED _any_q_rel, KEYREL.PRED thing_rel ], PHON.ONSET voc ] ]. augment_v1 := v_np_le & [ STEM < "augment" >, SYNSEM [ LKEYS.KEYREL.PRED "_augment_v_1_rel", PHON.ONSET voc ] ]. augment_v2 := v_np-cp_it-s_le & [ STEM < "augment" >, SYNSEM [ LKEYS.KEYREL.PRED "_augment_v_1_rel", PHON.ONSET voc ] ]. augmentation_n1 := n_-_mc_le & [ STEM < "augmentation" >, SYNSEM [ LKEYS.KEYREL.PRED "_augmentation_n_1_rel", PHON.ONSET voc ] ]. augsburg_n1 := n_-_pn-city_le & [ STEM < "Augsburg" >, SYNSEM [ LKEYS.KEYREL.CARG "Augsburg", PHON.ONSET voc ] ]. august := n_-_c-month_le & [ STEM < "August" >, SYNSEM [ LKEYS.KEYREL.CARG "Aug", PHON.ONSET voc ] ]. august_abb_n1 := n_-_c-month_le & [ STEM < "Aug" >, SYNSEM [ LKEYS.KEYREL.CARG "Aug", PHON.ONSET voc ] ]. august_abb_n3 := n_-_c-month_le & [ STEM < "Aug." >, SYNSEM [ LKEYS.KEYREL.CARG "Aug", PHON.ONSET voc ] ]. august_the_det := d_-_month_le & [ STEM < "August", "the" >, SYNSEM [ LKEYS.ALTKEYREL.CARG "aug", PHON.ONSET voc ] ]. augustine_n1 := n_-_pn_le & [ STEM < "Augustine" >, SYNSEM [ LKEYS.KEYREL.CARG "Augustine", PHON.ONSET voc ] ]. aunt_n1 := n_-_c_le & [ STEM < "aunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_aunt_n_1_rel", PHON.ONSET voc ] ]. auntie_n1 := n_-_c_le & [ STEM < "auntie" >, SYNSEM [ LKEYS.KEYREL.PRED "_auntie_n_1_rel", PHON.ONSET voc ] ]. aura_n1 := n_-_c_le & [ STEM < "aura" >, SYNSEM [ LKEYS.KEYREL.PRED "_aura_n_1_rel", PHON.ONSET voc ] ]. aurland := n_-_pn_le & [ STEM < "Aurland" >, SYNSEM [ LKEYS.KEYREL.CARG "Aurland", PHON.ONSET voc ] ]. aurlandsdal := n_-_pn_le & [ STEM < "Aurlandsdal" >, SYNSEM [ LKEYS.KEYREL.CARG "Aurlandsdal", PHON.ONSET voc ] ]. aurlandsdalen := n_-_pn_le & [ STEM < "Aurlandsdalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Aurlandsdalen", PHON.ONSET voc ] ]. aurlandsfjord := n_-_pn_le & [ STEM < "Aurlandsfjord" >, SYNSEM [ LKEYS.KEYREL.CARG "Aurlandsfjord", PHON.ONSET voc ] ]. aurora_australis_n1 := n_-_c-sg_le & [ STEM < "aurora", "australis" >, SYNSEM [ LKEYS.KEYREL.PRED "_aurora+australis_n_1_rel", PHON.ONSET voc ] ]. aurora_australis_n2 := n_-_c-pl_le & [ STEM < "aurora", "australi" >, SYNSEM [ LKEYS.KEYREL.PRED "_aurora+australis_n_1_rel", PHON.ONSET voc ] ]. aurora_borealis_n1 := n_-_c-sg_le & [ STEM < "aurora", "borealis" >, SYNSEM [ LKEYS.KEYREL.PRED "_aurora+borealis_n_1_rel", PHON.ONSET voc ] ]. aurora_borealis_n2 := n_-_c-pl_le & [ STEM < "aurora", "boreali" >, SYNSEM [ LKEYS.KEYREL.PRED "_aurora+borealis_n_1_rel", PHON.ONSET voc ] ]. auroral_a1 := aj_-_i_le & [ STEM < "auroral" >, SYNSEM [ LKEYS.KEYREL.PRED "_auroral_a_1_rel", PHON.ONSET voc ] ]. aursund_n1 := n_-_pn_le & [ STEM < "Aursund" >, SYNSEM [ LKEYS.KEYREL.CARG "Aursund", PHON.ONSET voc ] ]. aursunden_n1 := n_-_pn_le & [ STEM < "Aursunden" >, SYNSEM [ LKEYS.KEYREL.CARG "Aursunden", PHON.ONSET voc ] ]. auscultation_n1 := n_-_m_le & [ STEM < "auscultation" >, SYNSEM [ LKEYS.KEYREL.PRED "_auscultation_n_1_rel", PHON.ONSET voc ] ]. auspices_n1 := n_-_c-pl-nocnh_le & [ STEM < "auspice" >, SYNSEM [ LKEYS.KEYREL.PRED "_auspices_n_1_rel", PHON.ONSET voc ] ]. auspiciousness_n1 := n_-_m_le & [ STEM < "auspiciousness" >, SYNSEM [ LKEYS.KEYREL.PRED "_auspiciousness_n_1_rel", PHON.ONSET voc ] ]. austere_a1 := aj_-_i_le & [ STEM < "austere" >, SYNSEM [ LKEYS.KEYREL.PRED "_austere_a_1_rel", PHON.ONSET voc ] ]. austin_n1 := n_-_pn-city_le & [ STEM < "Austin" >, SYNSEM [ LKEYS.KEYREL.CARG "Austin", PHON.ONSET voc ] ]. australia_n1 := n_-_pn_le & [ STEM < "Australia" >, SYNSEM [ LKEYS.KEYREL.CARG "Australia", PHON.ONSET voc ] ]. australian_a1 := aj_-_i_le & [ STEM < "Australian" >, SYNSEM [ LKEYS.KEYREL.PRED "_australian_a_1_rel", PHON.ONSET voc ] ]. australian_n2 := n_-_c-nocnh_le & [ STEM < "Australian" >, SYNSEM [ LKEYS.KEYREL.PRED "_australian_n_1_rel", PHON.ONSET voc ] ]. austre_and_vestre_hestlægerhø_n1 := n_-_pn_le & [ STEM < "Austre", "and", "Vestre", "Hestlægerhø" >, SYNSEM [ LKEYS.KEYREL.CARG "Austre+and+Vestre+Hestlægerhø", PHON.ONSET voc ] ]. austre_hestlægerhø_n1 := n_-_pn_le & [ STEM < "Austre", "Hestlægerhø" >, SYNSEM [ LKEYS.KEYREL.CARG "Austre+Hestlægerhø", PHON.ONSET voc ] ]. austre_n1 := n_-_pn_le & [ STEM < "Austre" >, SYNSEM [ LKEYS.KEYREL.CARG "Austre", PHON.ONSET voc ] ]. austria_n1 := n_-_pn_le & [ STEM < "Austria" >, SYNSEM [ LKEYS.KEYREL.CARG "Austria", PHON.ONSET voc ] ]. austrian_a1 := aj_-_i_le & [ STEM < "Austrian" >, SYNSEM [ LKEYS.KEYREL.PRED "_austrian_a_1_rel", PHON.ONSET voc ] ]. austrian_n2 := n_-_c-nocnh_le & [ STEM < "Austrian" >, SYNSEM [ LKEYS.KEYREL.PRED "_austrian_n_1_rel", PHON.ONSET voc ] ]. authentic_a1 := aj_-_i_le & [ STEM < "authentic" >, SYNSEM [ LKEYS.KEYREL.PRED "_authentic_a_1_rel", PHON.ONSET voc ] ]. authentically_adv1 := av_-_i-vp_le & [ STEM < "authentically" >, SYNSEM [ LKEYS.KEYREL.PRED "_authentic_a_1_rel", PHON.ONSET voc ] ]. authenticity_n1 := n_-_c_le & [ STEM < "authenticity" >, SYNSEM [ LKEYS.KEYREL.PRED "_authenticity_n_1_rel", PHON.ONSET voc ] ]. author_n1 := n_pp_c-of_le & [ STEM < "author" >, SYNSEM [ LKEYS.KEYREL.PRED "_author_n_of_rel", PHON.ONSET voc ] ]. author_v1 := v_np_le & [ STEM < "author" >, SYNSEM [ LKEYS.KEYREL.PRED "_author_v_1_rel", PHON.ONSET voc ] ]. authoritarian_a1 := aj_-_i_le & [ STEM < "authoritarian" >, SYNSEM [ LKEYS.KEYREL.PRED "_authoritarian_a_1_rel", PHON.ONSET voc ] ]. authoritarian_n1 := n_-_c_le & [ STEM < "authoritarian" >, SYNSEM [ LKEYS.KEYREL.PRED "_authoritarian_n_1_rel", PHON.ONSET voc ] ]. authority_n1 := n_-_mc_le & [ STEM < "authority" >, SYNSEM [ LKEYS.KEYREL.PRED "_authority_n_1_rel", PHON.ONSET voc ] ]. authorization_n1 := n_pp_mc-of_le & [ STEM < "authorization" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorization_n_of_rel", PHON.ONSET voc ] ]. authorization_n1_br := n_pp_mc-of_le & [ DIALECT br, STEM < "authorisation" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorization_n_of_rel", PHON.ONSET voc ] ]. authorize_v1 := v_np-vp_oeq_le & [ STEM < "authorize" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorize_v_1_rel", PHON.ONSET voc ] ]. authorize_v1_br := v_np-vp_oeq_le & [ DIALECT br, STEM < "authorise" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorize_v_1_rel", PHON.ONSET voc ] ]. authorize_v2 := v_np_le & [ STEM < "authorize" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorize_v_1_rel", PHON.ONSET voc ] ]. authorize_v2_br := v_np_le & [ DIALECT br, STEM < "authorise" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorize_v_1_rel", PHON.ONSET voc ] ]. authorship_n1 := n_-_mc_le & [ STEM < "authorship" >, SYNSEM [ LKEYS.KEYREL.PRED "_authorship_n_1_rel", PHON.ONSET voc ] ]. auto_immune_a1 := aj_-_i_le & [ STEM < "auto", "immune" >, SYNSEM [ LKEYS.KEYREL.PRED "_auto+immune_a_1_rel", PHON.ONSET voc ] ]. auto_immune_a2 := aj_-_i_le & [ STEM < "autoimmune" >, SYNSEM [ LKEYS.KEYREL.PRED "_auto+immune_a_1_rel", PHON.ONSET voc ] ]. auto_n1 := n_-_c_le & [ STEM < "auto" >, SYNSEM [ LKEYS.KEYREL.PRED "_automobile_n_1_rel", PHON.ONSET voc ] ]. autograph_n1 := n_-_c_le & [ STEM < "autograph" >, SYNSEM [ LKEYS.KEYREL.PRED "_autograph_n_1_rel", PHON.ONSET voc ] ]. automate_v1 := v_np_le & [ STEM < "automate" >, SYNSEM [ LKEYS.KEYREL.PRED "_automate_v_1_rel", PHON.ONSET voc ] ]. automated_a1 := aj_-_i_le & [ STEM < "automated" >, SYNSEM [ LKEYS.KEYREL.PRED "_automated_a_1_rel", PHON.ONSET voc ] ]. automatic_a1 := aj_-_i_le & [ STEM < "automatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_automatic_a_1_rel", PHON.ONSET voc ] ]. automatically := av_-_i-vp_le & [ STEM < "automatically" >, SYNSEM [ LKEYS.KEYREL.PRED "_automatic_a_1_rel", PHON.ONSET voc ] ]. automation_n1 := n_pp_m_le & [ STEM < "automation" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_automation_n_of_rel" ], PHON.ONSET voc ] ]. automobile_n1 := n_-_c_le & [ STEM < "automobile" >, SYNSEM [ LKEYS.KEYREL.PRED "_automobile_n_1_rel", PHON.ONSET voc ] ]. autonomous_a1 := aj_-_i_le & [ STEM < "autonomous" >, SYNSEM [ LKEYS.KEYREL.PRED "_autonomous_a_1_rel", PHON.ONSET voc ] ]. autonomy_n1 := n_-_m_le & [ STEM < "autonomy" >, SYNSEM [ LKEYS.KEYREL.PRED "_autonomy_n_1_rel", PHON.ONSET voc ] ]. autosampler_n1 := n_-_c_le & [ STEM < "autosampler" >, SYNSEM [ LKEYS.KEYREL.PRED "_autosampler_n_1_rel", PHON.ONSET voc ] ]. autumn_n1 := n_-_m-ssn_le & [ STEM < "autumn" >, SYNSEM [ LKEYS.KEYREL.CARG "fall", PHON.ONSET voc ] ]. autumn_n2 := n_-_m-ssn-spr_le & [ STEM < "autumn" >, SYNSEM [ LKEYS.KEYREL.CARG "fall", PHON.ONSET voc ] ]. autumn_n3 := n_np_m-ssn_le & [ STEM < "autumn" >, SYNSEM [ LKEYS.KEYREL.CARG "fall", PHON.ONSET voc ] ]. auxiliary_a1 := aj_-_i_le & [ STEM < "auxiliary" >, SYNSEM [ LKEYS.KEYREL.PRED "_auxiliary_a_1_rel", PHON.ONSET voc ] ]. auxiliary_n1 := n_-_c_le & [ STEM < "auxiliary" >, SYNSEM [ LKEYS.KEYREL.PRED "_auxiliary_n_1_rel", PHON.ONSET voc ] ]. av_a1 := aj_-_i_le & [ STEM < "av" >, SYNSEM [ LKEYS.KEYREL.PRED "_av_a_1_rel", PHON.ONSET voc ] ]. av_n1 := n_-_m_le & [ STEM < "AV" >, SYNSEM [ LKEYS.KEYREL.PRED "_av_n_1_rel", PHON.ONSET voc ] ]. ava_n1 := n_-_pn_le & [ STEM < "Ava" >, SYNSEM [ LKEYS.KEYREL.CARG "Ava", PHON.ONSET voc ] ]. avail_n1 := n_-_m_le & [ STEM < "avail" >, SYNSEM [ LKEYS.KEYREL.PRED "_avail_n_1_rel", PHON.ONSET voc ] ]. avail_v1 := v_np-pp_e_le & [ STEM < "avail" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_avail_v_of_rel" ], PHON.ONSET voc ] ]. avail_v2 := v_np_le & [ STEM < "avail" >, SYNSEM [ LKEYS.KEYREL.PRED "_avail_v_of_rel", PHON.ONSET voc ] ]. availability_n1 := n_-_m_le & [ STEM < "availability" >, SYNSEM [ LKEYS.KEYREL.PRED "_availability_n_1_rel", PHON.ONSET voc ] ]. available_a1 := aj_-_i-att_le & [ STEM < "available" >, SYNSEM [ LKEYS.KEYREL.PRED "_available_a_1_rel", PHON.ONSET voc ] ]. available_a2 := aj_-_i-prd_le & [ STEM < "available" >, SYNSEM [ LKEYS.KEYREL.PRED "_available_a_1_rel", PHON.ONSET voc ] ]. available_a3 := aj_pp-vp_i-tgh_le & [ STEM < "available" >, SYNSEM [ LKEYS.KEYREL.PRED "_available_a_for_rel", PHON.ONSET voc ] ]. avalanche_n1 := n_-_mc_le & [ STEM < "avalanche" >, SYNSEM [ LKEYS.KEYREL.PRED "_avalanche_n_1_rel", PHON.ONSET voc ] ]. avalanche_safe_a1 := aj_-_i_le & [ STEM < "avalanche-", "safe" >, SYNSEM [ LKEYS.KEYREL.PRED "_avalanche-safe_a_1_rel", PHON.ONSET voc ] ]. avantgarde_adj := aj_-_i_le & [ STEM < "avantgarde" >, SYNSEM [ LKEYS.KEYREL.PRED "_avantgarde_a_1_rel", PHON.ONSET voc ] ]. avbr_nd := n_-_pn_le & [ STEM < "AVBR" >, SYNSEM [ LKEYS.KEYREL.CARG "AVBR", PHON.ONSET voc ] ]. avdalen_n1 := n_-_pn_le & [ STEM < "Avdalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Avdalen", PHON.ONSET voc ] ]. avec_nbar := p_nb_i_le & [ STEM < "avec" >, SYNSEM [ LKEYS [ --COMPKEY non_temp_nom_rel, KEYREL.PRED _with_p_rel ], PHON.ONSET voc ] ]. avenge_v1 := v_np_le & [ STEM < "avenge" >, SYNSEM [ LKEYS.KEYREL.PRED "_avenge_v_1_rel", PHON.ONSET voc ] ]. avenue_des_champs_elysees_n1 := n_-_pn_le & [ STEM < "Avenue", "des", "Champs", "Elysees" >, SYNSEM [ LKEYS.KEYREL.CARG "Avenue_des_Champs_Elysees", PHON.ONSET voc ] ]. avenue_n1 := n_-_c_le & [ STEM < "avenue" >, SYNSEM [ LKEYS.KEYREL.PRED "_avenue_n_1_rel", PHON.ONSET voc ] ]. avenue_n2 := n_-_c_le & [ STEM < "ave" >, SYNSEM [ LKEYS.KEYREL.PRED "_avenue_n_1_rel", PHON.ONSET voc ] ]. avenue_post_ttl := n_-_tt-post_le & [ STEM < "Avenue" >, SYNSEM [ LKEYS.KEYREL.PRED "_avenue_n_1_rel", PHON.ONSET voc ] ]. average_a1 := aj_-_i_le & [ STEM < "average" >, SYNSEM [ LKEYS.KEYREL.PRED "_average_a_1_rel", PHON.ONSET voc ] ]. average_n1 := n_pp_c-nocnh-of_le & [ STEM < "average" >, SYNSEM [ LKEYS.KEYREL.PRED "_average_n_of_rel", PHON.ONSET voc ] ]. average_out_v1 := v_p_le & [ STEM < "average" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_average_v_out_rel" ], PHON.ONSET voc ] ]. average_out_v2 := v_p-np_le & [ STEM < "average" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_average_v_out_rel" ], PHON.ONSET voc ] ]. average_v1 := v_np*_le & [ STEM < "average" >, SYNSEM [ LKEYS.KEYREL.PRED "_average_v_1_rel", PHON.ONSET voc ] ]. averse_a1 := aj_pp_i_le & [ STEM < "averse" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_averse_a_to_rel" ], PHON.ONSET voc ] ]. aversion_n1 := n_pp_c_le & [ STEM < "aversion" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_aversion_n_to_rel" ], PHON.ONSET voc ] ]. avert_v1 := v_np-pp_e_le & [ STEM < "avert" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_avert_v_from_rel" ], PHON.ONSET voc ] ]. avert_v2 := v_np_le & [ STEM < "avert" >, SYNSEM [ LKEYS.KEYREL.PRED "_avert_v_from_rel", PHON.ONSET voc ] ]. avery_n1 := n_-_pn_le & [ STEM < "Avery" >, SYNSEM [ LKEYS.KEYREL.CARG "Avery", PHON.ONSET voc ] ]. aviary_n1 := n_-_c_le & [ STEM < "aviary" >, SYNSEM [ LKEYS.KEYREL.PRED "_aviary_n_1_rel", PHON.ONSET voc ] ]. aviation_n1 := n_-_m_le & [ STEM < "aviation" >, SYNSEM [ LKEYS.KEYREL.PRED "_aviation_n_1_rel", PHON.ONSET voc ] ]. avid_a1 := aj_-_i_le & [ STEM < "avid" >, SYNSEM [ LKEYS.KEYREL.PRED "_avid_a_1_rel", PHON.ONSET voc ] ]. avoid_prp_v1 := v_vp_seq-prp_le & [ STEM < "avoid" >, SYNSEM [ LKEYS.KEYREL.PRED "_avoid_v_1_rel", PHON.ONSET voc ] ]. avoid_v1 := v_np_le & [ STEM < "avoid" >, SYNSEM [ LKEYS.KEYREL.PRED "_avoid_v_1_rel", PHON.ONSET voc ] ]. avoidance_n1 := n_-_mc_le & [ STEM < "avoidance" >, SYNSEM [ LKEYS.KEYREL.PRED "_avoidance_n_1_rel", PHON.ONSET voc ] ]. await_v1 := v_np*_le & [ STEM < "await" >, SYNSEM [ LKEYS.KEYREL.PRED "_await_v_1_rel", PHON.ONSET voc ] ]. awake_a1 := aj_-_i-prd_le & [ STEM < "awake" >, SYNSEM [ LKEYS.KEYREL.PRED "_awake_a_1_rel", PHON.ONSET voc ] ]. awake_v1 := v_np_noger_le & [ STEM < "awake" >, SYNSEM [ LKEYS.KEYREL.PRED "_awake_v_cause_rel", PHON.ONSET voc ] ]. awake_v2 := v_-_unacc_le & [ STEM < "awake" >, SYNSEM [ LKEYS.KEYREL.PRED "_awake_v_1_rel", PHON.ONSET voc ] ]. awaken_v1 := v_np_noger_le & [ STEM < "awaken" >, SYNSEM [ LKEYS.KEYREL.PRED "_awaken_v_cause_rel", PHON.ONSET voc ] ]. awaken_v2 := v_-_unacc_le & [ STEM < "awaken" >, SYNSEM [ LKEYS.KEYREL.PRED "_awaken_v_1_rel", PHON.ONSET voc ] ]. award_n1 := n_pp_c_le & [ STEM < "award" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_award_n_for_rel" ], PHON.ONSET voc ] ]. award_v1 := v_np-np_le & [ STEM < "award" >, SYNSEM [ LKEYS.KEYREL.PRED "_award_v_1_rel", PHON.ONSET voc ] ]. award_v2 := v_np_le & [ STEM < "award" >, SYNSEM [ LKEYS.KEYREL.PRED "_award_v_1_rel", PHON.ONSET voc ] ]. aware_a1 := aj_pp_i_le & [ STEM < "aware" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_aware_a_of_rel" ], PHON.ONSET voc ] ]. aware_a2 := aj_cp_i-fin_le & [ STEM < "aware" >, SYNSEM [ LKEYS.KEYREL.PRED "_aware_a_of_rel", PHON.ONSET voc ] ]. awareness_n1 := n_-_m_le & [ STEM < "awareness" >, SYNSEM [ LKEYS.KEYREL.PRED "_awareness_n_1_rel", PHON.ONSET voc ] ]. away_adv1 := pp_-_i_le & [ STEM < "away" >, SYNSEM [ LKEYS.KEYREL.PRED _away_p_rel, PHON.ONSET voc ] ]. away_prtcl := pp_-_ptcl_le & [ STEM < "away" >, SYNSEM [ LKEYS.KEYREL.PRED _away_p_sel_rel, PHON.ONSET voc ] ]. awe_n1 := n_-_mc_le & [ STEM < "awe" >, SYNSEM [ LKEYS.KEYREL.PRED "_awe_n_1_rel", PHON.ONSET voc ] ]. awe_v1 := v_np_le & [ STEM < "awe" >, SYNSEM [ LKEYS.KEYREL.PRED "_awe_v_1_rel", PHON.ONSET voc ] ]. awesome_a1 := aj_-_i_le & [ STEM < "awesome" >, SYNSEM [ LKEYS.KEYREL.PRED "_awesome_a_1_rel", PHON.ONSET voc ] ]. awestruck_a1 := aj_pp_i_le & [ STEM < "awestruck" >, SYNSEM [ LKEYS [ --COMPKEY _by_p_sel_rel, KEYREL.PRED "_awestruck_a_by_rel" ], PHON.ONSET voc ] ]. awful_isect := aj_-_i_le & [ STEM < "awful" >, SYNSEM [ LKEYS.KEYREL.PRED "_awful_a_1_rel", PHON.ONSET voc ] ]. awfully_adv := av_-_i-vp-po_le & [ STEM < "awfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_awful_a_1_rel", PHON.ONSET voc ] ]. awfully_deg := av_-_dg-v_le & [ STEM < "awfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_awfully_x_rel", PHON.ONSET voc ] ]. awfulness_n1 := n_-_c_le & [ STEM < "awfulness" >, SYNSEM [ LKEYS.KEYREL.PRED "_awfulness_n_1_rel", PHON.ONSET voc ] ]. awhile_nom := n_-_ad-time-acc_le & [ STEM < "awhile" >, SYNSEM [ LKEYS.KEYREL.PRED _awhile_n_1_rel, PHON.ONSET voc ] ]. awkward_a1 := aj_-_i_le & [ STEM < "awkward" >, SYNSEM [ LKEYS.KEYREL.PRED "_awkward_a_1_rel", PHON.ONSET voc ] ]. awkwardly := av_-_i-vp_le & [ STEM < "awkwardly" >, SYNSEM [ LKEYS.KEYREL.PRED "_awkward_a_1_rel", PHON.ONSET voc ] ]. awl_n1 := n_-_c_le & [ STEM < "awl" >, SYNSEM [ LKEYS.KEYREL.PRED "_awl_n_1_rel", PHON.ONSET voc ] ]. awning_n1 := n_-_c_le & [ STEM < "awning" >, SYNSEM [ LKEYS.KEYREL.PRED "_awning_n_1_rel", PHON.ONSET voc ] ]. awry_isect := aj_-_i_le & [ STEM < "awry" >, SYNSEM [ LKEYS.KEYREL.PRED "_awry_a_1_rel", PHON.ONSET voc ] ]. ax_n1 := n_-_c-sg_le & [ STEM < "ax" >, SYNSEM [ LKEYS.KEYREL.PRED "_ax_n_1_rel", PHON.ONSET voc ] ]. axe_n1 := n_-_c_le & [ STEM < "axe" >, SYNSEM [ LKEYS.KEYREL.PRED "_ax_n_1_rel", PHON.ONSET voc ] ]. axe_v1 := v_np_le & [ STEM < "axe" >, SYNSEM [ LKEYS.KEYREL.PRED "_axe_v_1_rel", PHON.ONSET voc ] ]. axel_n1 := n_-_pn_le & [ STEM < "Axel" >, SYNSEM [ LKEYS.KEYREL.CARG "Axel", PHON.ONSET voc ] ]. axial_a1 := aj_-_i_le & [ STEM < "axial" >, SYNSEM [ LKEYS.KEYREL.PRED "_axial_a_1_rel", PHON.ONSET voc ] ]. axillary_a1 := aj_-_i_le & [ STEM < "axillary" >, SYNSEM [ LKEYS.KEYREL.PRED "_axillary_a_1_rel", PHON.ONSET voc ] ]. axis_n1 := n_-_c_le & [ STEM < "axis" >, SYNSEM [ LKEYS.KEYREL.PRED "_axis_n_1_rel", PHON.ONSET voc ] ]. axle_n1 := n_-_c_le & [ STEM < "axle" >, SYNSEM [ LKEYS.KEYREL.PRED "_axle_n_1_rel", PHON.ONSET voc ] ]. axletree_n1 := n_-_c_le & [ STEM < "axletree" >, SYNSEM [ LKEYS.KEYREL.PRED "_axletree_n_1_rel", PHON.ONSET voc ] ]. ay_excl_post := av_-_s-cp-nsp-po_le & [ STEM < "ay" >, SYNSEM [ LKEYS.KEYREL.PRED "_ay_a_1_rel", PHON.ONSET voc ] ]. ay_excl_pre := av_-_s-cp-mc-pr_le & [ STEM < "ay" >, SYNSEM [ LKEYS.KEYREL.PRED "_ay_a_1_rel", PHON.ONSET voc ] ]. aye_disc_root := av_-_s-cp-mc-pr_le & [ STEM < "aye" >, SYNSEM [ LKEYS.KEYREL.PRED "_aye_a_1_rel", PHON.ONSET voc ] ]. aye_n1 := n_-_c_le & [ STEM < "aye" >, SYNSEM [ LKEYS.KEYREL.PRED "_aye_n_1_rel", PHON.ONSET voc ] ]. ayers := n_-_pn_le & [ STEM < "Ayers" >, SYNSEM [ LKEYS.KEYREL.CARG "Ayers", PHON.ONSET voc ] ]. ayers_rock_n1 := n_-_pn_le & [ STEM < "Ayer", "'s", "Rock" >, SYNSEM [ LKEYS.KEYREL.CARG "Ayers_Rock", PHON.ONSET voc ] ]. azalea_n1 := n_-_c_le & [ STEM < "azalea" >, SYNSEM [ LKEYS.KEYREL.PRED "_azalea_n_1_rel", PHON.ONSET voc ] ]. azalea_n2 := n_-_m-kind_le & [ STEM < "azalea" >, SYNSEM [ LKEYS.KEYREL.PRED "_azalea_n_1_rel", PHON.ONSET voc ] ]. azure_n1 := n_-_mc-col_le & [ STEM < "azure" >, SYNSEM [ LKEYS.KEYREL.PRED "_azure_n_1_rel", PHON.ONSET voc ] ]. b_lower_np1 := n_-_pn_le & [ STEM < "b" >, SYNSEM [ LKEYS.KEYREL.CARG "B", PHON.ONSET con ] ]. b_np1 := n_-_pn_le & [ STEM < "_B" >, SYNSEM [ LKEYS.KEYREL.CARG "B", PHON.ONSET con ] ]. b_period_np1 := n_-_pn_le & [ STEM < "B." >, SYNSEM [ LKEYS.KEYREL.CARG "B", PHON.ONSET con ] ]. b_period_np2 := n_-_pn_le & [ STEM < "_B." >, SYNSEM [ LKEYS.KEYREL.CARG "B", PHON.ONSET con ] ]. ba := n_-_pn_le & [ STEM < "BA" >, SYNSEM [ LKEYS.KEYREL.CARG "BA", PHON.ONSET con ] ]. baba_n1 := n_-_pn_le & [ STEM < "Baba" >, SYNSEM [ LKEYS.KEYREL.CARG "Baba", PHON.ONSET con ] ]. babbiting_n1 := n_-_m_le & [ STEM < "babbiting" >, SYNSEM [ LKEYS.KEYREL.PRED "_babbiting_n_1_rel", PHON.ONSET con ] ]. babble_n1 := n_-_m_le & [ STEM < "babble" >, SYNSEM [ LKEYS.KEYREL.PRED "_babble_n_1_rel", PHON.ONSET con ] ]. babble_on_v1 := v_p-pp_le & [ STEM < "babble" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_babble_v_on_rel" ], PHON.ONSET con ] ]. babble_on_v2 := v_p_le & [ STEM < "babble" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_babble_v_on_rel" ], PHON.ONSET con ] ]. babble_v1 := v_pp*-pp*_le & [ STEM < "babble" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_babble_v_about_rel" ], PHON.ONSET con ] ]. babe_n1 := n_-_pn_le & [ STEM < "Babe" >, SYNSEM [ LKEYS.KEYREL.CARG "Babe", PHON.ONSET con ] ]. babe_root_post := av_-_dc-po_le & [ STEM < "babe" >, SYNSEM [ LKEYS.KEYREL.CARG "babe", PHON.ONSET con ] ]. babe_root_pre := av_-_dc-pr_le & [ STEM < "babe" >, SYNSEM [ LKEYS.KEYREL.CARG "babe", PHON.ONSET con ] ]. babur_n1 := n_-_pn_le & [ STEM < "Babur" >, SYNSEM [ LKEYS.KEYREL.CARG "Babur", PHON.ONSET con ] ]. baby_n1 := n_-_c_le & [ STEM < "baby" >, SYNSEM [ LKEYS.KEYREL.PRED "_baby_n_1_rel", PHON.ONSET con ] ]. baby_root_post := av_-_dc-po_le & [ STEM < "baby" >, SYNSEM [ LKEYS.KEYREL.CARG "baby", PHON.ONSET con ] ]. baby_root_pre := av_-_dc-pr_le & [ STEM < "baby" >, SYNSEM [ LKEYS.KEYREL.CARG "baby", PHON.ONSET con ] ]. babylonian_a1 := aj_-_i_le & [ STEM < "Babylonian" >, SYNSEM [ LKEYS.KEYREL.PRED "_babylonian_a_1_rel", PHON.ONSET con ] ]. babylonian_n1 := n_-_c-nocnh_le & [ STEM < "Babylonian" >, SYNSEM [ LKEYS.KEYREL.PRED "_babylonian_n_1_rel", PHON.ONSET con ] ]. babylonian_n2 := n_-_pn_le & [ STEM < "Babylonian" >, SYNSEM [ LKEYS.KEYREL.CARG "Babylonian", PHON.ONSET con ] ]. babysit_v1 := v_np_le & [ STEM < "babysit" >, SYNSEM [ LKEYS.KEYREL.PRED "_babysit_v_1_rel", PHON.ONSET con ] ]. bachelor_n1 := n_-_c_le & [ STEM < "bachelor" >, SYNSEM [ LKEYS.KEYREL.PRED "_bachelor_n_1_rel", PHON.ONSET con ] ]. back_and_forth_adv := av_-_i-vp_le & [ STEM < "back", "and", "forth" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+and+forth_a_1_rel", PHON.ONSET con ] ]. back_away_v1 := v_p_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_back_v_away_rel" ], PHON.ONSET con ] ]. back_deg := av_-_dg-v_le & [ STEM < "back" >, SYNSEM [ LKEYS.KEYREL.PRED "_back_x_deg_rel", PHON.ONSET con ] ]. back_down_v1 := v_p_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_back_v_down_rel" ], PHON.ONSET con ] ]. back_i_n1 := n_-_c-brno_le & [ STEM < "back" >, SYNSEM [ LKEYS.KEYREL.PRED "_back_n_1_rel", PHON.ONSET con ] ]. back_n1 := n_-_c_le & [ STEM < "back" >, SYNSEM [ LKEYS.KEYREL.PRED "_back_n_1_rel", PHON.ONSET con ] ]. back_nom := n_-_ad-loc_le & [ STEM < "back" >, SYNSEM [ LKEYS [ ALT2KEYREL.PRED _back_p_rel, KEYREL.PRED place_n_rel ], PHON.ONSET con ] ]. back_off_v1 := v_p_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_back_v_off_rel" ], PHON.ONSET con ] ]. back_order_n1 := n_-_mc_le & [ STEM < "back", "order" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+order_n_1_rel", PHON.ONSET con ] ]. back_order_n2 := n_-_mc_le & [ STEM < "backorder" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+order_n_1_rel", PHON.ONSET con ] ]. back_order_v1 := v_np*_le & [ STEM < "back", "order" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+order_v_1_rel", PHON.ONSET con ] ]. back_order_v2 := v_np*_le & [ STEM < "back-", "order" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+order_v_1_rel", PHON.ONSET con ] ]. back_out_of_v1 := v_p-pp_e_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_back_v_out-of_rel" ], PHON.ONSET con ] ]. back_out_v1 := v_p_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_back_v_out_rel" ], PHON.ONSET con ] ]. back_particle := pp_-_ptcl_le & [ STEM < "back" >, SYNSEM [ LKEYS.KEYREL.PRED _back_p_sel_rel, PHON.ONSET con ] ]. back_up_v1 := v_p_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_back_v_up_rel" ], PHON.ONSET con ] ]. back_up_v2 := v_p-np_le & [ STEM < "back" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_back_v_up_rel" ], PHON.ONSET con ] ]. back_v1 := v_np_le & [ STEM < "back" >, SYNSEM [ LKEYS.KEYREL.PRED "_back_v_1_rel", PHON.ONSET con ] ]. backchannel_n1 := n_-_c_le & [ STEM < "backchannel" >, SYNSEM [ LKEYS.KEYREL.PRED "_backchannel_n_1_rel", PHON.ONSET con ] ]. backcountry_n1 := n_-_c_le & [ STEM < "backcountry" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+country_n_1_rel", PHON.ONSET con ] ]. backcountry_n2 := n_-_c_le & [ STEM < "back", "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+country_n_1_rel", PHON.ONSET con ] ]. backdrop_n1 := n_-_c_le & [ STEM < "backdrop" >, SYNSEM [ LKEYS.KEYREL.PRED "_backdrop_n_1_rel", PHON.ONSET con ] ]. backer_n1 := n_-_c_le & [ STEM < "backer" >, SYNSEM [ LKEYS.KEYREL.PRED "_backer_n_1_rel", PHON.ONSET con ] ]. backgammon_n1 := n_-_m_le & [ STEM < "backgammon" >, SYNSEM [ LKEYS.KEYREL.PRED "_backgammon_n_1_rel", PHON.ONSET con ] ]. background_n1 := n_-_mc_le & [ STEM < "background" >, SYNSEM [ LKEYS.KEYREL.PRED "_background_n_1_rel", PHON.ONSET con ] ]. backorder_v1 := v_np*_le & [ STEM < "backorder" >, SYNSEM [ LKEYS.KEYREL.PRED "_back+order_v_1_rel", PHON.ONSET con ] ]. backpack_n1 := n_-_c_le & [ STEM < "backpack" >, SYNSEM [ LKEYS.KEYREL.PRED "_backpack_n_1_rel", PHON.ONSET con ] ]. backpack_v1 := v_pp*_dir_le & [ STEM < "backpack" >, SYNSEM [ LKEYS.KEYREL.PRED "_backpack_v_1_rel", PHON.ONSET con ] ]. backpacker_n1 := n_-_c_le & [ STEM < "backpacker" >, SYNSEM [ LKEYS.KEYREL.PRED "_backpacker_n_1_rel", PHON.ONSET con ] ]. backseat_a1 := aj_-_i-att_le & [ STEM < "backseat" >, SYNSEM [ LKEYS.KEYREL.PRED "_backseat_a_1_rel", PHON.ONSET con ] ]. backside_n1 := n_-_c_le & [ STEM < "backside" >, SYNSEM [ LKEYS.KEYREL.PRED "_backside_n_1_rel", PHON.ONSET con ] ]. backtrace_n1 := n_-_mc_le & [ STEM < "backtrace" >, SYNSEM [ LKEYS.KEYREL.PRED "_backtrace_n_1_rel", PHON.ONSET con ] ]. backtrack_v1 := v_-_le & [ STEM < "backtrack" >, SYNSEM [ LKEYS.KEYREL.PRED "_backtrack_v_1_rel", PHON.ONSET con ] ]. backup_n1 := n_-_mc_le & [ STEM < "backup" >, SYNSEM [ LKEYS.KEYREL.PRED "_backup_n_1_rel", PHON.ONSET con ] ]. backup_n2 := n_-_mc_le & [ STEM < "back", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_backup_n_1_rel", PHON.ONSET con ] ]. backup_n3 := n_-_mc_le & [ STEM < "back-", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_backup_n_1_rel", PHON.ONSET con ] ]. backward_a1 := aj_-_i-att_le & [ STEM < "backward" >, SYNSEM [ LKEYS.KEYREL.PRED "_backward_a_1_rel", PHON.ONSET con ] ]. backward_adv1 := pp_-_i_le & [ STEM < "backward" >, SYNSEM [ LKEYS.KEYREL.PRED _backward_p_rel, PHON.ONSET con ] ]. backwards_a1 := aj_-_i-att_le & [ STEM < "backwards" >, SYNSEM [ LKEYS.KEYREL.PRED "_backwards_a_1_rel", PHON.ONSET con ] ]. backwards_adv1 := pp_-_i_le & [ STEM < "backwards" >, SYNSEM [ LKEYS.KEYREL.PRED _backwards_p_rel, PHON.ONSET con ] ]. bacon_n1 := n_-_pn_le & [ STEM < "Bacon" >, SYNSEM [ LKEYS.KEYREL.CARG "Bacon", PHON.ONSET con ] ]. bacon_n2 := n_-_m_le & [ STEM < "bacon" >, SYNSEM [ LKEYS.KEYREL.PRED "_bacon_n_1_rel", PHON.ONSET con ] ]. bacteria_n1 := n_-_mc_le & [ STEM < "bacteria" >, SYNSEM [ LKEYS.KEYREL.PRED "_bacteria_n_1_rel", PHON.ONSET con ] ]. bacterial_a1 := aj_-_i_le & [ STEM < "bacterial" >, SYNSEM [ LKEYS.KEYREL.PRED "_bacterial_a_1_rel", PHON.ONSET con ] ]. bad_a1 := aj_-_i_le & [ STEM < "bad" >, SYNSEM [ LKEYS.KEYREL.PRED "_bad_a_1_rel", PHON.ONSET con ] ]. bad_adv1 := av_-_i-vp-po_le & [ STEM < "bad" >, SYNSEM [ LKEYS.KEYREL.PRED "_bad_a_1_rel", PHON.ONSET con ] ]. badder := aj_pp_i-cmp_le & [ STEM < "badder" >, SYNSEM [ LKEYS.KEYREL.PRED "_bad_a_1_rel", PHON.ONSET con ] ]. baddest_a1 := aj_-_i-sup_le & [ STEM < "baddest" >, SYNSEM [ LKEYS.KEYREL.PRED "_bad_a_1_rel", PHON.ONSET con ] ]. baden_n1 := n_-_pn-city_le & [ STEM < "Baden" >, SYNSEM [ LKEYS.KEYREL.CARG "Baden", PHON.ONSET con ] ]. badge_n1 := n_-_c_le & [ STEM < "badge" >, SYNSEM [ LKEYS.KEYREL.PRED "_badge_n_1_rel", PHON.ONSET con ] ]. badger_n1 := n_-_c_le & [ STEM < "badger" >, SYNSEM [ LKEYS.KEYREL.PRED "_badger_n_1_rel", PHON.ONSET con ] ]. badly_adv1 := av_-_i-vp_le & [ STEM < "badly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bad_a_1_rel", PHON.ONSET con ] ]. badminton_n1 := n_-_m_le & [ STEM < "badminton" >, SYNSEM [ LKEYS.KEYREL.PRED "_badminton_n_1_rel", PHON.ONSET con ] ]. baffle_n1 := n_-_c_le & [ STEM < "baffle" >, SYNSEM [ LKEYS.KEYREL.PRED "_baffle_n_1_rel", PHON.ONSET con ] ]. baffle_v1 := v_np_le & [ STEM < "baffle" >, SYNSEM [ LKEYS.KEYREL.PRED "_baffle_v_1_rel", PHON.ONSET con ] ]. baffle_v2 := v_np-cp_it-s_le & [ STEM < "baffle" >, SYNSEM [ LKEYS.KEYREL.PRED "_baffle_v_1_rel", PHON.ONSET con ] ]. bag_n1 := n_pp_c-of_le & [ STEM < "bag" >, SYNSEM [ LKEYS.KEYREL.PRED "_bag_n_of_rel", PHON.ONSET con ] ]. bag_v1 := v_np_le & [ STEM < "bag" >, SYNSEM [ LKEYS.KEYREL.PRED "_bag_v_1_rel", PHON.ONSET con ] ]. bagaskardshogdin := n_-_pn_le & [ STEM < "Bagaskardshogdin" >, SYNSEM [ LKEYS.KEYREL.CARG "Bagaskardshogdin", PHON.ONSET con ] ]. bagel_n1 := n_-_c_le & [ STEM < "bagel" >, SYNSEM [ LKEYS.KEYREL.PRED "_bagel_n_1_rel", PHON.ONSET con ] ]. baggage_n1 := n_-_mc_le & [ STEM < "baggage" >, SYNSEM [ LKEYS.KEYREL.PRED "_baggage_n_1_rel", PHON.ONSET con ] ]. bagger_n1 := n_-_c_le & [ STEM < "bagger" >, SYNSEM [ LKEYS.KEYREL.PRED "_bagger_n_1_rel", PHON.ONSET con ] ]. bahamas_n1 := n_-_pn_le & [ STEM < "Bahamas" >, SYNSEM [ LKEYS.KEYREL.CARG "Bahamas", PHON.ONSET con ] ]. bahncard_n1 := n_-_c_le & [ STEM < "bahn", "card" >, SYNSEM [ LKEYS.KEYREL.PRED "_bahn+card_n_1_rel", PHON.ONSET con ] ]. bahncard_n2 := n_-_c_le & [ STEM < "bahn-", "card" >, SYNSEM [ LKEYS.KEYREL.PRED "_bahn+card_n_1_rel", PHON.ONSET con ] ]. baht_n1 := n_-_c_le & [ STEM < "baht" >, SYNSEM [ LKEYS.KEYREL.PRED "_baht_n_1_rel", PHON.ONSET con ] ]. baht_n2 := n_-_c-pl-nocnh_le & [ STEM < "baht" >, SYNSEM [ LKEYS.KEYREL.PRED "_baht_n_1_rel", PHON.ONSET con ] ]. bai_chongxi_n1 := n_-_pn_le & [ STEM < "Bai", "Chongxi" >, SYNSEM [ LKEYS.KEYREL.CARG "Bai_Chongxi", PHON.ONSET con ] ]. bai_n1 := n_-_pn_le & [ STEM < "Bai" >, SYNSEM [ LKEYS.KEYREL.CARG "Bai", PHON.ONSET con ] ]. bail_n1 := n_-_m_le & [ STEM < "bail" >, SYNSEM [ LKEYS.KEYREL.PRED "_bail_n_1_rel", PHON.ONSET con ] ]. bail_out_of_v1 := v_np-pp_e_le & [ STEM < "bail" >, SYNSEM [ LKEYS [ --OCOMPKEY _out+of_p_sel_rel, KEYREL.PRED "_bail_v_out+of_rel" ], PHON.ONSET con ] ]. bail_out_v1 := v_p-np_le & [ STEM < "bail" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bail_v_out_rel" ], PHON.ONSET con ] ]. bail_v1 := v_-_le & [ STEM < "bail" >, SYNSEM [ LKEYS.KEYREL.PRED "_bail_v_1_rel", PHON.ONSET con ] ]. bailey_n1 := n_-_pn_le & [ STEM < "Bailey" >, SYNSEM [ LKEYS.KEYREL.CARG "Bailey", PHON.ONSET con ] ]. bait_n1 := n_-_m_le & [ STEM < "bait" >, SYNSEM [ LKEYS.KEYREL.PRED "_bait_n_1_rel", PHON.ONSET con ] ]. bait_v1 := v_np_le & [ STEM < "bait" >, SYNSEM [ LKEYS.KEYREL.PRED "_bait_v_1_rel", PHON.ONSET con ] ]. baiter_n1 := n_-_c_le & [ STEM < "baiter" >, SYNSEM [ LKEYS.KEYREL.PRED "_baiter_n_1_rel", PHON.ONSET con ] ]. bake_n1 := n_-_pn_le & [ STEM < "Bake" >, SYNSEM [ LKEYS.KEYREL.CARG "Bake", PHON.ONSET con ] ]. bake_v1 := v_-_unacc_le & [ STEM < "bake" >, SYNSEM [ LKEYS.KEYREL.PRED "_bake_v_1_rel", PHON.ONSET con ] ]. bake_v2 := v_np_noger_le & [ STEM < "bake" >, SYNSEM [ LKEYS.KEYREL.PRED "_bake_v_cause_rel", PHON.ONSET con ] ]. bake_v3 := v_np-np_only_le & [ STEM < "bake" >, SYNSEM [ LKEYS.KEYREL.PRED "_bake_v_cause_rel", PHON.ONSET con ] ]. baker_n1 := n_-_pn_le & [ STEM < "Baker" >, SYNSEM [ LKEYS.KEYREL.CARG "Baker", PHON.ONSET con ] ]. baker_n2 := n_-_c_le & [ STEM < "baker" >, SYNSEM [ LKEYS.KEYREL.PRED "_baker_n_1_rel", PHON.ONSET con ] ]. bakersfield_n1 := n_-_pn-city_le & [ STEM < "Bakersfield" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakersfield", PHON.ONSET con ] ]. bakery_n1 := n_-_c_le & [ STEM < "bakery" >, SYNSEM [ LKEYS.KEYREL.PRED "_bakery_n_1_rel", PHON.ONSET con ] ]. bakkaheleren := n_-_pn_le & [ STEM < "Bakkaheleren" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakkaheleren", PHON.ONSET con ] ]. bakkahelleren := n_-_pn_le & [ STEM < "Bakkahelleren" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakkahelleren", PHON.ONSET con ] ]. bakke_n1 := n_-_pn_le & [ STEM < "Bakke" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakke", PHON.ONSET con ] ]. bakkeberg_n1 := n_-_pn_le & [ STEM < "Bakkeberg" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakkeberg", PHON.ONSET con ] ]. bakkjølen_n1 := n_-_pn_le & [ STEM < "Bakkjølen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bakkjølen", PHON.ONSET con ] ]. balance_n1 := n_pp_mc-of_le & [ STEM < "balance" >, SYNSEM [ LKEYS.KEYREL.PRED "_balance_n_of_rel", PHON.ONSET con ] ]. balance_out_v1 := v_p-np_le & [ STEM < "balance" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_balance_v_out_rel" ], PHON.ONSET con ] ]. balance_v1 := v_np*_le & [ STEM < "balance" >, SYNSEM [ LKEYS.KEYREL.PRED "_balance_v_1_rel", PHON.ONSET con ] ]. balcony_n1 := n_-_c_le & [ STEM < "balcony" >, SYNSEM [ LKEYS.KEYREL.PRED "_balcony_n_1_rel", PHON.ONSET con ] ]. bald_a1 := aj_-_i_le & [ STEM < "bald" >, SYNSEM [ LKEYS.KEYREL.PRED "_bald_a_1_rel", PHON.ONSET con ] ]. baldwin_n1 := n_-_pn_le & [ STEM < "Baldwin" >, SYNSEM [ LKEYS.KEYREL.CARG "Baldwin", PHON.ONSET con ] ]. bale_n1 := n_-_c_le & [ STEM < "bale" >, SYNSEM [ LKEYS.KEYREL.PRED "_bale_n_1_rel", PHON.ONSET con ] ]. bale_v1 := v_np*_le & [ STEM < "bale" >, SYNSEM [ LKEYS.KEYREL.PRED "_bale_v_1_rel", PHON.ONSET con ] ]. balestrand := n_-_pn_le & [ STEM < "Balestrand" >, SYNSEM [ LKEYS.KEYREL.CARG "Balestrand", PHON.ONSET con ] ]. balk_n1 := n_-_c_le & [ STEM < "balk" >, SYNSEM [ LKEYS.KEYREL.PRED "_balk_n_1_rel", PHON.ONSET con ] ]. balk_v1 := v_pp_e_le & [ STEM < "balk" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_balk_v_at_rel" ], PHON.ONSET con ] ]. balk_v2 := v_-_le & [ STEM < "balk" >, SYNSEM [ LKEYS.KEYREL.PRED "_balk_v_1_rel", PHON.ONSET con ] ]. ball_n1 := n_pp_c-of_le & [ STEM < "ball" >, SYNSEM [ LKEYS.KEYREL.PRED "_ball_n_of_rel", PHON.ONSET con ] ]. ball_up_v1 := v_p-np_le & [ STEM < "ball" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_ball_v_up_rel" ], PHON.ONSET con ] ]. ball_v1 := v_np_le & [ STEM < "ball" >, SYNSEM [ LKEYS.KEYREL.PRED "_ball_v_1_rel", PHON.ONSET con ] ]. ballad_n1 := n_-_c_le & [ STEM < "ballad" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballad_n_1_rel", PHON.ONSET con ] ]. ballast_n1 := n_-_m_le & [ STEM < "ballast" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballast_n_1_rel", PHON.ONSET con ] ]. ballast_v1 := v_np_le & [ STEM < "ballast" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballast_v_1_rel", PHON.ONSET con ] ]. ballet_n1 := n_-_mc_le & [ STEM < "ballet" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballet_n_1_rel", PHON.ONSET con ] ]. balloon_n1 := n_-_c_le & [ STEM < "balloon" >, SYNSEM [ LKEYS.KEYREL.PRED "_balloon_n_1_rel", PHON.ONSET con ] ]. balloon_v1 := v_-_le & [ STEM < "balloon" >, SYNSEM [ LKEYS.KEYREL.PRED "_balloon_v_1_rel", PHON.ONSET con ] ]. balloonist_n1 := n_-_c_le & [ STEM < "balloonist" >, SYNSEM [ LKEYS.KEYREL.PRED "_balloonist_n_1_rel", PHON.ONSET con ] ]. ballot_n1 := n_-_c_le & [ STEM < "ballot" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballot_n_1_rel", PHON.ONSET con ] ]. ballot_v1 := v_-_le & [ STEM < "ballot" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballot_v_1_rel", PHON.ONSET con ] ]. ballpark_post_ttl := n_-_tt-post_le & [ STEM < "Ballpark" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballpark_n_1_rel", PHON.ONSET con ] ]. ballroom_n1 := n_-_c_le & [ STEM < "ballroom" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballroom_n_1_rel", PHON.ONSET con ] ]. ballyhoo_n1 := n_-_c_le & [ STEM < "ballyhoo" >, SYNSEM [ LKEYS.KEYREL.PRED "_ballyhoo_n_1_rel", PHON.ONSET con ] ]. balm_n1 := n_-_mc_le & [ STEM < "balm" >, SYNSEM [ LKEYS.KEYREL.PRED "_balm_n_1_rel", PHON.ONSET con ] ]. balocan_n1 := n_-_pn_le & [ STEM < "Balocan" >, SYNSEM [ LKEYS.KEYREL.CARG "Balocan", PHON.ONSET con ] ]. baltic_n1 := n_-_c-nm_le & [ STEM < "Baltic" >, SYNSEM [ LKEYS.KEYREL.CARG "Baltic", PHON.ONSET con ] ]. baltimore_n1 := n_-_pn-city_le & [ STEM < "Baltimore" >, SYNSEM [ LKEYS.KEYREL.CARG "Baltimore", PHON.ONSET con ] ]. balustrade_n1 := n_-_c_le & [ STEM < "balustrade" >, SYNSEM [ LKEYS.KEYREL.PRED "_balustrade_n_1_rel", PHON.ONSET con ] ]. bamberg_n1 := n_-_pn-city_le & [ STEM < "Bamberg" >, SYNSEM [ LKEYS.KEYREL.CARG "Bamberg", PHON.ONSET con ] ]. bambi_n1 := n_-_pn_le & [ STEM < "Bambi" >, SYNSEM [ LKEYS.KEYREL.CARG "Bambi", PHON.ONSET con ] ]. bamboo_n1 := n_-_m_le & [ STEM < "bamboo" >, SYNSEM [ LKEYS.KEYREL.PRED "_bamboo_n_1_rel", PHON.ONSET con ] ]. bamford_n1 := n_-_pn_le & [ STEM < "Bamford" >, SYNSEM [ LKEYS.KEYREL.CARG "Bamford", PHON.ONSET con ] ]. ban_n1 := n_-_c_le & [ STEM < "ban" >, SYNSEM [ LKEYS.KEYREL.PRED "_ban_n_1_rel", PHON.ONSET con ] ]. ban_v1 := v_np-pp_e_le & [ STEM < "ban" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_ban_v_from_rel" ], PHON.ONSET con ] ]. ban_v2 := v_np_le & [ STEM < "ban" >, SYNSEM [ LKEYS.KEYREL.PRED "_ban_v_from_rel", PHON.ONSET con ] ]. banana_n1 := n_-_c_le & [ STEM < "banana" >, SYNSEM [ LKEYS.KEYREL.PRED "_banana_n_1_rel", PHON.ONSET con ] ]. band_n1 := n_-_c_le & [ STEM < "band" >, SYNSEM [ LKEYS.KEYREL.PRED "_band_n_1_rel", PHON.ONSET con ] ]. band_together_v1 := v_p_le & [ STEM < "band" >, SYNSEM [ LKEYS [ --COMPKEY _together_p_sel_rel, KEYREL.PRED "_band_v_together_rel" ], PHON.ONSET con ] ]. band_together_v2 := v_p-np_le & [ STEM < "band" >, SYNSEM [ LKEYS [ --COMPKEY _together_p_sel_rel, KEYREL.PRED "_band_v_together_rel" ], PHON.ONSET con ] ]. band_v1 := v_np_le & [ STEM < "band" >, SYNSEM [ LKEYS.KEYREL.PRED "_band_v_1_rel", PHON.ONSET con ] ]. bandage_n1 := n_-_c_le & [ STEM < "bandage" >, SYNSEM [ LKEYS.KEYREL.PRED "_bandage_n_1_rel", PHON.ONSET con ] ]. bandage_up_v1 := v_p-np_le & [ STEM < "bandage" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bandage_v_up_rel" ], PHON.ONSET con ] ]. bandage_v1 := v_np*_le & [ STEM < "bandage" >, SYNSEM [ LKEYS.KEYREL.PRED "_bandage_v_1_rel", PHON.ONSET con ] ]. bandit_n1 := n_-_c_le & [ STEM < "bandit" >, SYNSEM [ LKEYS.KEYREL.PRED "_bandit_n_1_rel", PHON.ONSET con ] ]. bandstand_n1 := n_-_c_le & [ STEM < "bandstand" >, SYNSEM [ LKEYS.KEYREL.PRED "_bandstand_n_1_rel", PHON.ONSET con ] ]. banff_n1 := n_-_pn-city_le & [ STEM < "Banff" >, SYNSEM [ LKEYS.KEYREL.CARG "Banff", PHON.ONSET con ] ]. bang_n1 := n_-_c_le & [ STEM < "bang" >, SYNSEM [ LKEYS.KEYREL.PRED "_bang_n_1_rel", PHON.ONSET con ] ]. bang_pre_root := av_-_s-cp-mc-pr_le & [ STEM < "bang" >, SYNSEM [ LKEYS.KEYREL.PRED "_bang_a_1_rel", PHON.ONSET con ] ]. bang_up_v1 := v_p-np_le & [ STEM < "bang" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bang_v_up_rel" ], PHON.ONSET con ] ]. bang_v1 := v_np_le & [ STEM < "bang" >, SYNSEM [ LKEYS.KEYREL.PRED "_bang_v_1_rel", PHON.ONSET con ] ]. bangke_n1 := n_-_pn_le & [ STEM < "Bangke" >, SYNSEM [ LKEYS.KEYREL.CARG "Bangke", PHON.ONSET con ] ]. bangladesh_n1 := n_-_pn_le & [ STEM < "Bangladesh" >, SYNSEM [ LKEYS.KEYREL.CARG "Bangladesh", PHON.ONSET con ] ]. bangladeshi_a1 := aj_-_i_le & [ STEM < "Bangladeshi" >, SYNSEM [ LKEYS.KEYREL.PRED "_bangladeshi_a_1_rel", PHON.ONSET con ] ]. bangladeshi_n1 := n_-_c-nocnh_le & [ STEM < "Bangladeshi" >, SYNSEM [ LKEYS.KEYREL.PRED "_bangladeshi_n_1_rel", PHON.ONSET con ] ]. bangor_n1 := n_-_pn-city_le & [ STEM < "Bangor" >, SYNSEM [ LKEYS.KEYREL.CARG "Bangor", PHON.ONSET con ] ]. banish_v1 := v_np-pp_e_le & [ STEM < "banish" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_banish_v_from_rel" ], PHON.ONSET con ] ]. banish_v2 := v_np_le & [ STEM < "banish" >, SYNSEM [ LKEYS.KEYREL.PRED "_banish_v_from_rel", PHON.ONSET con ] ]. banishment_n1 := n_-_m_le & [ STEM < "banishment" >, SYNSEM [ LKEYS.KEYREL.PRED "_banishment_n_1_rel", PHON.ONSET con ] ]. banister_n1 := n_-_c_le & [ STEM < "banister" >, SYNSEM [ LKEYS.KEYREL.PRED "_banister_n_1_rel", PHON.ONSET con ] ]. bank_n1 := n_pp_c-of_le & [ STEM < "bank" >, SYNSEM [ LKEYS.KEYREL.PRED "_bank_n_of_rel", PHON.ONSET con ] ]. bank_on_v1 := v_pp_e_le & [ STEM < "bank" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_bank_v_on_rel" ], PHON.ONSET con ] ]. bank_post_ttl := n_-_tt-post_le & [ STEM < "Bank" >, SYNSEM [ LKEYS.KEYREL.PRED "_bank_n_of_rel", PHON.ONSET con ] ]. bank_v1 := v_np*_le & [ STEM < "bank" >, SYNSEM [ LKEYS.KEYREL.PRED "_bank_v_1_rel", PHON.ONSET con ] ]. banker_n1 := n_-_c_le & [ STEM < "banker" >, SYNSEM [ LKEYS.KEYREL.PRED "_banker_n_1_rel", PHON.ONSET con ] ]. banking_n1 := n_-_m_le & [ STEM < "banking" >, SYNSEM [ LKEYS.KEYREL.PRED "_banking_n_1_rel", PHON.ONSET con ] ]. bankrupt_a1 := aj_-_i_le & [ STEM < "bankrupt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bankrupt_a_1_rel", PHON.ONSET con ] ]. bankrupt_v1 := v_np_le & [ STEM < "bankrupt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bankrupt_v_1_rel", PHON.ONSET con ] ]. bankruptcy_n1 := n_-_mc_le & [ STEM < "bankruptcy" >, SYNSEM [ LKEYS.KEYREL.PRED "_bankruptcy_n_1_rel", PHON.ONSET con ] ]. banner_n1 := n_-_c_le & [ STEM < "banner" >, SYNSEM [ LKEYS.KEYREL.PRED "_banner_n_1_rel", PHON.ONSET con ] ]. banquet_n1 := n_-_c_le & [ STEM < "banquet" >, SYNSEM [ LKEYS.KEYREL.PRED "_banquet_n_1_rel", PHON.ONSET con ] ]. banqueting_n1 := n_-_m_le & [ STEM < "banqueting" >, SYNSEM [ LKEYS.KEYREL.PRED "_banqueting_n_1_rel", PHON.ONSET con ] ]. bansongyuan_n1 := n_-_pn_le & [ STEM < "Bansongyuan" >, SYNSEM [ LKEYS.KEYREL.CARG "Bansongyuan", PHON.ONSET con ] ]. banter_n1 := n_-_m_le & [ STEM < "banter" >, SYNSEM [ LKEYS.KEYREL.PRED "_banter_n_1_rel", PHON.ONSET con ] ]. banter_v1 := v_-_le & [ STEM < "banter" >, SYNSEM [ LKEYS.KEYREL.PRED "_banter_v_1_rel", PHON.ONSET con ] ]. baoshan_n1 := n_-_pn_le & [ STEM < "Baoshan" >, SYNSEM [ LKEYS.KEYREL.CARG "Baoshan", PHON.ONSET con ] ]. baptize_v1 := v_np*_le & [ STEM < "baptize" >, SYNSEM [ LKEYS.KEYREL.PRED "_baptize_v_1_rel", PHON.ONSET con ] ]. bar_code_n1 := n_-_c_le & [ STEM < "bar-", "code" >, SYNSEM [ LKEYS.KEYREL.PRED "_bar_code_n_1_rel", PHON.ONSET con ] ]. bar_n1 := n_-_c_le & [ STEM < "bar" >, SYNSEM [ LKEYS.KEYREL.PRED "_bar_n_1_rel", PHON.ONSET con ] ]. bar_v1 := v_np-pp_e_le & [ STEM < "bar" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_bar_v_from_rel" ], PHON.ONSET con ] ]. bar_v2 := v_np_le & [ STEM < "bar" >, SYNSEM [ LKEYS.KEYREL.PRED "_bar_v_from_rel", PHON.ONSET con ] ]. barb_n1 := n_-_c_le & [ STEM < "barb" >, SYNSEM [ LKEYS.KEYREL.PRED "_barb_n_1_rel", PHON.ONSET con ] ]. barb_v1 := v_np_le & [ STEM < "barb" >, SYNSEM [ LKEYS.KEYREL.PRED "_barb_v_1_rel", PHON.ONSET con ] ]. barbados_n1 := n_-_pn_le & [ STEM < "Barbados" >, SYNSEM [ LKEYS.KEYREL.CARG "Barbados", PHON.ONSET con ] ]. barbara_n1 := n_-_pn_le & [ STEM < "Barbara" >, SYNSEM [ LKEYS.KEYREL.CARG "Barbara", PHON.ONSET con ] ]. barbarism_n1 := n_-_mc_le & [ STEM < "barbarism" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbarism_n_1_rel", PHON.ONSET con ] ]. barbarous_a1 := aj_-_i_le & [ STEM < "barbarous" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbarous_a_1_rel", PHON.ONSET con ] ]. barbecue_n1 := n_-_mc_le & [ STEM < "barbecue" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbecue_n_1_rel", PHON.ONSET con ] ]. barbecue_v1 := v_np*_le & [ STEM < "barbecue" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbecue_v_1_rel", PHON.ONSET con ] ]. barberry_n1 := n_-_c_le & [ STEM < "barberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_barberry_n_1_rel", PHON.ONSET con ] ]. barbie_n1 := n_-_pn_le & [ STEM < "Barbie" >, SYNSEM [ LKEYS.KEYREL.CARG "Barbie", PHON.ONSET con ] ]. barbiturate_n1 := n_-_c_le & [ STEM < "barbiturate" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbiturate_n_1_rel", PHON.ONSET con ] ]. barbule_n1 := n_-_c_le & [ STEM < "barbule" >, SYNSEM [ LKEYS.KEYREL.PRED "_barbule_n_1_rel", PHON.ONSET con ] ]. barcelona_n1 := n_-_pn-city_le & [ STEM < "Barcelona" >, SYNSEM [ LKEYS.KEYREL.CARG "Barcelona", PHON.ONSET con ] ]. barck_n1 := n_-_pn_le & [ STEM < "Barck" >, SYNSEM [ LKEYS.KEYREL.CARG "Barck", PHON.ONSET con ] ]. barclays_n1 := n_-_pn_le & [ STEM < "Barclays" >, SYNSEM [ LKEYS.KEYREL.CARG "Barclays", PHON.ONSET con ] ]. bard_n1 := n_-_c_le & [ STEM < "bard" >, SYNSEM [ LKEYS.KEYREL.PRED "_bard_n_1_rel", PHON.ONSET con ] ]. bare_a1 := aj_-_i_le & [ STEM < "bare" >, SYNSEM [ LKEYS.KEYREL.PRED "_bare_a_1_rel", PHON.ONSET con ] ]. bare_v1 := v_np_le & [ STEM < "bare" >, SYNSEM [ LKEYS.KEYREL.PRED "_bare_v_1_rel", PHON.ONSET con ] ]. barefoot_a1 := aj_-_i_le & [ STEM < "barefoot" >, SYNSEM [ LKEYS.KEYREL.PRED "_barefoot_a_1_rel", PHON.ONSET con ] ]. barely_adv1 := av_-_i-vp-pr_le & [ STEM < "barely" >, SYNSEM [ LKEYS.KEYREL.PRED "_bare_a_1_rel", PHON.ONSET con ] ]. barely_deg := av_-_dg-jov_le & [ STEM < "barely" >, SYNSEM [ LKEYS.KEYREL.PRED "_barely_x_deg_rel", PHON.ONSET con ] ]. bargain_n1 := n_-_c_le & [ STEM < "bargain" >, SYNSEM [ LKEYS.KEYREL.PRED "_bargain_n_1_rel", PHON.ONSET con ] ]. bargain_over_v1 := v_pp_e_le & [ STEM < "bargain" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_bargain_v_over_rel" ], PHON.ONSET con ] ]. bargain_v1 := v_np*_le & [ STEM < "bargain" >, SYNSEM [ LKEYS.KEYREL.PRED "_bargain_v_1_rel", PHON.ONSET con ] ]. bargain_v2 := v_cp_le & [ STEM < "bargain" >, SYNSEM [ LKEYS.KEYREL.PRED "_bargain_v_1_rel", PHON.ONSET con ] ]. barings_n1 := n_-_pn_le & [ STEM < "Barings" >, SYNSEM [ LKEYS.KEYREL.CARG "Barings", PHON.ONSET con ] ]. barium_n1 := n_-_mc_le & [ STEM < "barium" >, SYNSEM [ LKEYS.KEYREL.PRED "_barium_n_1_rel", PHON.ONSET con ] ]. bark_n1 := n_-_mc_le & [ STEM < "bark" >, SYNSEM [ LKEYS.KEYREL.PRED "_bark_n_1_rel", PHON.ONSET con ] ]. bark_v1 := v_-_le & [ STEM < "bark" >, SYNSEM [ LKEYS.KEYREL.PRED "_bark_v_1_rel", PHON.ONSET con ] ]. barkeeper_n1 := n_-_c_le & [ STEM < "barkeeper" >, SYNSEM [ LKEYS.KEYREL.PRED "_barkeeper_n_1_rel", PHON.ONSET con ] ]. barley_n1 := n_-_m_le & [ STEM < "barley" >, SYNSEM [ LKEYS.KEYREL.PRED "_barley_n_1_rel", PHON.ONSET con ] ]. barman_n1 := n_-_c_le & [ STEM < "barman" >, SYNSEM [ LKEYS.KEYREL.PRED "_barman_n_1_rel", PHON.ONSET con ] ]. barn_n1 := n_-_c_le & [ STEM < "barn" >, SYNSEM [ LKEYS.KEYREL.PRED "_barn_n_1_rel", PHON.ONSET con ] ]. barnas_naturverden_n1 := n_-_pn_le & [ STEM < "Barnas", "Naturverden" >, SYNSEM [ LKEYS.KEYREL.CARG "Barnas+Naturverden", PHON.ONSET con ] ]. barnes_n1 := n_-_pn_le & [ STEM < "Barnes" >, SYNSEM [ LKEYS.KEYREL.CARG "Barnes", PHON.ONSET con ] ]. barnstead_n1 := n_-_pn_le & [ STEM < "Barnstead" >, SYNSEM [ LKEYS.KEYREL.CARG "Barnstead", PHON.ONSET con ] ]. baron_n1 := n_-_c_le & [ STEM < "baron" >, SYNSEM [ LKEYS.KEYREL.PRED "_baron_n_1_rel", PHON.ONSET con ] ]. barony_n1 := n_-_c_le & [ STEM < "barony" >, SYNSEM [ LKEYS.KEYREL.PRED "_barony_n_1_rel", PHON.ONSET con ] ]. baroque_isect := aj_-_i_le & [ STEM < "baroque" >, SYNSEM [ LKEYS.KEYREL.PRED "_baroque_a_1_rel", PHON.ONSET con ] ]. barracks_n1 := n_-_c-pl-nocnh_le & [ STEM < "barrack" >, SYNSEM [ LKEYS.KEYREL.PRED "_barracks_n_1_rel", PHON.ONSET con ] ]. barrage_n1 := n_-_c_le & [ STEM < "barrage" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrage_n_1_rel", PHON.ONSET con ] ]. barrage_v1 := v_np_le & [ STEM < "barrage" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrage_v_1_rel", PHON.ONSET con ] ]. barrel_n1 := n_pp_c-of_le & [ STEM < "barrel" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrel_n_of_rel", PHON.ONSET con ] ]. barren_a1 := aj_-_i_le & [ STEM < "barren" >, SYNSEM [ LKEYS.KEYREL.PRED "_barren_a_1_rel", PHON.ONSET con ] ]. barrenness_n1 := n_-_mc_le & [ STEM < "barrenness" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrenness_n_1_rel", PHON.ONSET con ] ]. barrens_n1 := n_-_c-pl-nocnh_le & [ STEM < "barren" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrens_n_1_rel", PHON.ONSET con ] ]. barricade_n1 := n_-_c_le & [ STEM < "barricade" >, SYNSEM [ LKEYS.KEYREL.PRED "_barricade_n_1_rel", PHON.ONSET con ] ]. barricade_v1 := v_np_le & [ STEM < "barricade" >, SYNSEM [ LKEYS.KEYREL.PRED "_barricade_v_1_rel", PHON.ONSET con ] ]. barrier_n1 := n_-_c_le & [ STEM < "barrier" >, SYNSEM [ LKEYS.KEYREL.PRED "_barrier_n_1_rel", PHON.ONSET con ] ]. barry_n1 := n_-_pn_le & [ STEM < "Barry" >, SYNSEM [ LKEYS.KEYREL.CARG "Barry", PHON.ONSET con ] ]. bart_n1 := n_-_pn_le & [ STEM < "Bart" >, SYNSEM [ LKEYS.KEYREL.CARG "Bart", PHON.ONSET con ] ]. bartender_n1 := n_-_c_le & [ STEM < "bartender" >, SYNSEM [ LKEYS.KEYREL.PRED "_bartender_n_1_rel", PHON.ONSET con ] ]. barton_n1 := n_-_pn_le & [ STEM < "Barton" >, SYNSEM [ LKEYS.KEYREL.CARG "Barton", PHON.ONSET con ] ]. baryshnikov_n1 := n_-_pn_le & [ STEM < "Baryshnikov" >, SYNSEM [ LKEYS.KEYREL.CARG "Baryshnikov", PHON.ONSET con ] ]. base_n1 := n_-_c-ed_le & [ STEM < "base" >, SYNSEM [ LKEYS.KEYREL.PRED "_base_n_1_rel", PHON.ONSET con ] ]. base_v1 := v_np-pp_le & [ STEM < "base" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_rel, KEYREL.PRED "_base_v_on_rel" ], PHON.ONSET con ] ]. baseball_n1 := n_-_mc_le & [ STEM < "baseball" >, SYNSEM [ LKEYS.KEYREL.PRED "_baseball_n_1_rel", PHON.ONSET con ] ]. based_isect := aj_-_i_le & [ STEM < "based" >, SYNSEM [ LKEYS.KEYREL.PRED "_based_a_1_rel", PHON.ONSET con ] ]. basejump_v1 := v_-_le & [ STEM < "basejump" >, SYNSEM [ LKEYS.KEYREL.PRED "_basejump_v_1_rel", PHON.ONSET con ] ]. baseline_i_n1 := n_-_c-brno_le & [ STEM < "baseline" >, SYNSEM [ LKEYS.KEYREL.PRED "_baseline_n_1_rel", PHON.ONSET con ] ]. baseline_n1 := n_-_c_le & [ STEM < "baseline" >, SYNSEM [ LKEYS.KEYREL.PRED "_baseline_n_1_rel", PHON.ONSET con ] ]. basement_n1 := n_-_c_le & [ STEM < "basement" >, SYNSEM [ LKEYS.KEYREL.PRED "_basement_n_1_rel", PHON.ONSET con ] ]. basf_nd := n_-_pn_le & [ STEM < "BASF" >, SYNSEM [ LKEYS.KEYREL.CARG "BASF", PHON.ONSET con ] ]. bash_n1 := n_-_c_le & [ STEM < "bash" >, SYNSEM [ LKEYS.KEYREL.PRED "_bash_n_1_rel", PHON.ONSET con ] ]. bash_v1 := v_np_le & [ STEM < "bash" >, SYNSEM [ LKEYS.KEYREL.PRED "_bash_v_1_rel", PHON.ONSET con ] ]. bashford := n_-_pn_le & [ STEM < "Bashford" >, SYNSEM [ LKEYS.KEYREL.CARG "Bashford", PHON.ONSET con ] ]. bashful_a1 := aj_-_i_le & [ STEM < "bashful" >, SYNSEM [ LKEYS.KEYREL.PRED "_bashful_a_1_rel", PHON.ONSET con ] ]. basic_a1 := aj_-_i_le & [ STEM < "basic" >, SYNSEM [ LKEYS.KEYREL.PRED "_basic_a_1_rel", PHON.ONSET con ] ]. basic_grad := av_-_dg-v_le & [ STEM < "basic" >, SYNSEM [ LKEYS.KEYREL.PRED "_basic_x_rel", PHON.ONSET con ] ]. basically_adv1 := av_-_s-vp-pr_le & [ STEM < "basically" >, SYNSEM [ LKEYS.KEYREL.PRED "_basic_a_1_rel", PHON.ONSET con ] ]. basically_adv2 := av_-_s-cp-pr_le & [ STEM < "basically" >, SYNSEM [ LKEYS.KEYREL.PRED "_basic_a_1_rel", PHON.ONSET con ] ]. basically_deg := av_-_dg-jo_le & [ STEM < "basically" >, SYNSEM [ LKEYS.KEYREL.PRED "_basically_x_deg_rel", PHON.ONSET con ] ]. basically_disc_adv := av_-_dc-like-pr_le & [ STEM < "basically" >, SYNSEM [ LKEYS.KEYREL.CARG "basically", PHON.ONSET con ] ]. basics_n1 := n_-_c-pl-nocnh_le & [ STEM < "basic" >, SYNSEM [ LKEYS.KEYREL.PRED "_basics_n_1_rel", PHON.ONSET con ] ]. basil_n1 := n_-_m_le & [ STEM < "basil" >, SYNSEM [ LKEYS.KEYREL.PRED "_basil_n_1_rel", PHON.ONSET con ] ]. basil_n2 := n_-_pn_le & [ STEM < "Basil" >, SYNSEM [ LKEYS.KEYREL.CARG "Basil", PHON.ONSET con ] ]. basilect_n1 := n_-_c_le & [ STEM < "basilect" >, SYNSEM [ LKEYS.KEYREL.PRED "_basilect_n_1_rel", PHON.ONSET con ] ]. basin_n1 := n_-_c_le & [ STEM < "basin" >, SYNSEM [ LKEYS.KEYREL.PRED "_basin_n_1_rel", PHON.ONSET con ] ]. basis_n1 := n_-_c_le & [ STEM < "basis" >, SYNSEM [ LKEYS.KEYREL.PRED "_basis_n_1_rel", PHON.ONSET con ] ]. bask_v1 := v_-_le & [ STEM < "bask" >, SYNSEM [ LKEYS.KEYREL.PRED "_bask_v_1_rel", PHON.ONSET con ] ]. basket_n1 := n_-_c_le & [ STEM < "basket" >, SYNSEM [ LKEYS.KEYREL.PRED "_basket_n_1_rel", PHON.ONSET con ] ]. basketball_n1 := n_-_mc_le & [ STEM < "basketball" >, SYNSEM [ LKEYS.KEYREL.PRED "_basketball_n_1_rel", PHON.ONSET con ] ]. basque_n1 := n_-_pn_le & [ STEM < "Basque" >, SYNSEM [ LKEYS.KEYREL.CARG "Basque", PHON.ONSET con ] ]. bass_n1 := n_-_mc_le & [ STEM < "bass" >, SYNSEM [ LKEYS.KEYREL.PRED "_bass_n_1_rel", PHON.ONSET con ] ]. bast_n1 := n_-_pn_le & [ STEM < "Bast" >, SYNSEM [ LKEYS.KEYREL.CARG "Bast", PHON.ONSET con ] ]. bastard_a1 := aj_-_i_le & [ STEM < "bastard" >, SYNSEM [ LKEYS.KEYREL.PRED "_bastard_a_1_rel", PHON.ONSET con ] ]. bastard_n1 := n_-_c_le & [ STEM < "bastard" >, SYNSEM [ LKEYS.KEYREL.PRED "_bastard_n_1_rel", PHON.ONSET con ] ]. bastille_day_n1 := n_-_pn_le & [ STEM < "Bastille", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Bastille_Day", PHON.ONSET con ] ]. bastille_n1 := n_-_c_le & [ STEM < "bastille" >, SYNSEM [ LKEYS.KEYREL.PRED "_bastille_n_1_rel", PHON.ONSET con ] ]. bastion_n1 := n_-_c_le & [ STEM < "bastion" >, SYNSEM [ LKEYS.KEYREL.PRED "_bastion_n_1_rel", PHON.ONSET con ] ]. bat_away_v2 := v_p-np_le & [ STEM < "bat" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_bat_v_away_rel" ], PHON.ONSET con ] ]. bat_n1 := n_-_c_le & [ STEM < "bat" >, SYNSEM [ LKEYS.KEYREL.PRED "_bat_n_1_rel", PHON.ONSET con ] ]. bat_v1 := v_np*_le & [ STEM < "bat" >, SYNSEM [ LKEYS.KEYREL.PRED "_bat_v_1_rel", PHON.ONSET con ] ]. batalion_n1 := n_-_c_le & [ STEM < "batalion" >, SYNSEM [ LKEYS.KEYREL.PRED "_batalion_n_no_rel", PHON.ONSET con ] ]. batch_n1 := n_-_c-gr_le & [ STEM < "batch" >, SYNSEM [ LKEYS.KEYREL.PRED "_batch_n_of_rel", PHON.ONSET con ] ]. batch_n2 := n_pp_c-gr-of_le & [ STEM < "batch" >, SYNSEM [ LKEYS.KEYREL.PRED "_batch_n_of_rel", PHON.ONSET con ] ]. batch_v1 := v_np_le & [ STEM < "batch" >, SYNSEM [ LKEYS.KEYREL.PRED "_batch_v_1_rel", PHON.ONSET con ] ]. bath_n1 := n_-_c_le & [ STEM < "bath" >, SYNSEM [ LKEYS.KEYREL.PRED "_bath_n_1_rel", PHON.ONSET con ] ]. bath_n2 := n_-_pn_le & [ STEM < "Bath" >, SYNSEM [ LKEYS.KEYREL.CARG "Bath", PHON.ONSET con ] ]. bathe_v1 := v_np*_le & [ STEM < "bathe" >, SYNSEM [ LKEYS.KEYREL.PRED "_bathe_v_1_rel", PHON.ONSET con ] ]. bather_n1 := n_-_c_le & [ STEM < "bather" >, SYNSEM [ LKEYS.KEYREL.PRED "_bather_n_1_rel", PHON.ONSET con ] ]. bathroom_n1 := n_-_c_le & [ STEM < "bathroom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bathroom_n_1_rel", PHON.ONSET con ] ]. bathsheba_n1 := n_-_pn_le & [ STEM < "Bathsheba" >, SYNSEM [ LKEYS.KEYREL.CARG "Bathsheba", PHON.ONSET con ] ]. batsman_n1 := n_-_c_le & [ STEM < "batsman" >, SYNSEM [ LKEYS.KEYREL.PRED "_batsman_n_1_rel", PHON.ONSET con ] ]. battalion_n1 := n_-_c_le & [ STEM < "battalion" >, SYNSEM [ LKEYS.KEYREL.PRED "_battalion_n_1_rel", PHON.ONSET con ] ]. batter_n1 := n_-_mc_le & [ STEM < "batter" >, SYNSEM [ LKEYS.KEYREL.PRED "_batter_n_1_rel", PHON.ONSET con ] ]. batter_v1 := v_np-pp_e_le & [ STEM < "batter" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_batter_v_into_rel" ], PHON.ONSET con ] ]. batter_v2 := v_np_le & [ STEM < "batter" >, SYNSEM [ LKEYS.KEYREL.PRED "_batter_v_into_rel", PHON.ONSET con ] ]. battery_n1 := n_-_c_le & [ STEM < "battery" >, SYNSEM [ LKEYS.KEYREL.PRED "_battery_n_1_rel", PHON.ONSET con ] ]. batting_n1 := n_-_mc_le & [ STEM < "batting" >, SYNSEM [ LKEYS.KEYREL.PRED "_batting_n_1_rel", PHON.ONSET con ] ]. battle_against_v1 := v_pp_e_le & [ STEM < "battle" >, SYNSEM [ LKEYS [ --COMPKEY _against_p_sel_rel, KEYREL.PRED "_battle_v_against_rel" ], PHON.ONSET con ] ]. battle_n1 := n_-_mc_le & [ STEM < "battle" >, SYNSEM [ LKEYS.KEYREL.PRED "_battle_n_1_rel", PHON.ONSET con ] ]. battle_v1 := v_np*_le & [ STEM < "battle" >, SYNSEM [ LKEYS.KEYREL.PRED "_battle_v_1_rel", PHON.ONSET con ] ]. battle_with_v1 := v_pp_e_le & [ STEM < "battle" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_battle_v_with_rel" ], PHON.ONSET con ] ]. battlefield_n1 := n_-_c_le & [ STEM < "battlefield" >, SYNSEM [ LKEYS.KEYREL.PRED "_battlefield_n_1_rel", PHON.ONSET con ] ]. batwing_n1 := n_-_c_le & [ STEM < "batwing" >, SYNSEM [ LKEYS.KEYREL.PRED "_batwing_n_1_rel", PHON.ONSET con ] ]. baud_n1 := n_-_c-meas_le & [ STEM < "baud" >, SYNSEM [ LKEYS.KEYREL.PRED "_baud_n_1_rel", PHON.ONSET con ] ]. bavarian_a1 := aj_-_i_le & [ STEM < "Bavarian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bavarian_a_1_rel", PHON.ONSET con ] ]. bavarian_n1 := n_-_c-nocnh_le & [ STEM < "Bavarian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bavarian_n_1_rel", PHON.ONSET con ] ]. bawl_out_v1 := v_p-np_le & [ STEM < "bawl" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bawl_v_out_rel" ], PHON.ONSET con ] ]. bawl_v1 := v_np*_le & [ STEM < "bawl" >, SYNSEM [ LKEYS.KEYREL.PRED "_bawl_v_1_rel", PHON.ONSET con ] ]. baxter_n1 := n_-_pn_le & [ STEM < "Baxter" >, SYNSEM [ LKEYS.KEYREL.CARG "Baxter", PHON.ONSET con ] ]. bay_n1 := n_-_c_le & [ STEM < "bay" >, SYNSEM [ LKEYS.KEYREL.PRED "_bay_n_1_rel", PHON.ONSET con ] ]. bay_post_ttl := n_-_tt-post_le & [ STEM < "Bay" >, SYNSEM [ LKEYS.KEYREL.PRED "_bay_n_1_rel", PHON.ONSET con ] ]. bay_v1 := v_-_le & [ STEM < "bay" >, SYNSEM [ LKEYS.KEYREL.PRED "_bay_v_1_rel", PHON.ONSET con ] ]. bayreuth_n1 := n_-_pn-city_le & [ STEM < "Bayreuth" >, SYNSEM [ LKEYS.KEYREL.CARG "Bayreuth", PHON.ONSET con ] ]. bazaar_n1 := n_-_c_le & [ STEM < "bazaar" >, SYNSEM [ LKEYS.KEYREL.PRED "_bazaar_n_1_rel", PHON.ONSET con ] ]. bazaar_post_ttl := n_-_tt-post_le & [ STEM < "Bazaar" >, SYNSEM [ LKEYS.KEYREL.PRED "_bazaar_n_1_rel", PHON.ONSET con ] ]. bb_n1 := n_-_c_le & [ STEM < "bb" >, SYNSEM [ LKEYS.KEYREL.PRED "_bb_n_1_rel", PHON.ONSET con ] ]. bbb_n1 := n_-_c-nm_le & [ STEM < "BBB" >, SYNSEM [ LKEYS.KEYREL.CARG "BBB", PHON.ONSET con ] ]. bbc_n1 := n_-_c-nm_le & [ STEM < "BBC" >, SYNSEM [ LKEYS.KEYREL.CARG "BBC", PHON.ONSET con ] ]. bbc_radio_n1 := n_-_pn_le & [ STEM < "BBC", "Radio" >, SYNSEM [ LKEYS.KEYREL.CARG "BBC+Radio", PHON.ONSET con ] ]. bc_temp_1 := x_-_bc-ad_le & [ STEM < "BC" >, SYNSEM [ LKEYS.KEYREL [ CARG "BC_time", PRED "_bc_x_rel" ], PHON.ONSET con ] ]. bc_temp_2 := x_-_bc-ad_le & [ STEM < "B", "C" >, SYNSEM [ LKEYS.KEYREL [ CARG "BC_time", PRED "_bc_x_rel" ], PHON.ONSET con ] ]. bc_temp_3 := x_-_bc-ad_le & [ STEM < "B.C." >, SYNSEM [ LKEYS.KEYREL [ CARG "BC_time", PRED "_bc_x_rel" ], PHON.ONSET con ] ]. bc_temp_4 := x_-_bc-ad_le & [ STEM < "B.C" >, SYNSEM [ LKEYS.KEYREL [ CARG "BC_time", PRED "_bc_x_rel" ], PHON.ONSET con ] ]. bd_n1 := n_-_pn_le & [ STEM < "BD" >, SYNSEM [ LKEYS.KEYREL.CARG "BD", PHON.ONSET con ] ]. be_c_am := v_prd_am_le & [ STEM < "am" >, SYNSEM.PHON.ONSET voc ]. be_c_am_cx := v_prd_am-cx_le & [ STEM < "m" >, SYNSEM.PHON.ONSET voc ]. be_c_am_cx_2 := v_prd_am-cx_le & [ STEM < "'m" >, SYNSEM.PHON.ONSET con ]. be_c_am_cx_neg_1 := v_prd_am-n-niv_le & [ STEM < "'m", "not" >, SYNSEM.PHON.ONSET onset ]. be_c_am_neg_1 := v_prd_am-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_c_am_neg_2 := v_prd_am-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_c_are := v_prd_are_le & [ STEM < "are" >, SYNSEM.PHON.ONSET voc ]. be_c_are_cx := v_prd_are-cx_le & [ STEM < "'re" >, SYNSEM.PHON.ONSET con ]. be_c_are_cx_2 := v_prd_are-cx_le & [ STEM < "re" >, SYNSEM.PHON.ONSET con ]. be_c_are_cx_neg_1 := v_prd_are-n-niv_le & [ STEM < "'re", "not" >, SYNSEM.PHON.ONSET onset ]. be_c_are_neg_1 := v_prd_are-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_c_are_neg_2 := v_prd_are-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_c_be := v_prd_be_le & [ STEM < "be" >, SYNSEM.PHON.ONSET con ]. be_c_been := v_prd_been_le & [ STEM < "been" >, SYNSEM.PHON.ONSET con ]. be_c_being := v_prd_being_le & [ STEM < "being" >, SYNSEM.PHON.ONSET con ]. be_c_is := v_prd_is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_c_is_cx := v_prd_is-cx_le & [ STEM < "s" >, SYNSEM.PHON.ONSET voc ]. be_c_is_cx_2 := v_prd_is-cx_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_c_is_cx_neg_1 := v_prd_is-n-niv_le & [ STEM < "'s", "not" >, SYNSEM.PHON.ONSET onset ]. be_c_is_neg_1 := v_prd_is-n_le & [ STEM < "isn't" >, SYNSEM.PHON.ONSET voc ]. be_c_is_neg_2 := v_prd_is-n_le & [ STEM < "isn", "'t" >, SYNSEM.PHON.ONSET voc ]. be_c_was := v_prd_was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_c_was_neg_1 := v_prd_was-n_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_c_was_neg_2 := v_prd_was-n_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_c_was_neg_subj_1 := v_prd_was-n-sv_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_c_was_neg_subj_2 := v_prd_was-n-sv_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_c_was_subj := v_prd_was-sv_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_c_were := v_prd_wre_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_c_were_neg_1 := v_prd_wre-n_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_c_were_neg_2 := v_prd_wre-n_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_c_were_neg_subj_1 := v_prd_wre-n-sv_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_c_were_neg_subj_2 := v_prd_wre-n-sv_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_c_were_subj := v_prd_wre-sv_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_id_am := v_np_am_le & [ STEM < "am" >, SYNSEM.PHON.ONSET voc ]. be_id_am_cx := v_np_am-cx_le & [ STEM < "m" >, SYNSEM.PHON.ONSET voc ]. be_id_am_cx_2 := v_np_am-cx_le & [ STEM < "'m" >, SYNSEM.PHON.ONSET con ]. be_id_am_cx_neg_1 := v_np_am-n-niv_le & [ STEM < "'m", "not" >, SYNSEM.PHON.ONSET onset ]. be_id_am_neg_1 := v_np_am-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_id_am_neg_2 := v_np_am-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_id_are := v_np_are_le & [ STEM < "are" >, SYNSEM.PHON.ONSET voc ]. be_id_are_cx := v_np_are-cx_le & [ STEM < "'re" >, SYNSEM.PHON.ONSET con ]. be_id_are_cx_2 := v_np_are-cx_le & [ STEM < "re" >, SYNSEM.PHON.ONSET con ]. be_id_are_cx_neg_1 := v_np_are-n-niv_le & [ STEM < "'re", "not" >, SYNSEM.PHON.ONSET onset ]. be_id_are_neg_1 := v_np_are-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_id_are_neg_2 := v_np_are-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_id_be := v_np_be_le & [ STEM < "be" >, SYNSEM.PHON.ONSET con ]. be_id_been := v_np_been_le & [ STEM < "been" >, SYNSEM.PHON.ONSET con ]. be_id_being := v_np_being_le & [ STEM < "being" >, SYNSEM.PHON.ONSET con ]. be_id_is := v_np_is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_id_is_cx := v_np_is-cx_le & [ STEM < "s" >, SYNSEM.PHON.ONSET voc ]. be_id_is_cx_2 := v_np_is-cx_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_id_is_cx_neg_1 := v_np_is-n-niv_le & [ STEM < "'s", "not" >, SYNSEM.PHON.ONSET onset ]. be_id_is_neg_1 := v_np_is-n_le & [ STEM < "isn't" >, SYNSEM.PHON.ONSET voc ]. be_id_is_neg_2 := v_np_is-n_le & [ STEM < "isn", "'t" >, SYNSEM.PHON.ONSET voc ]. be_id_was := v_np_was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_id_was_neg_1 := v_np_was-n_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_id_was_neg_2 := v_np_was-n_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_id_was_neg_subj_1 := v_np_was-n-sv_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_id_was_neg_subj_2 := v_np_was-n-sv_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_id_was_subj := v_np_was-sv_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_id_were := v_np_wre_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_id_were_neg_1 := v_np_wre-n_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_id_were_neg_2 := v_np_wre-n_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_id_were_neg_subj_1 := v_np_wre-n-sv_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_id_were_neg_subj_2 := v_np_wre-n-sv_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_id_were_subj := v_np_wre-sv_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_inv_are := v_np_locinv-are_le & [ STEM < "are" >, SYNSEM.PHON.ONSET voc ]. be_inv_are_cx := v_np_locinv-are_le & [ STEM < "'re" >, SYNSEM.PHON.ONSET voc ]. be_inv_is := v_np_locinv-is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_inv_is_cx := v_np_locinv-is_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_inv_was := v_np_locinv-was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_inv_were := v_np_locinv-were_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_it_cop_be := v_np-rc_be_le & [ STEM < "be" >, SYNSEM.PHON.ONSET con ]. be_it_cop_been := v_np-rc_been_le & [ STEM < "been" >, SYNSEM.PHON.ONSET con ]. be_it_cop_being := v_np-rc_being_le & [ STEM < "being" >, SYNSEM.PHON.ONSET con ]. be_it_cop_is := v_np-rc_is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_it_cop_is_cx := v_np-rc_is-cx_le & [ STEM < "s" >, SYNSEM.PHON.ONSET voc ]. be_it_cop_is_cx_2 := v_np-rc_is-cx_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_it_cop_is_neg_1 := v_np-rc_is-n_le & [ STEM < "isn't" >, SYNSEM.PHON.ONSET voc ]. be_it_cop_is_neg_2 := v_np-rc_is-n_le & [ STEM < "isn", "'t" >, SYNSEM.PHON.ONSET voc ]. be_it_cop_was := v_np-rc_was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_it_cop_was_neg_1 := v_np-rc_was-n_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_it_cop_was_neg_2 := v_np-rc_was-n_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_it_cop_was_neg_subj_1 := v_np-rc_was-n-sv_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_it_cop_was_neg_subj_2 := v_np-rc_was-n-sv_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_it_cop_was_subj := v_np-rc_was-sv_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_nv_are := v_cp_are_le & [ STEM < "are" >, SYNSEM.PHON.ONSET voc ]. be_nv_are_neg_1 := v_cp_are-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_nv_are_neg_2 := v_cp_are-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_nv_be := v_cp_be_le & [ STEM < "be" >, SYNSEM.PHON.ONSET con ]. be_nv_been := v_cp_been_le & [ STEM < "been" >, SYNSEM.PHON.ONSET con ]. be_nv_being := v_cp_being_le & [ STEM < "being" >, SYNSEM.PHON.ONSET con ]. be_nv_is := v_cp_is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_nv_is_cx := v_cp_is-cx_le & [ STEM < "s" >, SYNSEM.PHON.ONSET voc ]. be_nv_is_cx_2 := v_cp_is-cx_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_nv_is_cx_neg_1 := v_cp_is-n-niv_le & [ STEM < "'s", "not" >, SYNSEM.PHON.ONSET onset ]. be_nv_is_neg_1 := v_cp_is-n_le & [ STEM < "isn't" >, SYNSEM.PHON.ONSET voc ]. be_nv_is_neg_2 := v_cp_is-n_le & [ STEM < "isn", "'t" >, SYNSEM.PHON.ONSET voc ]. be_nv_was := v_cp_was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_nv_was_neg_1 := v_cp_was-n_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_nv_was_neg_2 := v_cp_was-n_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_nv_was_neg_subj_1 := v_cp_was-n-sv_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_nv_was_neg_subj_2 := v_cp_was-n-sv_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_nv_was_subj := v_cp_was-sv_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_nv_were := v_cp_wre_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_nv_were_neg_1 := v_cp_wre-n_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_nv_were_neg_2 := v_cp_wre-n_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_nv_were_neg_subj_1 := v_cp_wre-n-sv_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_nv_were_neg_subj_2 := v_cp_wre-n-sv_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_nv_were_subj := v_cp_wre-sv_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_th_cop_are := v_np-xp_are_le & [ STEM < "are" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_are_neg_1 := v_np-xp_are-n_le & [ STEM < "aren't" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_are_neg_2 := v_np-xp_are-n_le & [ STEM < "aren", "'t" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_be := v_np-xp_be_le & [ STEM < "be" >, SYNSEM.PHON.ONSET con ]. be_th_cop_been := v_np-xp_been_le & [ STEM < "been" >, SYNSEM.PHON.ONSET con ]. be_th_cop_being := v_np-xp_being_le & [ STEM < "being" >, SYNSEM.PHON.ONSET con ]. be_th_cop_is := v_np-xp_is_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_is_cx := v_np-xp_is-cx_le & [ STEM < "s" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_is_cx_2 := v_np-xp_is-cx_le & [ STEM < "'s" >, SYNSEM.PHON.ONSET con ]. be_th_cop_is_cx_neg_1 := v_np-xp_is-n-niv_le & [ STEM < "'s", "not" >, SYNSEM.PHON.ONSET onset ]. be_th_cop_is_neg_1 := v_np-xp_is-n_le & [ STEM < "isn't" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_is_neg_2 := v_np-xp_is-n_le & [ STEM < "isn", "'t" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_is_plur := v_np-xp_is-pl_le & [ STEM < "is" >, SYNSEM.PHON.ONSET voc ]. be_th_cop_was := v_np-xp_was_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_th_cop_was_neg_1 := v_np-xp_was-n_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_th_cop_was_neg_2 := v_np-xp_was-n_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_th_cop_was_neg_subj_1 := v_np-xp_was-n-sv_le & [ STEM < "wasn't" >, SYNSEM.PHON.ONSET con ]. be_th_cop_was_neg_subj_2 := v_np-xp_was-n-sv_le & [ STEM < "wasn", "'t" >, SYNSEM.PHON.ONSET con ]. be_th_cop_was_subj := v_np-xp_was-sv_le & [ STEM < "was" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were := v_np-xp_wre_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were_neg_1 := v_np-xp_wre-n_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were_neg_2 := v_np-xp_wre-n_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were_neg_subj_1 := v_np-xp_wre-n-sv_le & [ STEM < "weren't" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were_neg_subj_2 := v_np-xp_wre-n-sv_le & [ STEM < "weren", "'t" >, SYNSEM.PHON.ONSET con ]. be_th_cop_were_subj := v_np-xp_wre-sv_le & [ STEM < "were" >, SYNSEM.PHON.ONSET con ]. beach_n1 := n_-_c_le & [ STEM < "beach" >, SYNSEM [ LKEYS.KEYREL.PRED "_beach_n_1_rel", PHON.ONSET con ] ]. beach_post_ttl := n_-_tt-post_le & [ STEM < "Beach" >, SYNSEM [ LKEYS.KEYREL.PRED "_beach_n_1_rel", PHON.ONSET con ] ]. beach_v1 := v_np_le & [ STEM < "beach" >, SYNSEM [ LKEYS.KEYREL.PRED "_beach_v_1_rel", PHON.ONSET con ] ]. beacon_n1 := n_-_c_le & [ STEM < "beacon" >, SYNSEM [ LKEYS.KEYREL.PRED "_beacon_n_1_rel", PHON.ONSET con ] ]. bead_n1 := n_-_c_le & [ STEM < "bead" >, SYNSEM [ LKEYS.KEYREL.PRED "_bead_n_1_rel", PHON.ONSET con ] ]. bead_v1 := v_-_le & [ STEM < "bead" >, SYNSEM [ LKEYS.KEYREL.PRED "_bead_v_1_rel", PHON.ONSET con ] ]. beam_at_v1 := v_pp_e_le & [ STEM < "beam" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_beam_v_at_rel" ], PHON.ONSET con ] ]. beam_n1 := n_pp_c-of_le & [ STEM < "beam" >, SYNSEM [ LKEYS.KEYREL.PRED "_beam_n_of_rel", PHON.ONSET con ] ]. beam_out_v1 := v_p-np_le & [ STEM < "beam" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_beam_v_out_rel" ], PHON.ONSET con ] ]. beam_v1 := v_np*_le & [ STEM < "beam" >, SYNSEM [ LKEYS.KEYREL.PRED "_beam_v_1_rel", PHON.ONSET con ] ]. beam_v2 := v_np-np_le & [ STEM < "beam" >, SYNSEM [ LKEYS.KEYREL.PRED "_beam_v_1_rel", PHON.ONSET con ] ]. bean_n1 := n_-_c_le & [ STEM < "bean" >, SYNSEM [ LKEYS.KEYREL.PRED "_bean_n_1_rel", PHON.ONSET con ] ]. bean_n2 := n_-_pn_le & [ STEM < "Bean" >, SYNSEM [ LKEYS.KEYREL.CARG "Bean", PHON.ONSET con ] ]. bear_n1 := n_-_c_le & [ STEM < "bear" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_n_1_rel", PHON.ONSET con ] ]. bear_n2 := n_-_m-kind_le & [ STEM < "bear" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_n_1_rel", PHON.ONSET con ] ]. bear_out_v1 := v_p-np_le & [ STEM < "bear" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bear_v_out_rel" ], PHON.ONSET con ] ]. bear_v1 := v_np_le & [ STEM < "bear" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_v_1_rel", PHON.ONSET con ] ]. bear_v2 := v_vp_seq_le & [ STEM < "bear" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_v_1_rel", PHON.ONSET con ] ]. bear_v3 := v_pp*_dir_le & [ STEM < "bear" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_v_1_rel", PHON.ONSET con ] ]. bear_with_v1 := v_pp_e_le & [ STEM < "bear" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_bear_v_with_rel" ], PHON.ONSET con ] ]. bearable_a1 := aj_-_i_le & [ STEM < "bearable" >, SYNSEM [ LKEYS.KEYREL.PRED "_bearable_a_1_rel", PHON.ONSET con ] ]. bearberry_n1 := n_-_c_le & [ STEM < "bearberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_bearberry_n_1_rel", PHON.ONSET con ] ]. beard_n1 := n_-_pn_le & [ STEM < "Beard" >, SYNSEM [ LKEYS.KEYREL.CARG "Beard", PHON.ONSET con ] ]. beard_n2 := n_-_c_le & [ STEM < "beard" >, SYNSEM [ LKEYS.KEYREL.PRED "_beard_n_1_rel", PHON.ONSET con ] ]. beard_v1 := v_np_le & [ STEM < "beard" >, SYNSEM [ LKEYS.KEYREL.PRED "_beard_v_1_rel", PHON.ONSET con ] ]. bearer_n1 := n_-_c_le & [ STEM < "bearer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bearer_n_1_rel", PHON.ONSET con ] ]. bearing_n1 := n_-_mc_le & [ STEM < "bearing" >, SYNSEM [ LKEYS.KEYREL.PRED "_bearing_n_1_rel", PHON.ONSET con ] ]. beast_n1 := n_-_c_le & [ STEM < "beast" >, SYNSEM [ LKEYS.KEYREL.PRED "_beast_n_1_rel", PHON.ONSET con ] ]. beat_n1 := n_-_c_le & [ STEM < "beat" >, SYNSEM [ LKEYS.KEYREL.PRED "_beat_n_1_rel", PHON.ONSET con ] ]. beat_up_v1 := v_p-np_le & [ STEM < "beat" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_beat_v_up_rel" ], PHON.ONSET con ] ]. beat_v1 := v_np*_le & [ STEM < "beat" >, SYNSEM [ LKEYS.KEYREL.PRED "_beat_v_to_rel", PHON.ONSET con ] ]. beat_v2 := v_np-pp_to_le & [ STEM < "beat" >, SYNSEM [ LKEYS.KEYREL.PRED "_beat_v_to_rel", PHON.ONSET con ] ]. beating_n1 := n_-_c-nocnh_le & [ STEM < "beating" >, SYNSEM [ LKEYS.KEYREL.PRED "_beating_n_1_rel", PHON.ONSET con ] ]. beautiful_a1 := aj_-_i_le & [ STEM < "beautiful" >, SYNSEM [ LKEYS.KEYREL.PRED "_beautiful_a_1_rel", PHON.ONSET con ] ]. beautifully := av_-_i-vp_le & [ STEM < "beautifully" >, SYNSEM [ LKEYS.KEYREL.PRED "_beautiful_a_1_rel", PHON.ONSET con ] ]. beauty_n1 := n_-_mc_le & [ STEM < "beauty" >, SYNSEM [ LKEYS.KEYREL.PRED "_beauty_n_1_rel", PHON.ONSET con ] ]. because := p_cp_s_le & [ STEM < "because" >, SYNSEM [ LKEYS.KEYREL.PRED "_because_x_rel", PHON.ONSET con ] ]. because_abb := p_cp_s_le & [ STEM < "cos" >, SYNSEM [ LKEYS.KEYREL.PRED "_because_x_rel", PHON.ONSET con ] ]. because_of_abb_p := p_np_i_le & [ STEM < "cos", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _because+of_p_rel, PHON.ONSET con ] ]. because_of_p := p_np_i_le & [ STEM < "because", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _because+of_p_rel, PHON.ONSET con ] ]. becher_n1 := n_-_pn_le & [ STEM < "Becher" >, SYNSEM [ LKEYS.KEYREL.CARG "Becher", PHON.ONSET con ] ]. beck_and_call_n1 := n_-_c-sg_le & [ STEM < "beck", "and", "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_beck+and+call_n_1_rel", PHON.ONSET con ] ]. beck_n1 := n_-_pn_le & [ STEM < "Beck" >, SYNSEM [ LKEYS.KEYREL.CARG "Beck", PHON.ONSET con ] ]. beckett_n1 := n_-_pn_le & [ STEM < "Beckett" >, SYNSEM [ LKEYS.KEYREL.CARG "Beckett", PHON.ONSET con ] ]. beckon_to_v1 := v_pp_e_le & [ STEM < "beckon" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_beckon_v_to_rel" ], PHON.ONSET con ] ]. beckon_to_v2 := v_pp-vp_oeq_le & [ STEM < "beckon" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_beckon_v_to_rel" ], PHON.ONSET con ] ]. beckon_v1 := v_np-pp*_to_le & [ STEM < "beckon" >, SYNSEM [ LKEYS.KEYREL.PRED "_beckon_v_to_rel", PHON.ONSET con ] ]. beckon_v2 := v_-_le & [ STEM < "beckon" >, SYNSEM [ LKEYS.KEYREL.PRED "_beckon_v_to_rel", PHON.ONSET con ] ]. beckworth_n1 := n_-_pn_le & [ STEM < "Beckworth" >, SYNSEM [ LKEYS.KEYREL.CARG "Beckworth", PHON.ONSET con ] ]. becky_n1 := n_-_pn_le & [ STEM < "Becky" >, SYNSEM [ LKEYS.KEYREL.CARG "Becky", PHON.ONSET con ] ]. become_of_v1 := v_pp_e_le & [ STEM < "become" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_become_v_of_rel" ], PHON.ONSET con ] ]. become_v1 := v_ap-pp_seq_le & [ STEM < "become" >, SYNSEM [ LKEYS.KEYREL.PRED "_become_v_to_rel", PHON.ONSET con ] ]. become_v2 := v_np_id_le & [ STEM < "become" >, SYNSEM [ LKEYS.KEYREL.PRED "_become_v_id_rel", PHON.ONSET con ] ]. become_v3 := v_nb_le & [ STEM < "become" >, SYNSEM [ LKEYS.KEYREL.PRED "_become_v_id_rel", PHON.ONSET con ] ]. bed_down_v1 := v_p-np_le & [ STEM < "bed" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_bed_v_down_rel" ], PHON.ONSET con ] ]. bed_i_n1 := n_-_c-brno_le & [ STEM < "bed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bed_n_1_rel", PHON.ONSET con ] ]. bed_n1 := n_-_c_le & [ STEM < "bed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bed_n_1_rel", PHON.ONSET con ] ]. bed_time_n1 := n_-_pn-mealtm_le & [ STEM < "bedtime" >, SYNSEM [ LKEYS.KEYREL.PRED "_bed_n_1_rel", PHON.ONSET con ] ]. bed_v1 := v_np_le & [ STEM < "bed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bed_v_1_rel", PHON.ONSET con ] ]. bedclothes_n1 := n_-_c-pl-nocnh_le & [ STEM < "bedclothe" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedclothes_n_1_rel", PHON.ONSET con ] ]. bedding_n1 := n_-_m_le & [ STEM < "bedding" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedding_n_1_rel", PHON.ONSET con ] ]. bedeck_v1 := v_np_le & [ STEM < "bedeck" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedeck_v_1_rel", PHON.ONSET con ] ]. bedewed_a1 := aj_-_i_le & [ STEM < "bedewed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedewed_a_1_rel", PHON.ONSET con ] ]. bedford_n1 := n_-_pn-city_le & [ STEM < "Bedford" >, SYNSEM [ LKEYS.KEYREL.CARG "Bedford", PHON.ONSET con ] ]. bedground_n1 := n_-_mc_le & [ STEM < "bedground" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedground_n_1_rel", PHON.ONSET con ] ]. bedrock_n1 := n_-_m_le & [ STEM < "bedrock" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedrock_n_1_rel", PHON.ONSET con ] ]. bedroom_n1 := n_-_c-ed_le & [ STEM < "bedroom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedroom_n_1_rel", PHON.ONSET con ] ]. bedside_n1 := n_-_c_le & [ STEM < "bedside" >, SYNSEM [ LKEYS.KEYREL.PRED "_bedside_n_1_rel", PHON.ONSET con ] ]. bee_n1 := n_-_c_le & [ STEM < "bee" >, SYNSEM [ LKEYS.KEYREL.PRED "_bee_n_1_rel", PHON.ONSET con ] ]. beechwood_n1 := n_-_mc_le & [ STEM < "beechwood" >, SYNSEM [ LKEYS.KEYREL.PRED "_beechwood_n_1_rel", PHON.ONSET con ] ]. beeding_n1 := n_-_pn_le & [ STEM < "Beeding" >, SYNSEM [ LKEYS.KEYREL.CARG "Beeding", PHON.ONSET con ] ]. beef_n1 := n_-_m_le & [ STEM < "beef" >, SYNSEM [ LKEYS.KEYREL.PRED "_beef_n_1_rel", PHON.ONSET con ] ]. beefy_a1 := aj_-_i_le & [ STEM < "beefy" >, SYNSEM [ LKEYS.KEYREL.PRED "_beef_a_1_rel", PHON.ONSET con ] ]. beehive_n1 := n_-_pn_le & [ STEM < "Beehive" >, SYNSEM [ LKEYS.KEYREL.CARG "Beehive", PHON.ONSET con ] ]. beer_n1 := n_-_mc_le & [ STEM < "beer" >, SYNSEM [ LKEYS.KEYREL.PRED "_beer_n_1_rel", PHON.ONSET con ] ]. beethoven_n1 := n_-_pn_le & [ STEM < "Beethoven" >, SYNSEM [ LKEYS.KEYREL.CARG "Beethoven", PHON.ONSET con ] ]. beetle_n1 := n_-_c_le & [ STEM < "beetle" >, SYNSEM [ LKEYS.KEYREL.PRED "_beetle_n_1_rel", PHON.ONSET con ] ]. befall_v1 := v_np_le & [ STEM < "befall" >, SYNSEM [ LKEYS.KEYREL.PRED "_befall_v_1_rel", PHON.ONSET con ] ]. befit_v1 := v_np_le & [ STEM < "befit" >, SYNSEM [ LKEYS.KEYREL.PRED "_befit_v_1_rel", PHON.ONSET con ] ]. befitting_isect := aj_-_i_le & [ STEM < "befitting" >, SYNSEM [ LKEYS.KEYREL.PRED "_befitting_a_1_rel", PHON.ONSET con ] ]. before2 := p_cp_s-notop_le & [ STEM < "before" >, SYNSEM [ LKEYS.KEYREL.PRED "_before_x_h_rel", PHON.ONSET con ] ]. before3 := p_np_i_le & [ STEM < "before" >, SYNSEM [ LKEYS.KEYREL.PRED _before_p_rel, PHON.ONSET con ] ]. before_adv1 := pp_-_i_le & [ STEM < "before" >, SYNSEM [ LKEYS.KEYREL.PRED _before_p_rel, PHON.ONSET con ] ]. beforehand_adv1 := pp_-_i_le & [ STEM < "beforehand" >, SYNSEM [ LKEYS.KEYREL.PRED _beforehand_p_rel, PHON.ONSET con ] ]. beg_for_v1 := v_np*-pp_e_le & [ STEM < "beg" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_beg_v_for_rel" ], PHON.ONSET con ] ]. beg_off_v1 := v_p-vp_prp_le & [ STEM < "beg" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_beg_v_off_rel" ], PHON.ONSET con ] ]. beg_v1 := v_np*_le & [ STEM < "beg" >, SYNSEM [ LKEYS.KEYREL.PRED "_beg_v_1_rel", PHON.ONSET con ] ]. beg_v2 := v_np-vp_oeq_le & [ STEM < "beg" >, SYNSEM [ LKEYS.KEYREL.PRED "_beg_v_1_rel", PHON.ONSET con ] ]. beg_v3 := v_vp_seq_le & [ STEM < "beg" >, SYNSEM [ LKEYS.KEYREL.PRED "_beg_v_1_rel", PHON.ONSET con ] ]. beg_v4 := v_np-vp_aeq-ntr_le & [ STEM < "beg" >, SYNSEM [ LKEYS.KEYREL.PRED "_beg_v_1_rel", PHON.ONSET con ] ]. beget_v1 := v_np_le & [ STEM < "beget" >, SYNSEM [ LKEYS.KEYREL.PRED "_beget_v_1_rel", PHON.ONSET con ] ]. beggar_n1 := n_-_c_le & [ STEM < "beggar" >, SYNSEM [ LKEYS.KEYREL.PRED "_beggar_n_1_rel", PHON.ONSET con ] ]. begin_v2 := v_np*_le & [ STEM < "begin" >, SYNSEM [ LKEYS.KEYREL.PRED "_begin_v_1_rel", PHON.ONSET con ] ]. begin_v3 := v_vp_ssr_le & [ STEM < "begin" >, SYNSEM [ LKEYS.KEYREL.PRED "_begin_v_1_rel", PHON.ONSET con ] ]. begin_v4 := v_vp_ssr-prp_le & [ STEM < "begin" >, SYNSEM [ LKEYS.KEYREL.PRED "_begin_v_1_rel", PHON.ONSET con ] ]. beginner_n1 := n_-_c_le & [ STEM < "beginner" >, SYNSEM [ LKEYS.KEYREL.PRED "_beginner_n_1_rel", PHON.ONSET con ] ]. beginning1 := n_-_c_le & [ STEM < "beginning" >, SYNSEM [ LKEYS.KEYREL.PRED "_beginning_n_1_rel", PHON.ONSET con ] ]. begone_v1 := v_-_imp_le & [ STEM < "begone" >, SYNSEM [ LKEYS.KEYREL.PRED "_begone_v_1_rel", PHON.ONSET con ] ]. begonia_n1 := n_-_c_le & [ STEM < "begonia" >, SYNSEM [ LKEYS.KEYREL.PRED "_begonia_n_1_rel", PHON.ONSET con ] ]. begotten_a1 := aj_-_i_le & [ STEM < "begotten" >, SYNSEM [ LKEYS.KEYREL.PRED "_begotten_a_1_rel", PHON.ONSET con ] ]. begrudge1 := v_np-np_only_le & [ STEM < "begrudge" >, SYNSEM [ LKEYS.KEYREL.PRED "_begrudge_v_1_rel", PHON.ONSET con ] ]. beguiling_a1 := aj_-_i_le & [ STEM < "beguiling" >, SYNSEM [ LKEYS.KEYREL.PRED "_beguiling_a_1_rel", PHON.ONSET con ] ]. behalf_n1 := n_-_c-sg_le & [ STEM < "behalf" >, SYNSEM [ LKEYS.KEYREL.PRED "_behalf_n_1_rel", PHON.ONSET con ] ]. behave_adv_v1 := v_adv_le & [ STEM < "behave" >, SYNSEM [ LKEYS.KEYREL.PRED "_behave_v_1_rel", PHON.ONSET con ] ]. behave_v1 := v_-_le & [ STEM < "behave" >, SYNSEM [ LKEYS.KEYREL.PRED "_behave_v_1_rel", PHON.ONSET con ] ]. behave_v2 := v_cp_like_le & [ STEM < "behave" >, SYNSEM [ LKEYS.KEYREL.PRED "_behave_v_1_rel", PHON.ONSET con ] ]. behavior_n1 := n_-_mc_le & [ STEM < "behavior" >, SYNSEM [ LKEYS.KEYREL.PRED "_behavior_n_1_rel", PHON.ONSET con ] ]. behavior_n1_br := n_-_mc_le & [ DIALECT br, STEM < "behaviour" >, SYNSEM [ LKEYS.KEYREL.PRED "_behavior_n_1_rel", PHON.ONSET con ] ]. behavioral_a1 := aj_-_i_le & [ STEM < "behavioral" >, SYNSEM [ LKEYS.KEYREL.PRED "_behavioral_a_1_rel", PHON.ONSET con ] ]. behavioral_a1_br := aj_-_i_le & [ DIALECT br, STEM < "behavioural" >, SYNSEM [ LKEYS.KEYREL.PRED "_behavioral_a_1_rel", PHON.ONSET con ] ]. behead_v1 := v_np_le & [ STEM < "behead" >, SYNSEM [ LKEYS.KEYREL.PRED "_behead_v_1_rel", PHON.ONSET con ] ]. behind := p_np_i-reg_le & [ STEM < "behind" >, SYNSEM [ LKEYS.KEYREL.PRED _behind_p_rel, PHON.ONSET con ] ]. behind_adv := pp_-_i_le & [ STEM < "behind" >, SYNSEM [ LKEYS.KEYREL.PRED _behind_p_rel, PHON.ONSET con ] ]. behind_prtcl := p_np_ptcl_le & [ STEM < "behind" >, SYNSEM [ LKEYS.KEYREL.PRED _behind_p_sel_rel, PHON.ONSET con ] ]. behold_v1 := v_np*_le & [ STEM < "behold" >, SYNSEM [ LKEYS.KEYREL.PRED "_behold_v_1_rel", PHON.ONSET con ] ]. beige_n1 := n_-_mc-col_le & [ STEM < "beige" >, SYNSEM [ LKEYS.KEYREL.PRED "_beige_n_1_rel", PHON.ONSET con ] ]. beijing_n1 := n_-_pn-city_le & [ STEM < "Beijing" >, SYNSEM [ LKEYS.KEYREL.CARG "Beijing", PHON.ONSET con ] ]. being_i_n1 := n_-_c-brno_le & [ STEM < "being" >, SYNSEM [ LKEYS.KEYREL.PRED "_being_n_i_rel", PHON.ONSET con ] ]. being_n1 := n_-_c_le & [ STEM < "being" >, SYNSEM [ LKEYS.KEYREL.PRED "_being_n_1_rel", PHON.ONSET con ] ]. beito_n1 := n_-_pn_le & [ STEM < "Beito" >, SYNSEM [ LKEYS.KEYREL.CARG "Beito", PHON.ONSET con ] ]. beitostølen_n1 := n_-_pn_le & [ STEM < "Beitostølen" >, SYNSEM [ LKEYS.KEYREL.CARG "Beitostølen", PHON.ONSET con ] ]. beixingming_n1 := n_-_pn_le & [ STEM < "Beixingming" >, SYNSEM [ LKEYS.KEYREL.CARG "Beixingming", PHON.ONSET con ] ]. bel_n1 := n_-_pn_le & [ STEM < "Bel" >, SYNSEM [ LKEYS.KEYREL.CARG "Bel", PHON.ONSET con ] ]. belay_n1 := n_-_c_le & [ STEM < "belay" >, SYNSEM [ LKEYS.KEYREL.PRED "_belay_n_1_rel", PHON.ONSET con ] ]. belay_v1 := v_np_le & [ STEM < "belay" >, SYNSEM [ LKEYS.KEYREL.PRED "_belay_v_1_rel", PHON.ONSET con ] ]. belch_n1 := n_-_c_le & [ STEM < "belch" >, SYNSEM [ LKEYS.KEYREL.PRED "_belch_n_1_rel", PHON.ONSET con ] ]. belch_v1 := v_-_le & [ STEM < "belch" >, SYNSEM [ LKEYS.KEYREL.PRED "_belch_v_1_rel", PHON.ONSET con ] ]. belfast_n1 := n_-_pn-city_le & [ STEM < "Belfast" >, SYNSEM [ LKEYS.KEYREL.CARG "Belfast", PHON.ONSET con ] ]. belfry_n1 := n_-_c_le & [ STEM < "belfry" >, SYNSEM [ LKEYS.KEYREL.PRED "_belfry_n_1_rel", PHON.ONSET con ] ]. belgian_a1 := aj_-_i_le & [ STEM < "Belgian" >, SYNSEM [ LKEYS.KEYREL.PRED "_belgian_a_1_rel", PHON.ONSET con ] ]. belgian_n1 := n_-_c-nocnh_le & [ STEM < "Belgian" >, SYNSEM [ LKEYS.KEYREL.PRED "_belgian_n_1_rel", PHON.ONSET con ] ]. belgian_n2 := n_-_pn_le & [ STEM < "Belgian" >, SYNSEM [ LKEYS.KEYREL.CARG "Belgian", PHON.ONSET con ] ]. belgium_n1 := n_-_pn_le & [ STEM < "Belgium" >, SYNSEM [ LKEYS.KEYREL.CARG "Belgium", PHON.ONSET con ] ]. belief_n1 := n_cp_mc-fin_le & [ STEM < "belief" >, SYNSEM [ LKEYS.KEYREL.PRED "_belief_n_in_rel", PHON.ONSET con ] ]. belief_n2 := n_pp_mc_le & [ STEM < "belief" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_belief_n_in_rel" ], PHON.ONSET con ] ]. believe_in_v1 := v_pp_e_le & [ STEM < "believe" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_believe_v_in_rel" ], PHON.ONSET con ] ]. believe_v1 := v_np*_le & [ STEM < "believe" >, SYNSEM [ LKEYS.KEYREL.PRED "_believe_v_1_rel", PHON.ONSET con ] ]. believe_v3 := v_cp_le & [ STEM < "believe" >, SYNSEM [ LKEYS.KEYREL.PRED "_believe_v_1_rel", PHON.ONSET con ] ]. believe_v4 := v_np-vp_sor_le & [ STEM < "believe" >, SYNSEM [ LKEYS.KEYREL.PRED "_believe_v_1_rel", PHON.ONSET con ] ]. believer_n1 := n_-_c_le & [ STEM < "believer" >, SYNSEM [ LKEYS.KEYREL.PRED "_believer_n_1_rel", PHON.ONSET con ] ]. belinda_n1 := n_-_pn_le & [ STEM < "Belinda" >, SYNSEM [ LKEYS.KEYREL.CARG "Belinda", PHON.ONSET con ] ]. belittlement_n1 := n_-_m_le & [ STEM < "belittlement" >, SYNSEM [ LKEYS.KEYREL.PRED "_belittlement_n_1_rel", PHON.ONSET con ] ]. belize_n1 := n_-_pn_le & [ STEM < "Belize" >, SYNSEM [ LKEYS.KEYREL.CARG "Belize", PHON.ONSET con ] ]. bell-ringing_n1 := n_-_m_le & [ STEM < "bell-", "ringing" >, SYNSEM [ LKEYS.KEYREL.PRED "_bell-ringing_n_1_rel", PHON.ONSET con ] ]. bell_n1 := n_-_c_le & [ STEM < "bell" >, SYNSEM [ LKEYS.KEYREL.PRED "_bell_n_1_rel", PHON.ONSET con ] ]. bell_n2 := n_-_pn_le & [ STEM < "Bell" >, SYNSEM [ LKEYS.KEYREL.CARG "Bell", PHON.ONSET con ] ]. bella_n1 := n_-_pn_le & [ STEM < "Bella" >, SYNSEM [ LKEYS.KEYREL.CARG "Bella", PHON.ONSET con ] ]. belle := n_-_pn_le & [ STEM < "Belle" >, SYNSEM [ LKEYS.KEYREL.CARG "Belle", PHON.ONSET con ] ]. belle_n2 := n_-_c_le & [ STEM < "belle" >, SYNSEM [ LKEYS.KEYREL.PRED "_belle_n_1_rel", PHON.ONSET con ] ]. bellefonte_n1 := n_-_pn_le & [ STEM < "Bellefonte" >, SYNSEM [ LKEYS.KEYREL.CARG "Bellefonte", PHON.ONSET con ] ]. bellow_at_v1 := v_pp_e_le & [ STEM < "bellow" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_bellow_v_at_rel" ], PHON.ONSET con ] ]. bellow_n1 := n_-_c_le & [ STEM < "bellow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bellow_n_1_rel", PHON.ONSET con ] ]. bellow_v1 := v_np*_le & [ STEM < "bellow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bellow_v_1_rel", PHON.ONSET con ] ]. bellow_v2 := v_cp_le & [ STEM < "bellow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bellow_v_1_rel", PHON.ONSET con ] ]. bellows_n2 := n_-_c-pl-nocnh_le & [ STEM < "bellow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bellows_n_1_rel", PHON.ONSET con ] ]. bellringer_n1 := n_-_c_le & [ STEM < "bellringer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bellringer_n_1_rel", PHON.ONSET con ] ]. belly_n1 := n_-_c_le & [ STEM < "belly" >, SYNSEM [ LKEYS.KEYREL.PRED "_belly_n_1_rel", PHON.ONSET con ] ]. belly_up_a1 := aj_-_i_le & [ STEM < "belly", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_belly+up_a_1_rel", PHON.ONSET con ] ]. belmont_n1 := n_-_pn-city_le & [ STEM < "Belmont" >, SYNSEM [ LKEYS.KEYREL.CARG "Belmont", PHON.ONSET con ] ]. belong_v1 := v_pp_e_le & [ STEM < "belong" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_belong_v_to_rel" ], PHON.ONSET con ] ]. belong_v2 := v_-_le & [ STEM < "belong" >, SYNSEM [ LKEYS.KEYREL.PRED "_belong_v_to_rel", PHON.ONSET con ] ]. belongings_n1 := n_-_c-pl-nocnh_le & [ STEM < "belonging" >, SYNSEM [ LKEYS.KEYREL.PRED "_belongings_n_1_rel", PHON.ONSET con ] ]. beloved_a1 := aj_-_i_le & [ STEM < "beloved" >, SYNSEM [ LKEYS.KEYREL.PRED "_beloved_a_1_rel", PHON.ONSET con ] ]. below := p_np_i-reg_le & [ STEM < "below" >, SYNSEM [ LKEYS.KEYREL.PRED _below_p_rel, PHON.ONSET con ] ]. below_adv1 := pp_-_i_le & [ STEM < "below" >, SYNSEM [ LKEYS.KEYREL.PRED _below_p_rel, PHON.ONSET con ] ]. belt_n1 := n_-_c_le & [ STEM < "belt" >, SYNSEM [ LKEYS.KEYREL.PRED "_belt_n_1_rel", PHON.ONSET con ] ]. belt_out_v1 := v_p-np_le & [ STEM < "belt" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_belt_v_out_rel" ], PHON.ONSET con ] ]. belt_v1 := v_np_le & [ STEM < "belt" >, SYNSEM [ LKEYS.KEYREL.PRED "_belt_v_1_rel", PHON.ONSET con ] ]. belville_n1 := n_-_pn-city_le & [ STEM < "Belville" >, SYNSEM [ LKEYS.KEYREL.CARG "Belville", PHON.ONSET con ] ]. belzec_n1 := n_-_pn_le & [ STEM < "Belzec" >, SYNSEM [ LKEYS.KEYREL.CARG "Belzec", PHON.ONSET con ] ]. ben_n1 := n_-_pn_le & [ STEM < "Ben" >, SYNSEM [ LKEYS.KEYREL.CARG "Ben", PHON.ONSET con ] ]. bench_n1 := n_-_c_le & [ STEM < "bench" >, SYNSEM [ LKEYS.KEYREL.PRED "_bench_n_1_rel", PHON.ONSET con ] ]. bend_n1 := n_-_c_le & [ STEM < "bend" >, SYNSEM [ LKEYS.KEYREL.PRED "_bend_n_1_rel", PHON.ONSET con ] ]. bend_v1 := v_np*_le & [ STEM < "bend" >, SYNSEM [ LKEYS.KEYREL.PRED "_bend_v_1_rel", PHON.ONSET con ] ]. beneath := p_np_i-reg_le & [ STEM < "beneath" >, SYNSEM [ LKEYS.KEYREL.PRED _beneath_p_rel, PHON.ONSET con ] ]. beneath_pp := pp_-_i_le & [ STEM < "beneath" >, SYNSEM [ LKEYS.KEYREL.PRED _beneath_p_rel, PHON.ONSET con ] ]. benedict_n1 := n_-_pn_le & [ STEM < "Benedict" >, SYNSEM [ LKEYS.KEYREL.CARG "Benedict", PHON.ONSET con ] ]. benedict_n2 := n_-_c_le & [ STEM < "benedict" >, SYNSEM [ LKEYS.KEYREL.PRED "_benedict_n_1_rel", PHON.ONSET con ] ]. benediction_n1 := n_-_mc_le & [ STEM < "benediction" >, SYNSEM [ LKEYS.KEYREL.PRED "_benediction_n_1_rel", PHON.ONSET con ] ]. beneficial_a1 := aj_-_i_le & [ STEM < "beneficial" >, SYNSEM [ LKEYS.KEYREL.PRED "_beneficial_a_1_rel", PHON.ONSET con ] ]. beneficiary_n1 := n_-_c_le & [ STEM < "beneficiary" >, SYNSEM [ LKEYS.KEYREL.PRED "_beneficiary_n_1_rel", PHON.ONSET con ] ]. benefit_n1 := n_pp_mc-of_le & [ STEM < "benefit" >, SYNSEM [ LKEYS.KEYREL.PRED "_benefit_n_of_rel", PHON.ONSET con ] ]. benefit_v1 := v_np_le & [ STEM < "benefit" >, SYNSEM [ LKEYS.KEYREL.PRED "_benefit_v_1_rel", PHON.ONSET con ] ]. benefit_v2 := v_pp_e_le & [ STEM < "benefit" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_benefit_v_from_rel" ], PHON.ONSET con ] ]. benevolence_n1 := n_-_mc_le & [ STEM < "benevolence" >, SYNSEM [ LKEYS.KEYREL.PRED "_benevolence_n_1_rel", PHON.ONSET con ] ]. benevolent_a1 := aj_-_i_le & [ STEM < "benevolent" >, SYNSEM [ LKEYS.KEYREL.PRED "_benevolent_a_1_rel", PHON.ONSET con ] ]. bengal_a1 := aj_-_i_le & [ STEM < "bengal" >, SYNSEM [ LKEYS.KEYREL.PRED "_bengal_a_1_rel", PHON.ONSET con ] ]. benign_a1 := aj_-_i_le & [ STEM < "benign" >, SYNSEM [ LKEYS.KEYREL.PRED "_benign_a_1_rel", PHON.ONSET con ] ]. benignant_a1 := aj_-_i_le & [ STEM < "benignant" >, SYNSEM [ LKEYS.KEYREL.PRED "_benignant_a_1_rel", PHON.ONSET con ] ]. benjamin_n1 := n_-_pn_le & [ STEM < "Benjamin" >, SYNSEM [ LKEYS.KEYREL.CARG "Benjamin", PHON.ONSET con ] ]. bennett_n1 := n_-_pn_le & [ STEM < "Bennett" >, SYNSEM [ LKEYS.KEYREL.CARG "Bennett", PHON.ONSET con ] ]. benny_n1 := n_-_pn_le & [ STEM < "Benny" >, SYNSEM [ LKEYS.KEYREL.CARG "Benny", PHON.ONSET con ] ]. bequeath_v1 := v_np-np_le & [ STEM < "bequeath" >, SYNSEM [ LKEYS.KEYREL.PRED "_bequeath_v_1_rel", PHON.ONSET con ] ]. bequeath_v2 := v_np_le & [ STEM < "bequeath" >, SYNSEM [ LKEYS.KEYREL.PRED "_bequeath_v_1_rel", PHON.ONSET con ] ]. bequest_n1 := n_-_c_le & [ STEM < "bequest" >, SYNSEM [ LKEYS.KEYREL.PRED "_bequest_n_1_rel", PHON.ONSET con ] ]. berate_v1 := v_np_le & [ STEM < "berate" >, SYNSEM [ LKEYS.KEYREL.PRED "_berate_v_1_rel", PHON.ONSET con ] ]. bereave_v1 := v_np-pp_e_le & [ STEM < "bereave" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_bereave_v_of_rel" ], PHON.ONSET con ] ]. berekvam := n_-_pn_le & [ STEM < "Berekvam" >, SYNSEM [ LKEYS.KEYREL.CARG "Berekvam", PHON.ONSET con ] ]. beret_n1 := n_-_c_le & [ STEM < "beret" >, SYNSEM [ LKEYS.KEYREL.PRED "_beret_n_1_rel", PHON.ONSET con ] ]. berg := n_-_pn_le & [ STEM < "Berg" >, SYNSEM [ LKEYS.KEYREL.CARG "Berg", PHON.ONSET con ] ]. bergaåntjern_n1 := n_-_pn_le & [ STEM < "Bergaåntjern" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergaåntjern", PHON.ONSET con ] ]. bergaåntjørn_n1 := n_-_pn_le & [ STEM < "Bergaåntjørn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergaåntjørn", PHON.ONSET con ] ]. berge_n1 := n_-_pn_le & [ STEM < "Berge" >, SYNSEM [ LKEYS.KEYREL.CARG "Berge", PHON.ONSET con ] ]. bergedalen := n_-_pn_le & [ STEM < "Bergedalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergedalen", PHON.ONSET con ] ]. bergedalsbekken := n_-_pn_le & [ STEM < "Bergedalsbekken" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergedalsbekken", PHON.ONSET con ] ]. bergen_n1 := n_-_pn-city_le & [ STEM < "Bergen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergen", PHON.ONSET con ] ]. bergman_n1 := n_-_pn_le & [ STEM < "Bergman" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergman", PHON.ONSET con ] ]. bergo_n1 := n_-_pn_le & [ STEM < "Bergo" >, SYNSEM [ LKEYS.KEYREL.CARG "Bergo", PHON.ONSET con ] ]. berkeley_n1 := n_-_pn-city_le & [ STEM < "Berkeley" >, SYNSEM [ LKEYS.KEYREL.CARG "Berkeley", PHON.ONSET con ] ]. berkåk_n1 := n_-_pn_le & [ STEM < "Berkåk" >, SYNSEM [ LKEYS.KEYREL.CARG "Berkåk", PHON.ONSET con ] ]. berlin_n1 := n_-_pn-city_le & [ STEM < "Berlin" >, SYNSEM [ LKEYS.KEYREL.CARG "Berlin", PHON.ONSET con ] ]. bernard_n1 := n_-_pn_le & [ STEM < "Bernard" >, SYNSEM [ LKEYS.KEYREL.CARG "Bernard", PHON.ONSET con ] ]. bernice_n1 := n_-_pn_le & [ STEM < "Bernice" >, SYNSEM [ LKEYS.KEYREL.CARG "Bernice", PHON.ONSET con ] ]. bernt_n1 := n_-_pn_le & [ STEM < "Bernt" >, SYNSEM [ LKEYS.KEYREL.CARG "Bernt", PHON.ONSET con ] ]. berry_n1 := n_-_c_le & [ STEM < "berry" >, SYNSEM [ LKEYS.KEYREL.PRED "_berry_n_1_rel", PHON.ONSET con ] ]. berry_n2 := n_-_pn_le & [ STEM < "Berry" >, SYNSEM [ LKEYS.KEYREL.CARG "Berry", PHON.ONSET con ] ]. bert_n1 := n_-_pn_le & [ STEM < "Bert" >, SYNSEM [ LKEYS.KEYREL.CARG "Bert", PHON.ONSET con ] ]. berteau_n1 := n_-_pn_le & [ STEM < "Berteau" >, SYNSEM [ LKEYS.KEYREL.CARG "Berteau", PHON.ONSET con ] ]. berth_n1 := n_-_c_le & [ STEM < "berth" >, SYNSEM [ LKEYS.KEYREL.PRED "_berth_n_1_rel", PHON.ONSET con ] ]. berth_v1 := v_np*_le & [ STEM < "berth" >, SYNSEM [ LKEYS.KEYREL.PRED "_berth_v_1_rel", PHON.ONSET con ] ]. bes_n1 := n_-_pn_le & [ STEM < "Bes" >, SYNSEM [ LKEYS.KEYREL.CARG "Bes", PHON.ONSET con ] ]. beset_v1 := v_np-pp_e_le & [ STEM < "beset" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_beset_v_with_rel" ], PHON.ONSET con ] ]. beset_v2 := v_np_le & [ STEM < "beset" >, SYNSEM [ LKEYS.KEYREL.PRED "_beset_v_with_rel", PHON.ONSET con ] ]. beside := p_np_i-reg_le & [ STEM < "beside" >, SYNSEM [ LKEYS.KEYREL.PRED _beside_p_rel, PHON.ONSET con ] ]. besides := p_np_i_le & [ STEM < "besides" >, SYNSEM [ LKEYS.KEYREL.PRED _besides_p_rel, PHON.ONSET con ] ]. besides_adv1 := av_-_s-cp-nsp-po_le & [ STEM < "besides" >, SYNSEM [ LKEYS.KEYREL.PRED "_besides_a_1_rel", PHON.ONSET con ] ]. besides_adv2 := av_-_s-cp-mc-pr_le & [ STEM < "besides" >, SYNSEM [ LKEYS.KEYREL.PRED "_besides_a_1_rel", PHON.ONSET con ] ]. besiege_v1 := v_np_le & [ STEM < "besiege" >, SYNSEM [ LKEYS.KEYREL.PRED "_besiege_v_1_rel", PHON.ONSET con ] ]. bessegen := n_-_pn_le & [ STEM < "Bessegen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bessegen", PHON.ONSET con ] ]. besseggen_n1 := n_-_pn-city_le & [ STEM < "Besseggen" >, SYNSEM [ LKEYS.KEYREL.CARG "Besseggen", PHON.ONSET con ] ]. besseter_n1 := n_-_pn_le & [ STEM < "Besseter" >, SYNSEM [ LKEYS.KEYREL.CARG "Besseter", PHON.ONSET con ] ]. bessheim_n1 := n_-_pn_le & [ STEM < "Bessheim" >, SYNSEM [ LKEYS.KEYREL.CARG "Bessheim", PHON.ONSET con ] ]. besshø_n1 := n_-_pn_le & [ STEM < "Besshø" >, SYNSEM [ LKEYS.KEYREL.CARG "Besshø", PHON.ONSET con ] ]. besstrond_n1 := n_-_pn_le & [ STEM < "Besstrond" >, SYNSEM [ LKEYS.KEYREL.CARG "Besstrond", PHON.ONSET con ] ]. besstrondrundhø_n1 := n_-_pn_le & [ STEM < "Besstrondrundhø" >, SYNSEM [ LKEYS.KEYREL.CARG "Besstrondrundhø", PHON.ONSET con ] ]. bessvastn_n1 := n_-_pn_le & [ STEM < "Bessvastn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bessvastn", PHON.ONSET con ] ]. bessvatn := n_-_pn_le & [ STEM < "Bessvatn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bessvatn", PHON.ONSET con ] ]. bessvatnet := n_-_pn_le & [ STEM < "Bessvatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Bessvatnet", PHON.ONSET con ] ]. best-western_n1 := n_-_c-nm_le & [ STEM < "Best", "Western" >, SYNSEM [ LKEYS.KEYREL.CARG "Best-Western", PHON.ONSET con ] ]. best_a1 := aj_-_i-sup_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_good_a_for_rel", PHON.ONSET con ] ]. best_a4 := aj_pp-vp_i-it_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_best_a_1_rel", PHON.ONSET con ] ]. best_adv1 := av_-_i-vp-pr_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_best_a_1_rel", PHON.ONSET con ] ]. best_adv2 := av_-_i-vp-po-nmb_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_best_a_1_rel", PHON.ONSET con ] ]. best_known_a1 := aj_-_i-sup_le & [ STEM < "best", "known" >, SYNSEM [ LKEYS.KEYREL.PRED "_well+known_a_1_rel", PHON.ONSET con ] ]. best_n1 := n_-_c-pl-def_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_best_n_1_rel", PHON.ONSET con ] ]. best_n2 := n_-_c-poss_le & [ STEM < "best" >, SYNSEM [ LKEYS.KEYREL.PRED "_best_n_1_rel", PHON.ONSET con ] ]. best_of_all_adv1 := av_-_i-vp-po_le & [ STEM < "best", "of", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_best+of+all_a_1_rel", PHON.ONSET con ] ]. best_off_a1 := aj_-_i-sup_le & [ STEM < "best", "off" >, SYNSEM [ LKEYS.KEYREL.PRED "_well+off_a_1_rel", PHON.ONSET con ] ]. best_selling_a1 := aj_-_i-att_le & [ STEM < "best", "selling" >, SYNSEM [ LKEYS.KEYREL.PRED "_best+selling_a_1_rel", PHON.ONSET con ] ]. best_selling_a2 := aj_-_i-att_le & [ STEM < "best-", "selling" >, SYNSEM [ LKEYS.KEYREL.PRED "_best+selling_a_1_rel", PHON.ONSET con ] ]. bestow_v1 := v_np-pp_e_le & [ STEM < "bestow" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_bestow_v_on_rel" ], PHON.ONSET con ] ]. bestow_v2 := v_np_le & [ STEM < "bestow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bestow_v_on_rel", PHON.ONSET con ] ]. bestride_v1 := v_np_le & [ STEM < "bestride" >, SYNSEM [ LKEYS.KEYREL.PRED "_bestride_v_1_rel", PHON.ONSET con ] ]. bestrond_n1 := n_-_pn_le & [ STEM < "Bestrond" >, SYNSEM [ LKEYS.KEYREL.CARG "Bestrond", PHON.ONSET con ] ]. bestseller_n1 := n_-_c_le & [ STEM < "bestseller" >, SYNSEM [ LKEYS.KEYREL.PRED "_bestseller_n_1_rel", PHON.ONSET con ] ]. bestseller_n2 := n_-_c_le & [ STEM < "best-", "seller" >, SYNSEM [ LKEYS.KEYREL.PRED "_bestseller_n_1_rel", PHON.ONSET con ] ]. bet_n1 := n_-_c_le & [ STEM < "bet" >, SYNSEM [ LKEYS.KEYREL.PRED "_bet_n_1_rel", PHON.ONSET con ] ]. bet_on_v1 := v_np*-pp_e_le & [ STEM < "bet" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_bet_v_on_rel" ], PHON.ONSET con ] ]. bet_v1 := v_np-np-cp_le & [ STEM < "bet" >, SYNSEM [ LKEYS.KEYREL.PRED "_bet_v_on_rel", PHON.ONSET con ] ]. bet_v2 := v_np_le & [ STEM < "bet" >, SYNSEM [ LKEYS.KEYREL.PRED "_bet_v_1_rel", PHON.ONSET con ] ]. beta_n1 := n_-_pn_le & [ STEM < "Beta" >, SYNSEM [ LKEYS.KEYREL.CARG "Beta", PHON.ONSET con ] ]. beta_n2 := n_-_m_le & [ STEM < "beta" >, SYNSEM [ LKEYS.KEYREL.PRED "_beta_n_1_rel", PHON.ONSET con ] ]. betake_v1 := v_np_le & [ STEM < "betake" >, SYNSEM [ LKEYS.KEYREL.PRED "_betake_v_1_rel", PHON.ONSET con ] ]. beth_n1 := n_-_pn_le & [ STEM < "Beth" >, SYNSEM [ LKEYS.KEYREL.CARG "Beth", PHON.ONSET con ] ]. betoken_v1 := v_np_le & [ STEM < "betoken" >, SYNSEM [ LKEYS.KEYREL.PRED "_betoken_v_1_rel", PHON.ONSET con ] ]. betray_v1 := v_np-pp*_to_le & [ STEM < "betray" >, SYNSEM [ LKEYS.KEYREL.PRED "_betray_v_to_rel", PHON.ONSET con ] ]. betrayal_n1 := n_-_mc_le & [ STEM < "betrayal" >, SYNSEM [ LKEYS.KEYREL.PRED "_betrayal_n_1_rel", PHON.ONSET con ] ]. betsy_n1 := n_-_pn_le & [ STEM < "Betsy" >, SYNSEM [ LKEYS.KEYREL.CARG "Betsy", PHON.ONSET con ] ]. better-than-average_a1 := aj_-_i_le & [ STEM < "better-", "than-", "average" >, SYNSEM [ LKEYS.KEYREL.PRED "_better-than-average_a_1_rel", PHON.ONSET con ] ]. better-than-average_a2 := aj_-_i_le & [ STEM < "better", "than", "average" >, SYNSEM [ LKEYS.KEYREL.PRED "_better-than-average_a_1_rel", PHON.ONSET con ] ]. better_a1 := aj_pp_i-cmp_le & [ STEM < "better" >, SYNSEM [ LKEYS.KEYREL.PRED "_good_a_for_rel", PHON.ONSET con ] ]. better_adv1 := av_-_i-vp-po_le & [ STEM < "better" >, SYNSEM [ LKEYS.KEYREL.PRED "_better_a_1_rel", PHON.ONSET con ] ]. better_aux := v_vp_mdl-p-niv_le & [ STEM < "better" >, SYNSEM [ LKEYS.KEYREL.PRED _had+better_v_modal_rel, PHON.ONSET con ] ]. better_known_a1 := aj_pp_i-cmp_le & [ STEM < "better", "known" >, SYNSEM [ LKEYS.KEYREL.PRED "_well+known_a_1_rel", PHON.ONSET con ] ]. better_off_a1 := aj_pp_i-cmp_le & [ STEM < "better", "off" >, SYNSEM [ LKEYS.KEYREL.PRED "_well+off_a_1_rel", PHON.ONSET con ] ]. better_vdeg := av_-_dg-v_le & [ STEM < "better" >, SYNSEM [ LKEYS.KEYREL.PRED "_better_x_deg_rel", PHON.ONSET con ] ]. betters_n1 := n_-_c-pl-nocnh_le & [ STEM < "better" >, SYNSEM [ LKEYS.KEYREL.PRED "_betters_n_1_rel", PHON.ONSET con ] ]. betty_n1 := n_-_pn_le & [ STEM < "Betty" >, SYNSEM [ LKEYS.KEYREL.CARG "Betty", PHON.ONSET con ] ]. between := p_np_i_le & [ STEM < "between" >, SYNSEM [ LKEYS.KEYREL.PRED _between_p_rel, PHON.ONSET con ] ]. between_prtcl := p_np_ptcl_le & [ STEM < "between" >, SYNSEM [ LKEYS.KEYREL.PRED _between_p_sel_rel, PHON.ONSET con ] ]. betwixt := p_np_i_le & [ STEM < "betwixt" >, SYNSEM [ LKEYS.KEYREL.PRED _betwixt_p_rel, PHON.ONSET con ] ]. beverage_n1 := n_-_c_le & [ STEM < "beverage" >, SYNSEM [ LKEYS.KEYREL.PRED "_beverage_n_1_rel", PHON.ONSET con ] ]. beware_v1 := v_np*_nfin_le & [ STEM < "beware" >, SYNSEM [ LKEYS.KEYREL.PRED "_beware_v_1_rel", PHON.ONSET con ] ]. beware_v2 := v_pp_e-nfin_le & [ STEM < "beware" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_beware_v_1_rel" ], PHON.ONSET con ] ]. bewilder_v1 := v_np_le & [ STEM < "bewilder" >, SYNSEM [ LKEYS.KEYREL.PRED "_bewilder_v_1_rel", PHON.ONSET con ] ]. bewitch_v1 := v_np_le & [ STEM < "bewitch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bewitch_v_1_rel", PHON.ONSET con ] ]. beyond := p_np_i-reg_le & [ STEM < "beyond" >, SYNSEM [ LKEYS.KEYREL.PRED _beyond_p_rel, PHON.ONSET con ] ]. beyond_nom := n_-_ad-pl_le & [ STEM < "beyond" >, SYNSEM [ LKEYS [ ALT2KEYREL.PRED _beyond_p_rel, KEYREL.PRED place_n_rel ], PHON.ONSET con ] ]. bhiksuni_n1 := n_-_pn_le & [ STEM < "Bhiksuni" >, SYNSEM [ LKEYS.KEYREL.CARG "Bhiksuni", PHON.ONSET con ] ]. biaggi_n1 := n_-_pn_le & [ STEM < "Biaggi" >, SYNSEM [ LKEYS.KEYREL.CARG "Biaggi", PHON.ONSET con ] ]. bias_n1 := n_-_mc_le & [ STEM < "bias" >, SYNSEM [ LKEYS.KEYREL.PRED "_bias_n_1_rel", PHON.ONSET con ] ]. bias_v1 := v_np-pp_e_le & [ STEM < "bias" >, SYNSEM [ LKEYS [ --OCOMPKEY _against_p_sel_rel, KEYREL.PRED "_bias_v_against_rel" ], PHON.ONSET con ] ]. bias_v2 := v_np-pp_e_le & [ STEM < "bias" >, SYNSEM [ LKEYS [ --OCOMPKEY _towards_p_sel_rel, KEYREL.PRED "_bias_v_towards_rel" ], PHON.ONSET con ] ]. bias_v3 := v_np_le & [ STEM < "bias" >, SYNSEM [ LKEYS.KEYREL.PRED "_bias_v_1_rel", PHON.ONSET con ] ]. biathlon_n1 := n_-_c_le & [ STEM < "biathlon" >, SYNSEM [ LKEYS.KEYREL.PRED "_biathlon_n_1_rel", PHON.ONSET con ] ]. bible_n1 := n_-_c_le & [ STEM < "bible" >, SYNSEM [ LKEYS.KEYREL.PRED "_bible_n_1_rel", PHON.ONSET con ] ]. biblical_a1 := aj_-_i_le & [ STEM < "biblical" >, SYNSEM [ LKEYS.KEYREL.PRED "_biblical_a_1_rel", PHON.ONSET con ] ]. bibliographer_n1 := n_-_c_le & [ STEM < "bibliographer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bibliographer_n_1_rel", PHON.ONSET con ] ]. bicycle_n1 := n_-_c_le & [ STEM < "bicycle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bicycle_n_1_rel", PHON.ONSET con ] ]. bicycle_v1 := v_-_le & [ STEM < "bicycle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bicycle_v_1_rel", PHON.ONSET con ] ]. bicyclist_n1 := n_-_c_le & [ STEM < "bicyclist" >, SYNSEM [ LKEYS.KEYREL.PRED "_bicyclist_n_1_rel", PHON.ONSET con ] ]. bid_n1 := n_-_c_le & [ STEM < "bid" >, SYNSEM [ LKEYS.KEYREL.PRED "_bid_n_1_rel", PHON.ONSET con ] ]. bid_v1 := v_np-vp_oeq_le & [ STEM < "bid" >, SYNSEM [ LKEYS.KEYREL.PRED "_bid_v_1_rel", PHON.ONSET con ] ]. bid_v2 := v_np_le & [ STEM < "bid" >, SYNSEM [ LKEYS.KEYREL.PRED "_bid_v_1_rel", PHON.ONSET con ] ]. bid_v3 := v_vp_seq_le & [ STEM < "bid" >, SYNSEM [ LKEYS.KEYREL.PRED "_bid_v_1_rel", PHON.ONSET con ] ]. bidder_n1 := n_-_c_le & [ STEM < "bidder" >, SYNSEM [ LKEYS.KEYREL.PRED "_bidder_n_1_rel", PHON.ONSET con ] ]. bielefeld_n1 := n_-_pn-city_le & [ STEM < "Bielefeld" >, SYNSEM [ LKEYS.KEYREL.CARG "Bielefeld", PHON.ONSET con ] ]. big_a1 := aj_-_i_le & [ STEM < "big" >, SYNSEM [ LKEYS.KEYREL.PRED "_big_a_1_rel", PHON.ONSET con ] ]. big_ass_a1 := aj_-_i_le & [ STEM < "big", "ass" >, SYNSEM [ LKEYS.KEYREL.PRED "_big+ass_a_1_rel", PHON.ONSET con ] ]. big_mac_n1 := n_-_c_le & [ STEM < "big", "mac" >, SYNSEM [ LKEYS.KEYREL.PRED "_big+mac_n_1_rel", PHON.ONSET con ] ]. bigger_a1 := aj_pp_i-cmp_le & [ STEM < "bigger" >, SYNSEM [ LKEYS.KEYREL.PRED "_big_a_1_rel", PHON.ONSET con ] ]. biggest := aj_-_i-sup_le & [ STEM < "biggest" >, SYNSEM [ LKEYS.KEYREL.PRED "_big_a_1_rel", PHON.ONSET con ] ]. bike_n1 := n_-_c_le & [ STEM < "bike" >, SYNSEM [ LKEYS.KEYREL.PRED "_bike_n_1_rel", PHON.ONSET con ] ]. bike_v1 := v_pp*_dir_le & [ STEM < "bike" >, SYNSEM [ LKEYS.KEYREL.PRED "_bike_v_1_rel", PHON.ONSET con ] ]. biker_n1 := n_-_c_le & [ STEM < "biker" >, SYNSEM [ LKEYS.KEYREL.PRED "_biker_n_1_rel", PHON.ONSET con ] ]. bikini_n1 := n_-_c_le & [ STEM < "bikini" >, SYNSEM [ LKEYS.KEYREL.PRED "_bikini_n_1_rel", PHON.ONSET con ] ]. bilateral_a1 := aj_-_i_le & [ STEM < "bilateral" >, SYNSEM [ LKEYS.KEYREL.PRED "_bilateral_a_1_rel", PHON.ONSET con ] ]. bilberry_n1 := n_-_c_le & [ STEM < "bilberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_bilberry_n_1_rel", PHON.ONSET con ] ]. bile_n1 := n_-_m_le & [ STEM < "bile" >, SYNSEM [ LKEYS.KEYREL.PRED "_bile_n_1_rel", PHON.ONSET con ] ]. biliary_a1 := aj_-_i_le & [ STEM < "biliary" >, SYNSEM [ LKEYS.KEYREL.PRED "_biliary_a_1_rel", PHON.ONSET con ] ]. bilk_of_v1 := v_np-pp_e_le & [ STEM < "bilk" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_bilk_v_of_rel" ], PHON.ONSET con ] ]. bilk_v1 := v_np_le & [ STEM < "bilk" >, SYNSEM [ LKEYS.KEYREL.PRED "_bilk_v_of_rel", PHON.ONSET con ] ]. bill := n_-_pn_le & [ STEM < "Bill" >, SYNSEM [ LKEYS.KEYREL.CARG "Bill", PHON.ONSET con ] ]. bill_for_v1 := v_np-pp_e_le & [ STEM < "bill" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_bill_v_for_rel" ], PHON.ONSET con ] ]. bill_n1 := n_-_c_le & [ STEM < "bill" >, SYNSEM [ LKEYS.KEYREL.PRED "_bill_n_1_rel", PHON.ONSET con ] ]. bill_v1 := v_np_le & [ STEM < "bill" >, SYNSEM [ LKEYS.KEYREL.PRED "_bill_v_for_rel", PHON.ONSET con ] ]. billag_n1 := n_-_pn_le & [ STEM < "Billag" >, SYNSEM [ LKEYS.KEYREL.CARG "Billag", PHON.ONSET con ] ]. billboard_n1 := n_-_c_le & [ STEM < "billboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_billboard_n_1_rel", PHON.ONSET con ] ]. billet_n1 := n_-_c_le & [ STEM < "billet" >, SYNSEM [ LKEYS.KEYREL.PRED "_billet_n_1_rel", PHON.ONSET con ] ]. billet_v1 := v_np_noger_le & [ STEM < "billet" >, SYNSEM [ LKEYS.KEYREL.PRED "_billet_v_cause_rel", PHON.ONSET con ] ]. billet_v2 := v_-_unacc_le & [ STEM < "billet" >, SYNSEM [ LKEYS.KEYREL.PRED "_billet_v_1_rel", PHON.ONSET con ] ]. billfish_n1 := n_-_c_le & [ STEM < "billfish" >, SYNSEM [ LKEYS.KEYREL.PRED "_billfish_n_1_rel", PHON.ONSET con ] ]. billiards_n1 := n_-_c-pl_le & [ STEM < "billiard" >, SYNSEM [ LKEYS.KEYREL.PRED "_billiards_n_1_rel", PHON.ONSET con ] ]. billing_n1 := n_-_mc_le & [ STEM < "billing" >, SYNSEM [ LKEYS.KEYREL.PRED "_billing_n_1_rel", PHON.ONSET con ] ]. billion := aj_-_i-crd-bln_le & [ STEM < "billion" >, SYNSEM [ LKEYS.KEYREL.CARG "1000000000", PHON.ONSET con ] ]. billion_comps := aj_np_i-crd-bln_le & [ STEM < "billion" >, SYNSEM [ LKEYS.KEYREL.CARG "1000000000", PHON.ONSET con ] ]. billions_n1 := n_-_c-pl-num_le & [ STEM < "billion" >, SYNSEM [ LKEYS.KEYREL.CARG "1000000000", PHON.ONSET con ] ]. billions_n2 := n_pp_c-pl-crd_le & [ STEM < "billions" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.CARG "1000000000" ], PHON.ONSET con ] ]. billow_n1 := n_-_c_le & [ STEM < "billow" >, SYNSEM [ LKEYS.KEYREL.PRED "_billow_n_1_rel", PHON.ONSET con ] ]. billow_v1 := v_-_le & [ STEM < "billow" >, SYNSEM [ LKEYS.KEYREL.PRED "_billow_v_1_rel", PHON.ONSET con ] ]. billy_n1 := n_-_pn_le & [ STEM < "Billy" >, SYNSEM [ LKEYS.KEYREL.CARG "Billy", PHON.ONSET con ] ]. biloxi_n1 := n_-_pn-city_le & [ STEM < "Biloxi" >, SYNSEM [ LKEYS.KEYREL.CARG "Biloxi", PHON.ONSET con ] ]. bilselskap_n1 := n_-_pn_le & [ STEM < "Bilselskap" >, SYNSEM [ LKEYS.KEYREL.CARG "Bilselskap", PHON.ONSET con ] ]. bimonthly_adv := av_-_i-vp_le & [ STEM < "bimonthly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bimonth_a_1_rel", PHON.ONSET con ] ]. bimonthly_isect := aj_-_i_le & [ STEM < "bimonthly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bimonth_a_1_rel", PHON.ONSET con ] ]. bin_n1 := n_-_c_le & [ STEM < "bin" >, SYNSEM [ LKEYS.KEYREL.PRED "_bin_n_1_rel", PHON.ONSET con ] ]. binary_a1 := aj_-_i_le & [ STEM < "binary" >, SYNSEM [ LKEYS.KEYREL.PRED "_binary_a_1_rel", PHON.ONSET con ] ]. bind_n1 := n_-_c_le & [ STEM < "bind" >, SYNSEM [ LKEYS.KEYREL.PRED "_bind_n_1_rel", PHON.ONSET con ] ]. bind_v1 := v_np-pp*_to_le & [ STEM < "bind" >, SYNSEM [ LKEYS.KEYREL.PRED "_bind_v_to_rel", PHON.ONSET con ] ]. binder_n1 := n_-_c_le & [ STEM < "binder" >, SYNSEM [ LKEYS.KEYREL.PRED "_binder_n_1_rel", PHON.ONSET con ] ]. bindery_n1 := n_-_c_le & [ STEM < "bindery" >, SYNSEM [ LKEYS.KEYREL.PRED "_bindery_n_1_rel", PHON.ONSET con ] ]. binding_a1 := aj_-_i_le & [ STEM < "binding" >, SYNSEM [ LKEYS.KEYREL.PRED "_binding_a_1_rel", PHON.ONSET con ] ]. binding_n1 := n_-_c-nocnh_le & [ STEM < "binding" >, SYNSEM [ LKEYS.KEYREL.PRED "_binding_n_1_rel", PHON.ONSET con ] ]. bingo_n1 := n_-_c_le & [ STEM < "bingo" >, SYNSEM [ LKEYS.KEYREL.PRED "_bingo_n_1_rel", PHON.ONSET con ] ]. binoculars_n1 := n_-_c-pl_le & [ STEM < "binocular" >, SYNSEM [ LKEYS.KEYREL.PRED "_binoculars_n_1_rel", PHON.ONSET con ] ]. biochemist_n1 := n_-_c_le & [ STEM < "biochemist" >, SYNSEM [ LKEYS.KEYREL.PRED "_biochemist_n_1_rel", PHON.ONSET con ] ]. biographer_n1 := n_-_c_le & [ STEM < "biographer" >, SYNSEM [ LKEYS.KEYREL.PRED "_biographer_n_1_rel", PHON.ONSET con ] ]. biography_n1 := n_-_c_le & [ STEM < "biography" >, SYNSEM [ LKEYS.KEYREL.PRED "_biography_n_1_rel", PHON.ONSET con ] ]. biological_isect := aj_-_i_le & [ STEM < "biological" >, SYNSEM [ LKEYS.KEYREL.PRED "_biological_a_1_rel", PHON.ONSET con ] ]. biologically := av_-_i-vp_le & [ STEM < "biologically" >, SYNSEM [ LKEYS.KEYREL.PRED "_biological_a_1_rel", PHON.ONSET con ] ]. biologist_n1 := n_-_c_le & [ STEM < "biologist" >, SYNSEM [ LKEYS.KEYREL.PRED "_biologist_n_1_rel", PHON.ONSET con ] ]. biology_n1 := n_-_m_le & [ STEM < "biology" >, SYNSEM [ LKEYS.KEYREL.PRED "_biology_n_1_rel", PHON.ONSET con ] ]. biomedicine_n1 := n_-_m_le & [ STEM < "biomedicine" >, SYNSEM [ LKEYS.KEYREL.PRED "_biomedicine_n_1_rel", PHON.ONSET con ] ]. biopsy_n1 := n_-_mc_le & [ STEM < "biopsy" >, SYNSEM [ LKEYS.KEYREL.PRED "_biopsy_n_1_rel", PHON.ONSET con ] ]. biosphere_n1 := n_-_c_le & [ STEM < "biosphere" >, SYNSEM [ LKEYS.KEYREL.PRED "_biosphere_n_1_rel", PHON.ONSET con ] ]. biotech_n1 := n_-_m_le & [ STEM < "biotech" >, SYNSEM [ LKEYS.KEYREL.PRED "_biotech_n_1_rel", PHON.ONSET con ] ]. biped_n1 := n_-_c_le & [ STEM < "biped" >, SYNSEM [ LKEYS.KEYREL.PRED "_biped_n_1_rel", PHON.ONSET con ] ]. bipedal_a1 := aj_-_i_le & [ STEM < "bipedal" >, SYNSEM [ LKEYS.KEYREL.PRED "_bipedal_a_1_rel", PHON.ONSET con ] ]. birch_n1 := n_-_mc_le & [ STEM < "birch" >, SYNSEM [ LKEYS.KEYREL.PRED "_birch_n_1_rel", PHON.ONSET con ] ]. birchbark_n1 := n_-_m_le & [ STEM < "birchbark" >, SYNSEM [ LKEYS.KEYREL.PRED "_birchbark_n_1_rel", PHON.ONSET con ] ]. birchwood_n1 := n_-_mc_le & [ STEM < "birchwood" >, SYNSEM [ LKEYS.KEYREL.PRED "_birchwood_n_1_rel", PHON.ONSET con ] ]. bird_n1 := n_-_c_le & [ STEM < "bird" >, SYNSEM [ LKEYS.KEYREL.PRED "_bird_n_1_rel", PHON.ONSET con ] ]. birdland_n1 := n_-_pn_le & [ STEM < "Birdland" >, SYNSEM [ LKEYS.KEYREL.CARG "Birdland", PHON.ONSET con ] ]. birdlife_n1 := n_-_m_le & [ STEM < "birdlife" >, SYNSEM [ LKEYS.KEYREL.PRED "_birdlife_n_1_rel", PHON.ONSET con ] ]. birds_eye_a1 := aj_-_i-att_le & [ STEM < "bird", "'s", "eye" >, SYNSEM [ LKEYS.KEYREL.PRED "_birds+eye_a_1_rel", PHON.ONSET con ] ]. birds_eye_a2 := aj_-_i-att_le & [ STEM < "birds", "eye" >, SYNSEM [ LKEYS.KEYREL.PRED "_birds+eye_a_1_rel", PHON.ONSET con ] ]. birds_eye_a3 := aj_-_i-att_le & [ STEM < "bird", "'s-", "eye" >, SYNSEM [ LKEYS.KEYREL.PRED "_birds+eye_a_1_rel", PHON.ONSET con ] ]. birds_eye_a4 := aj_-_i-att_le & [ STEM < "birds-", "eye" >, SYNSEM [ LKEYS.KEYREL.PRED "_birds+eye_a_1_rel", PHON.ONSET con ] ]. birds_eye_a5 := aj_-_i-att_le & [ STEM < "bird's-", "eye" >, SYNSEM [ LKEYS.KEYREL.PRED "_birds+eye_a_1_rel", PHON.ONSET con ] ]. birdwatch_v1 := v_-_le & [ STEM < "birdwatch" >, SYNSEM [ LKEYS.KEYREL.PRED "_birdwatch_v_1_rel", PHON.ONSET con ] ]. birmingham_n1 := n_-_pn-city_le & [ STEM < "Birmingham" >, SYNSEM [ LKEYS.KEYREL.CARG "Birmingham", PHON.ONSET con ] ]. birth_n1 := n_-_mc_le & [ STEM < "birth" >, SYNSEM [ LKEYS.KEYREL.PRED "_birth_n_1_rel", PHON.ONSET con ] ]. birthcontrol_n1 := n_-_mc_le & [ STEM < "birthcontrol" >, SYNSEM [ LKEYS.KEYREL.PRED "_birthcontrol_n_1_rel", PHON.ONSET con ] ]. birthday_n1 := n_-_c_le & [ STEM < "birthday" >, SYNSEM [ LKEYS.KEYREL.PRED "_birthday_n_1_rel", PHON.ONSET con ] ]. birthplace_n1 := n_-_c_le & [ STEM < "birthplace" >, SYNSEM [ LKEYS.KEYREL.PRED "_birthplace_n_1_rel", PHON.ONSET con ] ]. birv_nd := n_-_pn_le & [ STEM < "Birv" >, SYNSEM [ LKEYS.KEYREL.CARG "Birv", PHON.ONSET con ] ]. biscuit_n1 := n_-_c_le & [ STEM < "biscuit" >, SYNSEM [ LKEYS.KEYREL.PRED "_biscuit_n_1_rel", PHON.ONSET con ] ]. biscuit_n2 := n_-_c_le & [ STEM < "bisquit" >, SYNSEM [ LKEYS.KEYREL.PRED "_biscuit_n_1_rel", PHON.ONSET con ] ]. bishop_n1 := n_-_c_le & [ STEM < "bishop" >, SYNSEM [ LKEYS.KEYREL.PRED "_bishop_n_1_rel", PHON.ONSET con ] ]. bishop_n2 := n_-_pn_le & [ STEM < "Bishop" >, SYNSEM [ LKEYS.KEYREL.CARG "Bishop", PHON.ONSET con ] ]. bismarck_n1 := n_-_pn_le & [ STEM < "Bismarck" >, SYNSEM [ LKEYS.KEYREL.CARG "Bismarck", PHON.ONSET con ] ]. bismo_n1 := n_-_pn_le & [ STEM < "Bismo" >, SYNSEM [ LKEYS.KEYREL.CARG "Bismo", PHON.ONSET con ] ]. bismuth_n1 := n_-_m_le & [ STEM < "bismuth" >, SYNSEM [ LKEYS.KEYREL.PRED "_bismuth_n_1_rel", PHON.ONSET con ] ]. bisque_n1 := n_-_mc-col_le & [ STEM < "bisque" >, SYNSEM [ LKEYS.KEYREL.PRED "_bisque_n_1_rel", PHON.ONSET con ] ]. bistro_n1 := n_-_c_le & [ STEM < "bistro" >, SYNSEM [ LKEYS.KEYREL.PRED "_bistro_n_1_rel", PHON.ONSET con ] ]. bit_n1 := n_-_c-meas_le & [ STEM < "bit" >, SYNSEM [ LKEYS.KEYREL.PRED "_bit_n_1_rel", PHON.ONSET con ] ]. bitch_n1 := n_-_c-ns_le & [ STEM < "bitch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitch_n_1_rel", PHON.ONSET con ] ]. bitch_v1 := v_pp*-cp_le & [ STEM < "bitch" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_bitch_v_to_rel" ], PHON.ONSET con ] ]. bitch_v2 := v_-_le & [ STEM < "bitch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitch_v_to_rel", PHON.ONSET con ] ]. bite_n1 := n_pp_c-of_le & [ STEM < "bite" >, SYNSEM [ LKEYS.KEYREL.PRED "_bite_n_of_rel", PHON.ONSET con ] ]. bite_v1 := v_np*_le & [ STEM < "bite" >, SYNSEM [ LKEYS.KEYREL.PRED "_bite_v_1_rel", PHON.ONSET con ] ]. bitigrenda_n1 := n_-_pn_le & [ STEM < "Bitigrenda" >, SYNSEM [ LKEYS.KEYREL.CARG "Bitigrenda", PHON.ONSET con ] ]. bitihorn_n1 := n_-_pn_le & [ STEM < "Bitihorn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bitihorn", PHON.ONSET con ] ]. bitter_isect := aj_-_i_le & [ STEM < "bitter" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitter_a_1_rel", PHON.ONSET con ] ]. bitterer := aj_pp_i-cmp_le & [ STEM < "bitterer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitter_a_1_rel", PHON.ONSET con ] ]. bitterest_a1 := aj_-_i-sup_le & [ STEM < "bitterest" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitter_a_1_rel", PHON.ONSET con ] ]. bitterfeld_n1 := n_-_pn-city_le & [ STEM < "Bitterfeld" >, SYNSEM [ LKEYS.KEYREL.CARG "Bitterfeld", PHON.ONSET con ] ]. bitterly_adv1 := av_-_i-vp_le & [ STEM < "bitterly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitter_a_1_rel", PHON.ONSET con ] ]. bitterly_vdeg := av_-_dg-v_le & [ STEM < "bitterly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitterly_x_deg_rel", PHON.ONSET con ] ]. bitterness_n1 := n_-_m_le & [ STEM < "bitterness" >, SYNSEM [ LKEYS.KEYREL.PRED "_bitterness_n_1_rel", PHON.ONSET con ] ]. bivalve_n1 := n_-_c_le & [ STEM < "bivalve" >, SYNSEM [ LKEYS.KEYREL.PRED "_bivalve_n_1_rel", PHON.ONSET con ] ]. bivouac_n1 := n_-_mc_le & [ STEM < "bivouac" >, SYNSEM [ LKEYS.KEYREL.PRED "_bivouac_n_1_rel", PHON.ONSET con ] ]. bivouac_v1 := v_-_le & [ STEM < "bivouac" >, SYNSEM [ LKEYS.KEYREL.PRED "_bivouac_v_1_rel", PHON.ONSET con ] ]. bizarre_a1 := aj_-_i_le & [ STEM < "bizarre" >, SYNSEM [ LKEYS.KEYREL.PRED "_bizarre_a_1_rel", PHON.ONSET con ] ]. bjorn_n1 := n_-_pn_le & [ STEM < "Bjorn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjorn", PHON.ONSET con ] ]. bjorndalsnuten := n_-_pn_le & [ STEM < "Bjorndalsnuten" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjorndalsnuten", PHON.ONSET con ] ]. bjornhollia := n_-_pn_le & [ STEM < "Bjornhollia" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjornhollia", PHON.ONSET con ] ]. bjømbøltjørna_n1 := n_-_pn_le & [ STEM < "Bjømbøltjørna" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjømbøltjørna", PHON.ONSET con ] ]. bjønnstigvarden := n_-_pn_le & [ STEM < "Bjønnstigvarden" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjønnstigvarden", PHON.ONSET con ] ]. bjørg_n1 := n_-_pn_le & [ STEM < "Bjørg" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørg", PHON.ONSET con ] ]. bjørgen_n1 := n_-_pn_le & [ STEM < "Bjørgen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørgen", PHON.ONSET con ] ]. bjørgo := n_-_pn_le & [ STEM < "Bjørgo" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørgo", PHON.ONSET con ] ]. bjørkenever_n1 := n_-_pn_le & [ STEM < "Bjørkenever" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørkenever", PHON.ONSET con ] ]. bjørn_n1 := n_-_pn_le & [ STEM < "Bjørn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørn", PHON.ONSET con ] ]. bjørnabyksefoss := n_-_pn_le & [ STEM < "Bjørnabyksefoss" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnabyksefoss", PHON.ONSET con ] ]. bjørnaråvatnet_n1 := n_-_pn_le & [ STEM < "Bjørnaråvatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnaråvatnet", PHON.ONSET con ] ]. bjørnbøltjørna_n1 := n_-_pn_le & [ STEM < "Bjørnbøltjørna" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnbøltjørna", PHON.ONSET con ] ]. bjørndal := n_-_pn_le & [ STEM < "Bjørndal" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørndal", PHON.ONSET con ] ]. bjørndalen := n_-_pn_le & [ STEM < "Bjørndalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørndalen", PHON.ONSET con ] ]. bjørndalsnuten := n_-_pn_le & [ STEM < "Bjørndalsnuten" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørndalsnuten", PHON.ONSET con ] ]. bjørndalstindane := n_-_pn_le & [ STEM < "Bjørndalstindane" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørndalstindane", PHON.ONSET con ] ]. bjørndalstinden := n_-_pn_le & [ STEM < "Bjørndalstinden" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørndalstinden", PHON.ONSET con ] ]. bjørneberget_n1 := n_-_pn_le & [ STEM < "Bjørneberget" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørneberget", PHON.ONSET con ] ]. bjørneggen_n1 := n_-_pn_le & [ STEM < "Bjørneggen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørneggen", PHON.ONSET con ] ]. bjørnhaugen_n1 := n_-_pn_le & [ STEM < "Bjørnhaugen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnhaugen", PHON.ONSET con ] ]. bjørnhollia := n_-_pn_le & [ STEM < "Bjørnhollia" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnhollia", PHON.ONSET con ] ]. bjørnstigen_n1 := n_-_pn_le & [ STEM < "Bjørnstigen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bjørnstigen", PHON.ONSET con ] ]. black+bottom_n1 := n_-_pn_le & [ STEM < "Black", "Bottom" >, SYNSEM [ LKEYS.KEYREL.CARG "Black+Bottom", PHON.ONSET con ] ]. black_hills_n1 := n_-_pn-city_le & [ STEM < "Black", "Hills" >, SYNSEM [ LKEYS.KEYREL.CARG "Black_Hills", PHON.ONSET con ] ]. black_n1 := n_-_mc-col_le & [ STEM < "black" >, SYNSEM [ LKEYS.KEYREL.PRED "_black_n_1_rel", PHON.ONSET con ] ]. black_out_v1 := v_p_le & [ STEM < "black" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_black_v_out_rel" ], PHON.ONSET con ] ]. black_out_v2 := v_p-np_le & [ STEM < "black" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_black_v_out_rel" ], PHON.ONSET con ] ]. black_v1 := v_np_le & [ STEM < "black" >, SYNSEM [ LKEYS.KEYREL.PRED "_black_v_1_rel", PHON.ONSET con ] ]. blackburn_n1 := n_-_pn_le & [ STEM < "Blackburn" >, SYNSEM [ LKEYS.KEYREL.CARG "Blackburn", PHON.ONSET con ] ]. blacken_v1 := v_np_noger_le & [ STEM < "blacken" >, SYNSEM [ LKEYS.KEYREL.PRED "_blacken_v_cause_rel", PHON.ONSET con ] ]. blacken_v2 := v_-_unacc_le & [ STEM < "blacken" >, SYNSEM [ LKEYS.KEYREL.PRED "_blacken_v_1_rel", PHON.ONSET con ] ]. blacker := aj_pp_i-cmp_le & [ STEM < "blacker" >, SYNSEM [ LKEYS.KEYREL.PRED "_black_a_1_rel", PHON.ONSET con ] ]. blackest_a1 := aj_-_i-sup_le & [ STEM < "blackest" >, SYNSEM [ LKEYS.KEYREL.PRED "_black_a_1_rel", PHON.ONSET con ] ]. blackfly_n1 := n_-_c_le & [ STEM < "blackfly" >, SYNSEM [ LKEYS.KEYREL.PRED "_blackfly_n_1_rel", PHON.ONSET con ] ]. blackjack_n1 := n_-_mc_le & [ STEM < "blackjack" >, SYNSEM [ LKEYS.KEYREL.PRED "_blackjack_n_1_rel", PHON.ONSET con ] ]. blackness_n1 := n_-_m_le & [ STEM < "blackness" >, SYNSEM [ LKEYS.KEYREL.PRED "_blackness_n_1_rel", PHON.ONSET con ] ]. blackpool_n1 := n_-_pn-city_le & [ STEM < "Blackpool" >, SYNSEM [ LKEYS.KEYREL.CARG "Blackpool", PHON.ONSET con ] ]. blackwell_n1 := n_-_pn_le & [ STEM < "Blackwell" >, SYNSEM [ LKEYS.KEYREL.CARG "Blackwell", PHON.ONSET con ] ]. blackwellbua_n1 := n_-_pn_le & [ STEM < "Blackwellbua" >, SYNSEM [ LKEYS.KEYREL.CARG "Blackwellbua", PHON.ONSET con ] ]. bladder_n1 := n_-_c_le & [ STEM < "bladder" >, SYNSEM [ LKEYS.KEYREL.PRED "_bladder_n_1_rel", PHON.ONSET con ] ]. blade_n1 := n_-_c-ed_le & [ STEM < "blade" >, SYNSEM [ LKEYS.KEYREL.PRED "_blade_n_1_rel", PHON.ONSET con ] ]. blade_runner_n1 := n_-_pn_le & [ STEM < "Bladerunner" >, SYNSEM [ LKEYS.KEYREL.CARG "blade_Runner", PHON.ONSET con ] ]. blade_runner_n2 := n_-_pn_le & [ STEM < "Blade", "Runner" >, SYNSEM [ LKEYS.KEYREL.CARG "Blade_Runner", PHON.ONSET con ] ]. blake_n1 := n_-_pn_le & [ STEM < "Blake" >, SYNSEM [ LKEYS.KEYREL.CARG "Blake", PHON.ONSET con ] ]. blame_for_v1 := v_np-pp_e_le & [ STEM < "blame" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_blame_v_for_rel" ], PHON.ONSET con ] ]. blame_n1 := n_-_m_le & [ STEM < "blame" >, SYNSEM [ LKEYS.KEYREL.PRED "_blame_n_1_rel", PHON.ONSET con ] ]. blame_on_v1 := v_np-pp_e_le & [ STEM < "blame" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_blame_v_on_rel" ], PHON.ONSET con ] ]. blame_v1 := v_np_le & [ STEM < "blame" >, SYNSEM [ LKEYS.KEYREL.PRED "_blame_v_for_rel", PHON.ONSET con ] ]. blanche_n1 := n_-_pn_le & [ STEM < "Blanche" >, SYNSEM [ LKEYS.KEYREL.CARG "Blanche", PHON.ONSET con ] ]. bland_a1 := aj_-_i_le & [ STEM < "bland" >, SYNSEM [ LKEYS.KEYREL.PRED "_bland_a_1_rel", PHON.ONSET con ] ]. blandness_n1 := n_-_c_le & [ STEM < "blandness" >, SYNSEM [ LKEYS.KEYREL.PRED "_blandness_n_1_rel", PHON.ONSET con ] ]. blank_a1 := aj_-_i_le & [ STEM < "blank" >, SYNSEM [ LKEYS.KEYREL.PRED "_blank_a_1_rel", PHON.ONSET con ] ]. blank_n1 := n_-_c_le & [ STEM < "blank" >, SYNSEM [ LKEYS.KEYREL.PRED "_blank_n_1_rel", PHON.ONSET con ] ]. blank_on_v1 := v_np-pp_e_le & [ STEM < "blank" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_blank_v_on_rel" ], PHON.ONSET con ] ]. blanket_n1 := n_-_c_le & [ STEM < "blanket" >, SYNSEM [ LKEYS.KEYREL.PRED "_blanket_n_1_rel", PHON.ONSET con ] ]. blanket_v1 := v_np_le & [ STEM < "blanket" >, SYNSEM [ LKEYS.KEYREL.PRED "_blanket_v_1_rel", PHON.ONSET con ] ]. blare_n1 := n_-_mc_le & [ STEM < "blare" >, SYNSEM [ LKEYS.KEYREL.PRED "_blare_n_1_rel", PHON.ONSET con ] ]. blare_v1 := v_np*_le & [ STEM < "blare" >, SYNSEM [ LKEYS.KEYREL.PRED "_blare_v_1_rel", PHON.ONSET con ] ]. blase_a1 := aj_-_i_le & [ STEM < "blase" >, SYNSEM [ LKEYS.KEYREL.PRED "_blasé_a_1_rel", PHON.ONSET con ] ]. blase_n1 := n_-_mc-nocnh_le & [ STEM < "blase" >, SYNSEM [ LKEYS.KEYREL.PRED "_blase_n_1_rel", PHON.ONSET con ] ]. blasphemous_a1 := aj_-_i_le & [ STEM < "blasphemous" >, SYNSEM [ LKEYS.KEYREL.PRED "_blasphemous_a_1_rel", PHON.ONSET con ] ]. blast_away_v1 := v_p-np_le & [ STEM < "blast" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_blast_v_away_rel" ], PHON.ONSET con ] ]. blast_n1 := n_-_c_le & [ STEM < "blast" >, SYNSEM [ LKEYS.KEYREL.PRED "_blast_n_1_rel", PHON.ONSET con ] ]. blast_off_v1 := v_p_le & [ STEM < "blast" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_blast_v_off_rel" ], PHON.ONSET con ] ]. blast_open_v1 := v_p-np_le & [ STEM < "blast" >, SYNSEM [ LKEYS [ --COMPKEY _open_a_sel_rel, KEYREL.PRED "_blast_v_open_rel" ], PHON.ONSET con ] ]. blast_out_v1 := v_p-np_le & [ STEM < "blast" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_blast_v_out_rel" ], PHON.ONSET con ] ]. blast_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "blast" >, SYNSEM [ LKEYS.KEYREL.PRED "_blast_a_1_rel", PHON.ONSET con ] ]. blast_v1 := v_np*_le & [ STEM < "blast" >, SYNSEM [ LKEYS.KEYREL.PRED "_blast_v_1_rel", PHON.ONSET con ] ]. blasé_a1 := aj_-_i_le & [ STEM < "blasé" >, SYNSEM [ LKEYS.KEYREL.PRED "_blasé_a_1_rel", PHON.ONSET con ] ]. blatz_n1 := n_-_pn_le & [ STEM < "Blatz" >, SYNSEM [ LKEYS.KEYREL.CARG "Blatz", PHON.ONSET con ] ]. blaze_n1 := n_-_c_le & [ STEM < "blaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_blaze_n_1_rel", PHON.ONSET con ] ]. blaze_v1 := v_-_le & [ STEM < "blaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_blaze_v_1_rel", PHON.ONSET con ] ]. blaze_v2 := v_np_le & [ STEM < "blaze" >, SYNSEM [ LKEYS.KEYREL.PRED "_blaze_v_1_rel", PHON.ONSET con ] ]. bleach_n1 := n_-_m_le & [ STEM < "bleach" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleach_n_1_rel", PHON.ONSET con ] ]. bleach_v1 := v_np*_le & [ STEM < "bleach" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleach_v_1_rel", PHON.ONSET con ] ]. bleak_a1 := aj_-_i_le & [ STEM < "bleak" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleak_a_1_rel", PHON.ONSET con ] ]. bleary_a1 := aj_-_i_le & [ STEM < "bleary" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleary_a_1_rel", PHON.ONSET con ] ]. bleed_n1 := n_-_mc_le & [ STEM < "bleed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleed_n_1_rel", PHON.ONSET con ] ]. bleed_v1 := v_np_noger_le & [ STEM < "bleed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleed_v_cause_rel", PHON.ONSET con ] ]. bleed_v2 := v_-_unacc_le & [ STEM < "bleed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleed_v_1_rel", PHON.ONSET con ] ]. bleep_n1 := n_-_c_le & [ STEM < "bleep" >, SYNSEM [ LKEYS.KEYREL.PRED "_bleep_n_1_rel", PHON.ONSET con ] ]. bleep_out_v1 := v_p-np_le & [ STEM < "bleep" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bleep_v_out_rel" ], PHON.ONSET con ] ]. bleiklindi := n_-_pn_le & [ STEM < "Bleiklindi" >, SYNSEM [ LKEYS.KEYREL.CARG "Bleiklindi", PHON.ONSET con ] ]. blekåa_n1 := n_-_pn_le & [ STEM < "Blekåa" >, SYNSEM [ LKEYS.KEYREL.CARG "Blekåa", PHON.ONSET con ] ]. blemish_n1 := n_-_c_le & [ STEM < "blemish" >, SYNSEM [ LKEYS.KEYREL.PRED "_blemish_n_1_rel", PHON.ONSET con ] ]. blemish_v1 := v_np_le & [ STEM < "blemish" >, SYNSEM [ LKEYS.KEYREL.PRED "_blemish_v_1_rel", PHON.ONSET con ] ]. blend_n1 := n_-_c_le & [ STEM < "blend" >, SYNSEM [ LKEYS.KEYREL.PRED "_blend_n_1_rel", PHON.ONSET con ] ]. blend_v1 := v_np_noger_le & [ STEM < "blend" >, SYNSEM [ LKEYS.KEYREL.PRED "_blend_v_cause_rel", PHON.ONSET con ] ]. blend_v2 := v_-_unacc_le & [ STEM < "blend" >, SYNSEM [ LKEYS.KEYREL.PRED "_blend_v_1_rel", PHON.ONSET con ] ]. bless_her_root_post := av_-_dc-po_le & [ STEM < "bless", "her" >, SYNSEM [ LKEYS.KEYREL.CARG "bless_her", PHON.ONSET con ] ]. bless_him_root_post := av_-_dc-po_le & [ STEM < "bless", "him" >, SYNSEM [ LKEYS.KEYREL.CARG "bless_him", PHON.ONSET con ] ]. bless_them_root_post := av_-_dc-po_le & [ STEM < "bless", "them" >, SYNSEM [ LKEYS.KEYREL.CARG "bless_them", PHON.ONSET con ] ]. bless_us_root_post := av_-_dc-po_le & [ STEM < "bless", "us" >, SYNSEM [ LKEYS.KEYREL.CARG "bless_us", PHON.ONSET con ] ]. bless_v1 := v_np_le & [ STEM < "bless" >, SYNSEM [ LKEYS.KEYREL.PRED "_bless_v_1_rel", PHON.ONSET con ] ]. bless_you_root_post := av_-_dc-po_le & [ STEM < "bless", "you" >, SYNSEM [ LKEYS.KEYREL.CARG "bless_you", PHON.ONSET con ] ]. blessed_a1 := aj_-_i_le & [ STEM < "blessed" >, SYNSEM [ LKEYS.KEYREL.PRED "_blessed_a_1_rel", PHON.ONSET con ] ]. blessing_n1 := n_-_c_le & [ STEM < "blessing" >, SYNSEM [ LKEYS.KEYREL.PRED "_blessing_n_1_rel", PHON.ONSET con ] ]. bletoppen := n_-_pn_le & [ STEM < "Bletoppen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bletoppen", PHON.ONSET con ] ]. blight_n1 := n_-_mc_le & [ STEM < "blight" >, SYNSEM [ LKEYS.KEYREL.PRED "_blight_n_1_rel", PHON.ONSET con ] ]. blight_v1 := v_np_le & [ STEM < "blight" >, SYNSEM [ LKEYS.KEYREL.PRED "_blight_v_1_rel", PHON.ONSET con ] ]. blind_isect := aj_-_i_le & [ STEM < "blind" >, SYNSEM [ LKEYS.KEYREL.PRED "_blind_a_1_rel", PHON.ONSET con ] ]. blind_n1 := n_-_c_le & [ STEM < "blind" >, SYNSEM [ LKEYS.KEYREL.PRED "_blind_n_1_rel", PHON.ONSET con ] ]. blind_v1 := v_np-pp*_to_le & [ STEM < "blind" >, SYNSEM [ LKEYS.KEYREL.PRED "_blind_v_to_rel", PHON.ONSET con ] ]. blindly := av_-_i-vp_le & [ STEM < "blindly" >, SYNSEM [ LKEYS.KEYREL.PRED "_blind_a_1_rel", PHON.ONSET con ] ]. blindness_n1 := n_-_mc_le & [ STEM < "blindness" >, SYNSEM [ LKEYS.KEYREL.PRED "_blindness_n_1_rel", PHON.ONSET con ] ]. blink_n1 := n_-_c_le & [ STEM < "blink" >, SYNSEM [ LKEYS.KEYREL.PRED "_blink_n_1_rel", PHON.ONSET con ] ]. blink_v1 := v_np*_le & [ STEM < "blink" >, SYNSEM [ LKEYS.KEYREL.PRED "_blink_v_1_rel", PHON.ONSET con ] ]. bliss_n1 := n_-_m_le & [ STEM < "bliss" >, SYNSEM [ LKEYS.KEYREL.PRED "_bliss_n_1_rel", PHON.ONSET con ] ]. blissful_a1 := aj_-_i_le & [ STEM < "blissful" >, SYNSEM [ LKEYS.KEYREL.PRED "_blissful_a_1_rel", PHON.ONSET con ] ]. blissfully_adv1 := av_-_i-vp_le & [ STEM < "blissfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_blissful_a_1_rel", PHON.ONSET con ] ]. blister_n1 := n_-_c_le & [ STEM < "blister" >, SYNSEM [ LKEYS.KEYREL.PRED "_blister_n_1_rel", PHON.ONSET con ] ]. blister_v1 := v_np_noger_le & [ STEM < "blister" >, SYNSEM [ LKEYS.KEYREL.PRED "_blister_v_cause_rel", PHON.ONSET con ] ]. blister_v2 := v_-_unacc_le & [ STEM < "blister" >, SYNSEM [ LKEYS.KEYREL.PRED "_blister_v_1_rel", PHON.ONSET con ] ]. blithe_a1 := aj_-_i_le & [ STEM < "blithe" >, SYNSEM [ LKEYS.KEYREL.PRED "_blithe_a_1_rel", PHON.ONSET con ] ]. blob_n1 := n_-_c_le & [ STEM < "blob" >, SYNSEM [ LKEYS.KEYREL.PRED "_blob_n_1_rel", PHON.ONSET con ] ]. bloc_n1 := n_-_c_le & [ STEM < "bloc" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloc_n_1_rel", PHON.ONSET con ] ]. block_n1 := n_pp_c-of_le & [ STEM < "block" >, SYNSEM [ LKEYS.KEYREL.PRED "_block_n_of_rel", PHON.ONSET con ] ]. block_off_v1 := v_p-np_le & [ STEM < "block" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_block_v_off_rel" ], PHON.ONSET con ] ]. block_out_v1 := v_p-np_le & [ STEM < "block" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_block_v_out_rel" ], PHON.ONSET con ] ]. block_v1 := v_np_le & [ STEM < "block" >, SYNSEM [ LKEYS.KEYREL.PRED "_block_v_1_rel", PHON.ONSET con ] ]. blois_n1 := n_-_pn_le & [ STEM < "Blois" >, SYNSEM [ LKEYS.KEYREL.CARG "Blois", PHON.ONSET con ] ]. bloke_n1 := n_-_c_le & [ STEM < "bloke" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloke_n_1_rel", PHON.ONSET con ] ]. blond_a1 := aj_-_i_le & [ STEM < "blond" >, SYNSEM [ LKEYS.KEYREL.PRED "_blond_a_1_rel", PHON.ONSET con ] ]. blond_n1 := n_-_c-nocnh_le & [ STEM < "blond" >, SYNSEM [ LKEYS.KEYREL.PRED "_blond_n_1_rel", PHON.ONSET con ] ]. blonde_adj := aj_-_i_le & [ STEM < "blonde" >, SYNSEM [ LKEYS.KEYREL.PRED "_blonde_a_1_rel", PHON.ONSET con ] ]. blonde_n1 := n_-_c_le & [ STEM < "blonde" >, SYNSEM [ LKEYS.KEYREL.PRED "_blonde_n_1_rel", PHON.ONSET con ] ]. blood_n := n_-_m-ed_le & [ STEM < "blood" >, SYNSEM [ LKEYS.KEYREL.PRED "_blood_n_1_rel", PHON.ONSET con ] ]. bloodhound_n1 := n_-_c_le & [ STEM < "bloodhound" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloodhound_n_1_rel", PHON.ONSET con ] ]. bloodshot_a1 := aj_-_i_le & [ STEM < "bloodshot" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloodshot_a_1_rel", PHON.ONSET con ] ]. bloodstone_n1 := n_-_mc_le & [ STEM < "bloodstone" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloodstone_n_1_rel", PHON.ONSET con ] ]. bloodstopper_n1 := n_-_c_le & [ STEM < "bloodstopper" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloodstopper_n_1_rel", PHON.ONSET con ] ]. bloody_a1 := aj_-_i_le & [ STEM < "bloody" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloody_a_1_rel", PHON.ONSET con ] ]. bloom_n1 := n_-_c_le & [ STEM < "bloom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloom_n_1_rel", PHON.ONSET con ] ]. bloom_n2 := n_-_pn_le & [ STEM < "Bloom" >, SYNSEM [ LKEYS.KEYREL.CARG "Bloom", PHON.ONSET con ] ]. bloom_n3 := n_-_c-brj_le & [ STEM < "bloom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloom_n_1_rel", PHON.ONSET con ] ]. bloom_v1 := v_-_le & [ STEM < "bloom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bloom_v_1_rel", PHON.ONSET con ] ]. blossom_n1 := n_-_c_le & [ STEM < "blossom" >, SYNSEM [ LKEYS.KEYREL.PRED "_blossom_n_1_rel", PHON.ONSET con ] ]. blossom_v1 := v_-_le & [ STEM < "blossom" >, SYNSEM [ LKEYS.KEYREL.PRED "_blossom_v_1_rel", PHON.ONSET con ] ]. blot_n1 := n_-_c_le & [ STEM < "blot" >, SYNSEM [ LKEYS.KEYREL.PRED "_blot_n_1_rel", PHON.ONSET con ] ]. blot_out_v1 := v_p-np_le & [ STEM < "blot" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_blot_v_out_rel" ], PHON.ONSET con ] ]. blot_v1 := v_np_le & [ STEM < "blot" >, SYNSEM [ LKEYS.KEYREL.PRED "_blot_v_1_rel", PHON.ONSET con ] ]. blotch_n1 := n_-_mc_le & [ STEM < "blotch" >, SYNSEM [ LKEYS.KEYREL.PRED "_blotch_n_1_rel", PHON.ONSET con ] ]. blotch_v1 := v_np_le & [ STEM < "blotch" >, SYNSEM [ LKEYS.KEYREL.PRED "_blotch_v_1_rel", PHON.ONSET con ] ]. blouse_n1 := n_-_c_le & [ STEM < "blouse" >, SYNSEM [ LKEYS.KEYREL.PRED "_blouse_n_1_rel", PHON.ONSET con ] ]. blow_away_v1 := v_p-np_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_blow_v_away_rel" ], PHON.ONSET con ] ]. blow_down_v1 := v_p-np_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_blow_v_down_rel" ], PHON.ONSET con ] ]. blow_n1 := n_-_c_le & [ STEM < "blow" >, SYNSEM [ LKEYS.KEYREL.PRED "_blow_n_1_rel", PHON.ONSET con ] ]. blow_off_v1 := v_p-np_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_blow_v_off_rel" ], PHON.ONSET con ] ]. blow_out_v1 := v_p-np_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_blow_v_out_rel" ], PHON.ONSET con ] ]. blow_up_v1 := v_p-np_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_blow_v_up_rel" ], PHON.ONSET con ] ]. blow_up_v2 := v_p_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_blow_v_up_rel" ], PHON.ONSET con ] ]. blow_v1 := v_np_le & [ STEM < "blow" >, SYNSEM [ LKEYS.KEYREL.PRED "_blow_v_1_rel", PHON.ONSET con ] ]. blow_v2 := v_np-pp_e_le & [ STEM < "blow" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_blow_v_on_rel" ], PHON.ONSET con ] ]. blow_v3 := v_-_unacc_le & [ STEM < "blow" >, SYNSEM [ LKEYS.KEYREL.PRED "_blow_v_1_rel", PHON.ONSET con ] ]. blower_n1 := n_-_c_le & [ STEM < "blower" >, SYNSEM [ LKEYS.KEYREL.PRED "_blower_n_1_rel", PHON.ONSET con ] ]. blowhole_n1 := n_-_c_le & [ STEM < "blowhole" >, SYNSEM [ LKEYS.KEYREL.PRED "_blowhole_n_1_rel", PHON.ONSET con ] ]. blue_n1 := n_-_mc-col_le & [ STEM < "blue" >, SYNSEM [ LKEYS.KEYREL.PRED "_blue_n_1_rel", PHON.ONSET con ] ]. blueberry_n1 := n_-_mc_le & [ STEM < "blueberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_blueberry_n_1_rel", PHON.ONSET con ] ]. bluer := aj_pp_i-cmp_le & [ STEM < "bluer" >, SYNSEM [ LKEYS.KEYREL.PRED "_blue_a_1_rel", PHON.ONSET con ] ]. bluest_a1 := aj_-_i-sup_le & [ STEM < "bluest" >, SYNSEM [ LKEYS.KEYREL.PRED "_blue_a_1_rel", PHON.ONSET con ] ]. bluetooth_n1 := n_-_pn_le & [ STEM < "Bluetooth" >, SYNSEM [ LKEYS.KEYREL.CARG "Bluetooth", PHON.ONSET con ] ]. bluff_a1 := aj_-_i_le & [ STEM < "bluff" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluff_a_1_rel", PHON.ONSET con ] ]. bluff_n1 := n_-_c_le & [ STEM < "bluff" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluff_n_1_rel", PHON.ONSET con ] ]. bluff_v1 := v_-_le & [ STEM < "bluff" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluff_v_1_rel", PHON.ONSET con ] ]. bluish_a1 := aj_-_i_le & [ STEM < "bluish" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluish_a_1_rel", PHON.ONSET con ] ]. blunder_n1 := n_-_c_le & [ STEM < "blunder" >, SYNSEM [ LKEYS.KEYREL.PRED "_blunder_n_1_rel", PHON.ONSET con ] ]. blunder_v1 := v_pp*_dir_le & [ STEM < "blunder" >, SYNSEM [ LKEYS.KEYREL.PRED "_blunder_v_1_rel", PHON.ONSET con ] ]. blunt_a1 := aj_-_i_le & [ STEM < "blunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_blunt_a_1_rel", PHON.ONSET con ] ]. blunt_v1 := v_np_le & [ STEM < "blunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_blunt_v_1_rel", PHON.ONSET con ] ]. blur_n1 := n_-_c_le & [ STEM < "blur" >, SYNSEM [ LKEYS.KEYREL.PRED "_blur_n_1_rel", PHON.ONSET con ] ]. blur_out_v1 := v_p-np_le & [ STEM < "blur" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_blur_v_out_rel" ], PHON.ONSET con ] ]. blur_v1 := v_np_noger_le & [ STEM < "blur" >, SYNSEM [ LKEYS.KEYREL.PRED "_blur_v_cause_rel", PHON.ONSET con ] ]. blur_v2 := v_-_unacc_le & [ STEM < "blur" >, SYNSEM [ LKEYS.KEYREL.PRED "_blur_v_1_rel", PHON.ONSET con ] ]. blurrier_a1 := aj_pp_i-cmp_le & [ STEM < "blurrier" >, SYNSEM [ LKEYS.KEYREL.PRED "_blurry_a_1_rel", PHON.ONSET con ] ]. blurriest_a1 := aj_-_i-sup_le & [ STEM < "blurriest" >, SYNSEM [ LKEYS.KEYREL.PRED "_blurry_a_1_rel", PHON.ONSET con ] ]. blurry_a1 := aj_-_i_le & [ STEM < "blurry" >, SYNSEM [ LKEYS.KEYREL.PRED "_blurry_a_1_rel", PHON.ONSET con ] ]. blush_n1 := n_-_mc_le & [ STEM < "blush" >, SYNSEM [ LKEYS.KEYREL.PRED "_blush_n_1_rel", PHON.ONSET con ] ]. blush_v1 := v_-_le & [ STEM < "blush" >, SYNSEM [ LKEYS.KEYREL.PRED "_blush_v_1_rel", PHON.ONSET con ] ]. bluster_n1 := n_-_mc_le & [ STEM < "bluster" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluster_n_1_rel", PHON.ONSET con ] ]. bluster_v1 := v_-_le & [ STEM < "bluster" >, SYNSEM [ LKEYS.KEYREL.PRED "_bluster_v_1_rel", PHON.ONSET con ] ]. blustery_a1 := aj_-_i_le & [ STEM < "blustery" >, SYNSEM [ LKEYS.KEYREL.PRED "_blustery_a_1_rel", PHON.ONSET con ] ]. blustery_a2 := aj_-_i-wthr_le & [ STEM < "blustery" >, SYNSEM [ LKEYS.KEYREL.PRED "_blustery_a_1_rel", PHON.ONSET con ] ]. blåbreen_n1 := n_-_pn_le & [ STEM < "Blåbreen" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåbreen", PHON.ONSET con ] ]. blåbretinden_n1 := n_-_pn-city_le & [ STEM < "Blåbretinden" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåbretinden", PHON.ONSET con ] ]. blåhammarstugan_n1 := n_-_pn_le & [ STEM < "Blåhammarstugan" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhammarstugan", PHON.ONSET con ] ]. blåhåmmårkleppen_n1 := n_-_pn_le & [ STEM < "Blåhåmmårkleppen" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhåmmårkleppen", PHON.ONSET con ] ]. blåhø_n1 := n_-_pn_le & [ STEM < "Blåhø" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhø", PHON.ONSET con ] ]. blåhødekket_n1 := n_-_pn_le & [ STEM < "Blåhødekket" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhødekket", PHON.ONSET con ] ]. blåhømassivet_n1 := n_-_pn_le & [ STEM < "Blåhømassivet" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhømassivet", PHON.ONSET con ] ]. blåhøtjørna_n1 := n_-_pn_le & [ STEM < "Blåhøtjørna" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåhøtjørna", PHON.ONSET con ] ]. blåkkåkleppen_n1 := n_-_pn_le & [ STEM < "Blåkkåkleppen" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåkkåkleppen", PHON.ONSET con ] ]. blånipa_n1 := n_-_pn-city_le & [ STEM < "Blånipa" >, SYNSEM [ LKEYS.KEYREL.CARG "Blånipa", PHON.ONSET con ] ]. blåret_n1 := n_-_pn_le & [ STEM < "Blåret" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåret", PHON.ONSET con ] ]. blåsalen_n1 := n_-_pn_le & [ STEM < "Blåsalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåsalen", PHON.ONSET con ] ]. blåtjørnåa := n_-_pn_le & [ STEM < "Blåtjørnåa" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåtjørnåa", PHON.ONSET con ] ]. blåøret_n1 := n_-_pn_le & [ STEM < "Blåøret" >, SYNSEM [ LKEYS.KEYREL.CARG "Blåøret", PHON.ONSET con ] ]. bmft_nd := n_-_pn_le & [ STEM < "BMFT" >, SYNSEM [ LKEYS.KEYREL.CARG "BMFT", PHON.ONSET con ] ]. bmw_n1 := n_-_pn_le & [ STEM < "BMW" >, SYNSEM [ LKEYS.KEYREL.CARG "BMW", PHON.ONSET con ] ]. boa_n1 := n_-_c_le & [ STEM < "boa" >, SYNSEM [ LKEYS.KEYREL.PRED "_boa_n_1_rel", PHON.ONSET con ] ]. board_n1 := n_-_mc_le & [ STEM < "board" >, SYNSEM [ LKEYS.KEYREL.PRED "_board_n_1_rel", PHON.ONSET con ] ]. board_up_v1 := v_p-np_le & [ STEM < "board" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_board_v_up_rel" ], PHON.ONSET con ] ]. board_v1 := v_np*_le & [ STEM < "board" >, SYNSEM [ LKEYS.KEYREL.PRED "_board_v_1_rel", PHON.ONSET con ] ]. boarder_n1 := n_-_c_le & [ STEM < "boarder" >, SYNSEM [ LKEYS.KEYREL.PRED "_boarder_n_1_rel", PHON.ONSET con ] ]. boast_n1 := n_-_c_le & [ STEM < "boast" >, SYNSEM [ LKEYS.KEYREL.PRED "_boast_n_1_rel", PHON.ONSET con ] ]. boast_of_v1 := v_pp_e_le & [ STEM < "boast" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_boast_v_of_rel" ], PHON.ONSET con ] ]. boast_v1 := v_cp_le & [ STEM < "boast" >, SYNSEM [ LKEYS.KEYREL.PRED "_boast_v_1_rel", PHON.ONSET con ] ]. boast_v2 := v_np_le & [ STEM < "boast" >, SYNSEM [ LKEYS.KEYREL.PRED "_boast_v_1_rel", PHON.ONSET con ] ]. boat_n1 := n_-_c_le & [ STEM < "boat" >, SYNSEM [ LKEYS.KEYREL.PRED "_boat_n_1_rel", PHON.ONSET con ] ]. boat_v1 := v_pp*_dir_le & [ STEM < "boat" >, SYNSEM [ LKEYS.KEYREL.PRED "_boat_v_1_rel", PHON.ONSET con ] ]. boatbuilder_n1 := n_-_m_le & [ STEM < "boatbuilder" >, SYNSEM [ LKEYS.KEYREL.PRED "_boatbuilder_n_1_rel", PHON.ONSET con ] ]. boatbuilding_n1 := n_-_m_le & [ STEM < "boatbuilding" >, SYNSEM [ LKEYS.KEYREL.PRED "_boatbuilding_n_1_rel", PHON.ONSET con ] ]. boathouse_n1 := n_-_c_le & [ STEM < "boathouse" >, SYNSEM [ LKEYS.KEYREL.PRED "_boathouse_n_1_rel", PHON.ONSET con ] ]. boatload_n1 := n_-_c_le & [ STEM < "boatload" >, SYNSEM [ LKEYS.KEYREL.PRED "_boatload_n_1_rel", PHON.ONSET con ] ]. boatshed_n1 := n_-_c_le & [ STEM < "boatshed" >, SYNSEM [ LKEYS.KEYREL.PRED "_boatshed_n_1_rel", PHON.ONSET con ] ]. boatswain_n1 := n_-_c_le & [ STEM < "boatswain" >, SYNSEM [ LKEYS.KEYREL.PRED "_boatswain_n_1_rel", PHON.ONSET con ] ]. bob := n_-_pn_le & [ STEM < "Bob" >, SYNSEM [ LKEYS.KEYREL.CARG "Bob", PHON.ONSET con ] ]. bob_n2 := n_-_c_le & [ STEM < "bob" >, SYNSEM [ LKEYS.KEYREL.PRED "_bob_n_1_rel", PHON.ONSET con ] ]. bob_v1 := v_np_noger_le & [ STEM < "bob" >, SYNSEM [ LKEYS.KEYREL.PRED "_bob_v_cause_rel", PHON.ONSET con ] ]. bob_v2 := v_-_unacc_le & [ STEM < "bob" >, SYNSEM [ LKEYS.KEYREL.PRED "_bob_v_1_rel", PHON.ONSET con ] ]. bobbin_n1 := n_-_c_le & [ STEM < "bobbin" >, SYNSEM [ LKEYS.KEYREL.PRED "_bobbin_n_1_rel", PHON.ONSET con ] ]. bobby_n1 := n_-_c_le & [ STEM < "bobby" >, SYNSEM [ LKEYS.KEYREL.PRED "_bobby_n_1_rel", PHON.ONSET con ] ]. bobby_n2 := n_-_pn_le & [ STEM < "Bobby" >, SYNSEM [ LKEYS.KEYREL.CARG "Bobby", PHON.ONSET con ] ]. bobsled := v_pp*_dir_le & [ STEM < "bobsled" >, SYNSEM [ LKEYS.KEYREL.PRED "_bobsled_v_1_rel", PHON.ONSET con ] ]. bocci_n1 := n_-_pn_le & [ STEM < "Bocci" >, SYNSEM [ LKEYS.KEYREL.CARG "Bocci", PHON.ONSET con ] ]. bochum_n1 := n_-_pn-city_le & [ STEM < "Bochum" >, SYNSEM [ LKEYS.KEYREL.CARG "Bochum", PHON.ONSET con ] ]. bock_n1 := n_-_pn_le & [ STEM < "Bock" >, SYNSEM [ LKEYS.KEYREL.CARG "Bock", PHON.ONSET con ] ]. bodhisattva_n1 := n_-_pn_le & [ STEM < "Bodhisattva" >, SYNSEM [ LKEYS.KEYREL.CARG "Bodhisattva", PHON.ONSET con ] ]. bodie_n1 := n_-_pn_le & [ STEM < "Bodie" >, SYNSEM [ LKEYS.KEYREL.CARG "Bodie", PHON.ONSET con ] ]. bodies_politic_n1 := n_-_c-pl_le & [ STEM < "bodies", "politic" >, SYNSEM [ LKEYS.KEYREL.PRED "_body+politic_n_1_rel", PHON.ONSET con ] ]. bodily := av_-_i-vp_le & [ STEM < "bodily" >, SYNSEM [ LKEYS.KEYREL.PRED "_bodily_a_1_rel", PHON.ONSET con ] ]. bodily_a1 := aj_-_i_le & [ STEM < "bodily" >, SYNSEM [ LKEYS.KEYREL.PRED "_bodily_a_1_rel", PHON.ONSET con ] ]. bodmer_n1 := n_-_pn_le & [ STEM < "Bodmer" >, SYNSEM [ LKEYS.KEYREL.CARG "Bodmer", PHON.ONSET con ] ]. body_n1 := n_-_c-ed_le & [ STEM < "body" >, SYNSEM [ LKEYS.KEYREL.PRED "_body_n_1_rel", PHON.ONSET con ] ]. body_politic_n1 := n_-_c-sg_le & [ STEM < "body", "politic" >, SYNSEM [ LKEYS.KEYREL.PRED "_body+politic_n_1_rel", PHON.ONSET con ] ]. bodyguard_n1 := n_-_c_le & [ STEM < "bodyguard" >, SYNSEM [ LKEYS.KEYREL.PRED "_bodyguard_n_1_rel", PHON.ONSET con ] ]. bodø := n_-_pn_le & [ STEM < "Bodø" >, SYNSEM [ LKEYS.KEYREL.CARG "Bodø", PHON.ONSET con ] ]. boeck_n1 := n_-_pn_le & [ STEM < "Boeck" >, SYNSEM [ LKEYS.KEYREL.CARG "Boeck", PHON.ONSET con ] ]. bog_down_v1 := v_p_le & [ STEM < "bog" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_bog_v_down_rel" ], PHON.ONSET con ] ]. bog_down_v2 := v_np-p_le & [ STEM < "bog" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_bog_v_down_rel" ], PHON.ONSET con ] ]. bog_n1 := n_-_c_le & [ STEM < "bog" >, SYNSEM [ LKEYS.KEYREL.PRED "_bog_n_1_rel", PHON.ONSET con ] ]. bogey_n1 := n_-_c_le & [ STEM < "bogey" >, SYNSEM [ LKEYS.KEYREL.PRED "_bogey_n_1_rel", PHON.ONSET con ] ]. boggy_a1 := aj_-_i_le & [ STEM < "boggy" >, SYNSEM [ LKEYS.KEYREL.PRED "_boggy_a_1_rel", PHON.ONSET con ] ]. bogus_a1 := aj_-_i_le & [ STEM < "bogus" >, SYNSEM [ LKEYS.KEYREL.PRED "_bogus_a_1_rel", PHON.ONSET con ] ]. boil_down_v1 := v_p-np_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_boil_v_down_rel" ], PHON.ONSET con ] ]. boil_down_v2 := v_p-pp_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_boil_v_down_rel" ], PHON.ONSET con ] ]. boil_down_v3 := v_p-np-pp_to_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_boil_v_down-to_rel" ], PHON.ONSET con ] ]. boil_down_v4 := v_p_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_boil_v_down_rel" ], PHON.ONSET con ] ]. boil_n1 := n_-_c_le & [ STEM < "boil" >, SYNSEM [ LKEYS.KEYREL.PRED "_boil_n_1_rel", PHON.ONSET con ] ]. boil_over_v1 := v_p_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_boil_v_over_rel" ], PHON.ONSET con ] ]. boil_up_v1 := v_p_le & [ STEM < "boil" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_boil_v_up_rel" ], PHON.ONSET con ] ]. boil_v1 := v_-_unacc_le & [ STEM < "boil" >, SYNSEM [ LKEYS.KEYREL.PRED "_boil_v_1_rel", PHON.ONSET con ] ]. boil_v2 := v_np_noger_le & [ STEM < "boil" >, SYNSEM [ LKEYS.KEYREL.PRED "_boil_v_cause_rel", PHON.ONSET con ] ]. boiler_n1 := n_-_c_le & [ STEM < "boiler" >, SYNSEM [ LKEYS.KEYREL.PRED "_boiler_n_1_rel", PHON.ONSET con ] ]. boknafjord_n1 := n_-_pn_le & [ STEM < "Boknafjord" >, SYNSEM [ LKEYS.KEYREL.CARG "Boknafjord", PHON.ONSET con ] ]. boknafjorden_n1 := n_-_pn_le & [ STEM < "Boknafjorden" >, SYNSEM [ LKEYS.KEYREL.CARG "Boknafjorden", PHON.ONSET con ] ]. bold_a1 := aj_-_i_le & [ STEM < "bold" >, SYNSEM [ LKEYS.KEYREL.PRED "_bold_a_1_rel", PHON.ONSET con ] ]. boldly_adv1 := av_-_i-vp_le & [ STEM < "boldly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bold_a_1_rel", PHON.ONSET con ] ]. bolhovd := n_-_pn_le & [ STEM < "Bolhovd" >, SYNSEM [ LKEYS.KEYREL.CARG "Bolhovd", PHON.ONSET con ] ]. bolinas_n1 := n_-_pn-city_le & [ STEM < "Bolinas" >, SYNSEM [ LKEYS.KEYREL.CARG "Bolinas", PHON.ONSET con ] ]. bolivia_n1 := n_-_pn_le & [ STEM < "Bolivia" >, SYNSEM [ LKEYS.KEYREL.CARG "Bolivia", PHON.ONSET con ] ]. bolivian_a1 := aj_-_i_le & [ STEM < "Bolivian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolivian_a_1_rel", PHON.ONSET con ] ]. bolivian_n1 := n_-_c-nocnh_le & [ STEM < "Bolivian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolivian_n_1_rel", PHON.ONSET con ] ]. bolster_n1 := n_-_c_le & [ STEM < "bolster" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolster_n_1_rel", PHON.ONSET con ] ]. bolster_v1 := v_np_le & [ STEM < "bolster" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolster_v_1_rel", PHON.ONSET con ] ]. bolt_n1 := n_-_c_le & [ STEM < "bolt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolt_n_1_rel", PHON.ONSET con ] ]. bolt_v1 := v_np-pp_prop_le & [ STEM < "bolt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolt_v_1_rel", PHON.ONSET con ] ]. bolt_v2 := v_np*_le & [ STEM < "bolt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bolt_v_1_rel", PHON.ONSET con ] ]. bolton_n1 := n_-_pn-city_le & [ STEM < "Bolton" >, SYNSEM [ LKEYS.KEYREL.CARG "Bolton", PHON.ONSET con ] ]. bolu_marquis_n1 := n_-_pn_le & [ STEM < "Bolu", "Marquis" >, SYNSEM [ LKEYS.KEYREL.CARG "Bolu_Marquis", PHON.ONSET con ] ]. bomb_n1 := n_-_c_le & [ STEM < "bomb" >, SYNSEM [ LKEYS.KEYREL.PRED "_bomb_n_1_rel", PHON.ONSET con ] ]. bomb_out_v1 := v_p-np_le & [ STEM < "bomb" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bomb_v_out_rel" ], PHON.ONSET con ] ]. bomb_v1 := v_np*_le & [ STEM < "bomb" >, SYNSEM [ LKEYS.KEYREL.PRED "_bomb_v_1_rel", PHON.ONSET con ] ]. bombard_v1 := v_np_le & [ STEM < "bombard" >, SYNSEM [ LKEYS.KEYREL.PRED "_bombard_v_1_rel", PHON.ONSET con ] ]. bombay_n1 := n_-_pn-city_le & [ STEM < "Bombay" >, SYNSEM [ LKEYS.KEYREL.CARG "Bombay", PHON.ONSET con ] ]. bomber_n1 := n_-_c_le & [ STEM < "bomber" >, SYNSEM [ LKEYS.KEYREL.PRED "_bomber_n_1_rel", PHON.ONSET con ] ]. bombing_n1 := n_-_c-nocnh_le & [ STEM < "bombing" >, SYNSEM [ LKEYS.KEYREL.PRED "_bombing_n_1_rel", PHON.ONSET con ] ]. bombproof_a1 := aj_-_i_le & [ STEM < "bombproof" >, SYNSEM [ LKEYS.KEYREL.PRED "_bombproof_a_1_rel", PHON.ONSET con ] ]. bombproof_n1 := n_-_c-nocnh_le & [ STEM < "bombproof" >, SYNSEM [ LKEYS.KEYREL.PRED "_bombproof_n_1_rel", PHON.ONSET con ] ]. bond_n1 := n_-_pn_le & [ STEM < "Bond" >, SYNSEM [ LKEYS.KEYREL.CARG "Bond", PHON.ONSET con ] ]. bond_n2 := n_-_c_le & [ STEM < "bond" >, SYNSEM [ LKEYS.KEYREL.PRED "_bond_n_1_rel", PHON.ONSET con ] ]. bond_v1 := v_np*_le & [ STEM < "bond" >, SYNSEM [ LKEYS.KEYREL.PRED "_bond_v_1_rel", PHON.ONSET con ] ]. bondage_n1 := n_-_m_le & [ STEM < "bondage" >, SYNSEM [ LKEYS.KEYREL.PRED "_bondage_n_1_rel", PHON.ONSET con ] ]. bone_free_a1 := aj_-_i_le & [ STEM < "bone-", "free" >, SYNSEM [ LKEYS.KEYREL.PRED "_bone-free_a_1_rel", PHON.ONSET con ] ]. bone_n1 := n_-_mc-ed_le & [ STEM < "bone" >, SYNSEM [ LKEYS.KEYREL.PRED "_bone_n_1_rel", PHON.ONSET con ] ]. bone_v1 := v_np_le & [ STEM < "bone" >, SYNSEM [ LKEYS.KEYREL.PRED "_bone_v_1_rel", PHON.ONSET con ] ]. bonenfant_n1 := n_-_pn_le & [ STEM < "Bonenfant" >, SYNSEM [ LKEYS.KEYREL.CARG "Bonenfant", PHON.ONSET con ] ]. bonfire_n1 := n_-_c_le & [ STEM < "bonfire" >, SYNSEM [ LKEYS.KEYREL.PRED "_bonfire_n_1_rel", PHON.ONSET con ] ]. bonn_n1 := n_-_pn-city_le & [ STEM < "Bonn" >, SYNSEM [ LKEYS.KEYREL.CARG "Bonn", PHON.ONSET con ] ]. bonne_n1 := n_-_pn_le & [ STEM < "Bonne" >, SYNSEM [ LKEYS.KEYREL.CARG "Bonne", PHON.ONSET con ] ]. bonne_randonnée_root_pre := av_-_dc-grt-pr_le & [ STEM < "bonne", "randonnée" >, SYNSEM [ LKEYS.KEYREL.CARG "bonne+randonnée", PHON.ONSET con ] ]. bonner_n1 := n_-_pn_le & [ STEM < "Bonner" >, SYNSEM [ LKEYS.KEYREL.CARG "Bonner", PHON.ONSET con ] ]. bonnie_a1 := aj_-_i_le & [ STEM < "bonnie" >, SYNSEM [ LKEYS.KEYREL.PRED "_bonnie_a_1_rel", PHON.ONSET con ] ]. bonnie_n1 := n_-_pn_le & [ STEM < "Bonnie" >, SYNSEM [ LKEYS.KEYREL.CARG "Bonnie", PHON.ONSET con ] ]. bonsai_n1 := n_-_c_le & [ STEM < "bonsai" >, SYNSEM [ LKEYS.KEYREL.PRED "_bonsai_n_1_rel", PHON.ONSET con ] ]. bonus_n1 := n_pp_c-of_le & [ STEM < "bonus" >, SYNSEM [ LKEYS.KEYREL.PRED "_bonus_n_of_rel", PHON.ONSET con ] ]. bony_a1 := aj_-_i_le & [ STEM < "bony" >, SYNSEM [ LKEYS.KEYREL.PRED "_bony_a_1_rel", PHON.ONSET con ] ]. book_n1 := n_pp_c-of_le & [ STEM < "book" >, SYNSEM [ LKEYS.KEYREL.PRED "_book_n_of_rel", PHON.ONSET con ] ]. book_up_v1 := v_p-np_le & [ STEM < "book" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_book_v_up_rel" ], PHON.ONSET con ] ]. book_v1 := v_np-np_only_le & [ STEM < "book" >, SYNSEM [ LKEYS.KEYREL.PRED "_book_v_1_rel", PHON.ONSET con ] ]. book_v2 := v_np_le & [ STEM < "book" >, SYNSEM [ LKEYS.KEYREL.PRED "_book_v_1_rel", PHON.ONSET con ] ]. book_v3 := v_np-prd_oeq_le & [ STEM < "book" >, SYNSEM [ LKEYS.KEYREL.PRED "_book_v_1_rel", PHON.ONSET con ] ]. book_v4 := v_np-pp_e_le & [ STEM < "book" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_book_v_into_rel" ], PHON.ONSET con ] ]. bookcase_n1 := n_-_c_le & [ STEM < "bookcase" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookcase_n_1_rel", PHON.ONSET con ] ]. booked_a1 := aj_-_i_le & [ STEM < "booked" >, SYNSEM [ LKEYS.KEYREL.PRED "_booked_a_1_rel", PHON.ONSET con ] ]. booking_n1 := n_-_c-nocnh_le & [ STEM < "booking" >, SYNSEM [ LKEYS.KEYREL.PRED "_booking_n_1_rel", PHON.ONSET con ] ]. booklet_n1 := n_pp_c-of_le & [ STEM < "booklet" >, SYNSEM [ LKEYS.KEYREL.PRED "_booklet_n_of_rel", PHON.ONSET con ] ]. bookshop_n1 := n_-_c_le & [ STEM < "bookshop" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookshop_n_1_rel", PHON.ONSET con ] ]. bookshop_post_ttl := n_-_tt-post_le & [ STEM < "Bookshop" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookshop_n_1_rel", PHON.ONSET con ] ]. bookstall_n1 := n_-_c_le & [ STEM < "bookstall" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookstall_n_1_rel", PHON.ONSET con ] ]. bookstore_n1 := n_-_c_le & [ STEM < "bookstore" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookstore_n_1_rel", PHON.ONSET con ] ]. bookstore_of_foreign_languages_n1 := n_-_pn_le & [ STEM < "Bookstore", "of", "Foreign", "Languages" >, SYNSEM [ LKEYS.KEYREL.CARG "Bookstore_of_Foreign_Languages", PHON.ONSET con ] ]. bookstore_post_ttl := n_-_tt-post_le & [ STEM < "Bookstore" >, SYNSEM [ LKEYS.KEYREL.PRED "_bookstore_n_1_rel", PHON.ONSET con ] ]. boom_n1 := n_-_c_le & [ STEM < "boom" >, SYNSEM [ LKEYS.KEYREL.PRED "_boom_n_1_rel", PHON.ONSET con ] ]. boom_v1 := v_-_le & [ STEM < "boom" >, SYNSEM [ LKEYS.KEYREL.PRED "_boom_v_1_rel", PHON.ONSET con ] ]. boost_n1 := n_-_c_le & [ STEM < "boost" >, SYNSEM [ LKEYS.KEYREL.PRED "_boost_n_1_rel", PHON.ONSET con ] ]. boost_v1 := v_np-pp*_to_le & [ STEM < "boost" >, SYNSEM [ LKEYS.KEYREL.PRED "_boost_v_to_rel", PHON.ONSET con ] ]. boot_n1 := n_-_mc_le & [ STEM < "boot" >, SYNSEM [ LKEYS.KEYREL.PRED "_boot_n_1_rel", PHON.ONSET con ] ]. boot_out_v1 := v_p-np_le & [ STEM < "boot" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_boot_v_out_rel" ], PHON.ONSET con ] ]. boot_up_v1 := v_p-np_le & [ STEM < "boot" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_boot_v_up_rel" ], PHON.ONSET con ] ]. boot_up_v2 := v_p_le & [ STEM < "boot" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_boot_v_up_rel" ], PHON.ONSET con ] ]. boot_v1 := v_np*_le & [ STEM < "boot" >, SYNSEM [ LKEYS.KEYREL.PRED "_boot_v_1_rel", PHON.ONSET con ] ]. booth_n1 := n_-_pn_le & [ STEM < "Booth" >, SYNSEM [ LKEYS.KEYREL.CARG "Booth", PHON.ONSET con ] ]. booth_n2 := n_-_c_le & [ STEM < "booth" >, SYNSEM [ LKEYS.KEYREL.PRED "_booth_n_1_rel", PHON.ONSET con ] ]. bootlegger_n1 := n_-_c_le & [ STEM < "bootlegger" >, SYNSEM [ LKEYS.KEYREL.PRED "_bootlegger_n_1_rel", PHON.ONSET con ] ]. bootlegging_n1 := n_-_m_le & [ STEM < "bootlegging" >, SYNSEM [ LKEYS.KEYREL.PRED "_bootlegging_n_1_rel", PHON.ONSET con ] ]. boottree_n1 := n_-_c_le & [ STEM < "boottree" >, SYNSEM [ LKEYS.KEYREL.PRED "_boottree_n_1_rel", PHON.ONSET con ] ]. booze_n1 := n_-_c_le & [ STEM < "booze" >, SYNSEM [ LKEYS.KEYREL.PRED "_booze_n_1_rel", PHON.ONSET con ] ]. booze_v1 := v_-_le & [ STEM < "booze" >, SYNSEM [ LKEYS.KEYREL.PRED "_booze_v_1_rel", PHON.ONSET con ] ]. bordalsetra_n1 := n_-_pn_le & [ STEM < "Bordalsetra" >, SYNSEM [ LKEYS.KEYREL.CARG "Bordalsetra", PHON.ONSET con ] ]. border_n1 := n_-_c_le & [ STEM < "border" >, SYNSEM [ LKEYS.KEYREL.PRED "_border_n_1_rel", PHON.ONSET con ] ]. border_on_v1 := v_pp_e_le & [ STEM < "border" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_border_v_on_rel" ], PHON.ONSET con ] ]. border_v1 := v_np_le & [ STEM < "border" >, SYNSEM [ LKEYS.KEYREL.PRED "_border_v_1_rel", PHON.ONSET con ] ]. borderline_deg := av_-_dg-v_le & [ STEM < "borderline" >, SYNSEM [ LKEYS.KEYREL.PRED "_borderline_x_deg_rel", PHON.ONSET con ] ]. borderline_n1 := n_-_c_le & [ STEM < "borderline" >, SYNSEM [ LKEYS.KEYREL.PRED "_borderline_n_1_rel", PHON.ONSET con ] ]. bore_n1 := n_-_c_le & [ STEM < "bore" >, SYNSEM [ LKEYS.KEYREL.PRED "_bore_n_1_rel", PHON.ONSET con ] ]. bore_v1 := v_np*_le & [ STEM < "bore" >, SYNSEM [ LKEYS.KEYREL.PRED "_bore_v_1_rel", PHON.ONSET con ] ]. boredom_n1 := n_-_mc_le & [ STEM < "boredom" >, SYNSEM [ LKEYS.KEYREL.PRED "_boredom_n_1_rel", PHON.ONSET con ] ]. boresight_n1 := n_-_c_le & [ STEM < "boresight" >, SYNSEM [ LKEYS.KEYREL.PRED "_boresight_n_1_rel", PHON.ONSET con ] ]. borg_n1 := n_-_pn_le & [ STEM < "Borg" >, SYNSEM [ LKEYS.KEYREL.CARG "Borg", PHON.ONSET con ] ]. borgny_n1 := n_-_pn_le & [ STEM < "Borgny" >, SYNSEM [ LKEYS.KEYREL.CARG "Borgny", PHON.ONSET con ] ]. borgund := n_-_pn_le & [ STEM < "Borgund" >, SYNSEM [ LKEYS.KEYREL.CARG "Borgund", PHON.ONSET con ] ]. boring_isect := aj_-_i_le & [ STEM < "boring" >, SYNSEM [ LKEYS.KEYREL.PRED "_boring_a_1_rel", PHON.ONSET con ] ]. born_a1 := v_-_psv_le & [ STEM < "born" >, SYNSEM [ LKEYS.KEYREL.PRED "_bear_v_2_rel", PHON.ONSET con ] ]. borne_isect := aj_-_i_le & [ STEM < "borne" >, SYNSEM [ LKEYS.KEYREL.PRED "_borne_a_1_rel", PHON.ONSET con ] ]. boro_n1 := n_-_c_le & [ STEM < "boro" >, SYNSEM [ LKEYS.KEYREL.PRED "_boro_n_1_rel", PHON.ONSET con ] ]. borough_n1 := n_-_c_le & [ STEM < "borough" >, SYNSEM [ LKEYS.KEYREL.PRED "_borough_n_1_rel", PHON.ONSET con ] ]. borrow_v1 := v_np*_le & [ STEM < "borrow" >, SYNSEM [ LKEYS.KEYREL.PRED "_borrow_v_from_rel", PHON.ONSET con ] ]. borrow_v2 := v_np*-pp_e_le & [ STEM < "borrow" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_borrow_v_from_rel" ], PHON.ONSET con ] ]. borrowings_n1 := n_-_c-pl-nocnh_le & [ STEM < "borrowing" >, SYNSEM [ LKEYS.KEYREL.PRED "_borrowings_n_1_rel", PHON.ONSET con ] ]. boshill_n1 := n_-_pn_le & [ STEM < "Boshill" >, SYNSEM [ LKEYS.KEYREL.CARG "Boshill", PHON.ONSET con ] ]. bosnia_n1 := n_-_pn_le & [ STEM < "Bosnia" >, SYNSEM [ LKEYS.KEYREL.CARG "Bosnia", PHON.ONSET con ] ]. bosnian_a1 := aj_-_i_le & [ STEM < "Bosnian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bosnian_a_1_rel", PHON.ONSET con ] ]. bosnian_n1 := n_-_pn_le & [ STEM < "Bosnian" >, SYNSEM [ LKEYS.KEYREL.CARG "Bosnian", PHON.ONSET con ] ]. bosnian_n2 := n_-_c-nocnh_le & [ STEM < "bosnian" >, SYNSEM [ LKEYS.KEYREL.PRED "_bosnian_n_1_rel", PHON.ONSET con ] ]. boss_n1 := n_-_c_le & [ STEM < "boss" >, SYNSEM [ LKEYS.KEYREL.PRED "_boss_n_1_rel", PHON.ONSET con ] ]. bossvasshøgda_n1 := n_-_pn_le & [ STEM < "Bossvasshøgda" >, SYNSEM [ LKEYS.KEYREL.CARG "Bossvasshøgda", PHON.ONSET con ] ]. bossvatna_n1 := n_-_pn_le & [ STEM < "Bossvatna" >, SYNSEM [ LKEYS.KEYREL.CARG "Bossvatna", PHON.ONSET con ] ]. bossvatnet_n1 := n_-_pn_le & [ STEM < "Bossvatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Bossvatnet", PHON.ONSET con ] ]. boston := n_-_pn-city_le & [ STEM < "Boston" >, SYNSEM [ LKEYS.KEYREL.CARG "Boston", PHON.ONSET con ] ]. botanic_a1 := aj_-_i_le & [ STEM < "botanic" >, SYNSEM [ LKEYS.KEYREL.PRED "_botanic_a_1_rel", PHON.ONSET con ] ]. botanical_a1 := aj_-_i_le & [ STEM < "botanical" >, SYNSEM [ LKEYS.KEYREL.PRED "_botanical_a_1_rel", PHON.ONSET con ] ]. botanically_adv := av_-_i-vp_le & [ STEM < "botanically" >, SYNSEM [ LKEYS.KEYREL.PRED "_botanical_a_1_rel", PHON.ONSET con ] ]. botanist_n1 := n_-_c_le & [ STEM < "botanist" >, SYNSEM [ LKEYS.KEYREL.PRED "_botanist_n_1_rel", PHON.ONSET con ] ]. botanize_v1 := v_np_le & [ STEM < "botanize" >, SYNSEM [ LKEYS.KEYREL.PRED "_botanize_v_1_rel", PHON.ONSET con ] ]. botany_n1 := n_-_m_le & [ STEM < "botany" >, SYNSEM [ LKEYS.KEYREL.PRED "_botany_n_1_rel", PHON.ONSET con ] ]. both := d_-_prt-pl-both_le & [ STEM < "both" >, SYNSEM [ LKEYS.KEYREL.PRED _both_q_rel, PHON.ONSET con ] ]. both_adv1 := av_-_i-vp-x-only_le & [ STEM < "both" >, SYNSEM [ LKEYS.KEYREL.PRED "_both_a_1_rel", PHON.ONSET con ] ]. both_conj := c_xp_both-mrk_le & [ STEM < "both" >, SYNSEM.PHON.ONSET con ]. both_pn := n_np_mc-na_le & [ STEM < "both" >, SYNSEM [ LKEYS.ALTKEYREL.PRED _both_q_rel, PHON.ONSET con ] ]. bother_about_v1 := v_pp_e_le & [ STEM < "bother" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_bother_v_about_rel" ], PHON.ONSET con ] ]. bother_n1 := n_-_c_le & [ STEM < "bother" >, SYNSEM [ LKEYS.KEYREL.PRED "_bother_n_1_rel", PHON.ONSET con ] ]. bother_prp_v1 := v_vp_seq-prp_le & [ STEM < "bother" >, SYNSEM [ LKEYS.KEYREL.PRED "_bother_v_1_rel", PHON.ONSET con ] ]. bother_v1 := v_np*_le & [ STEM < "bother" >, SYNSEM [ LKEYS.KEYREL.PRED "_bother_v_1_rel", PHON.ONSET con ] ]. bother_v2 := v_np-cp_it-s_le & [ STEM < "bother" >, SYNSEM [ LKEYS.KEYREL.PRED "_bother_v_1_rel", PHON.ONSET con ] ]. bother_v3 := v_vp_seq_le & [ STEM < "bother" >, SYNSEM [ LKEYS.KEYREL.PRED "_bother_v_1_rel", PHON.ONSET con ] ]. bother_with_v1 := v_pp_e_le & [ STEM < "bother" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_bother_v_with_rel" ], PHON.ONSET con ] ]. bothered_a1 := aj_-_i_le & [ STEM < "bothered" >, SYNSEM [ LKEYS.KEYREL.PRED "_bothered_a_1_rel", PHON.ONSET con ] ]. bothered_a2 := aj_cp_i-fin_le & [ STEM < "bothered" >, SYNSEM [ LKEYS.KEYREL.PRED "_bothered_a_1_rel", PHON.ONSET con ] ]. botn_n1 := n_-_pn_le & [ STEM < "Botn" >, SYNSEM [ LKEYS.KEYREL.CARG "Botn", PHON.ONSET con ] ]. botnan := n_-_pn_le & [ STEM < "Botnan" >, SYNSEM [ LKEYS.KEYREL.CARG "Botnan", PHON.ONSET con ] ]. botnemark_n1 := n_-_pn-city_le & [ STEM < "Botnemark" >, SYNSEM [ LKEYS.KEYREL.CARG "Botnemark", PHON.ONSET con ] ]. botnemarka_n1 := n_-_pn-city_le & [ STEM < "Botnemarka" >, SYNSEM [ LKEYS.KEYREL.CARG "Botnemark", PHON.ONSET con ] ]. bottenviken := n_-_pn_le & [ STEM < "Bottenviken" >, SYNSEM [ LKEYS.KEYREL.CARG "Bottenviken", PHON.ONSET con ] ]. bottineau_n1 := n_-_pn_le & [ STEM < "Bottineau" >, SYNSEM [ LKEYS.KEYREL.CARG "Bottineau", PHON.ONSET con ] ]. bottle_in_v1 := v_p-np_le & [ STEM < "bottle" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_bottle_v_in_rel" ], PHON.ONSET con ] ]. bottle_n1 := n_pp_c-of_le & [ STEM < "bottle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottle_n_of_rel", PHON.ONSET con ] ]. bottle_up_v1 := v_p-np_le & [ STEM < "bottle" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bottle_v_up_rel" ], PHON.ONSET con ] ]. bottle_v1 := v_np_le & [ STEM < "bottle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottle_v_1_rel", PHON.ONSET con ] ]. bottleneck_n1 := n_-_c_le & [ STEM < "bottleneck" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottleneck_n_1_rel", PHON.ONSET con ] ]. bottom_i_n1 := n_-_c-brno_le & [ STEM < "bottom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottom_n_1_rel", PHON.ONSET con ] ]. bottom_line_n1 := n_-_c_le & [ STEM < "bottom", "line" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottom+line_n_1_rel", PHON.ONSET con ] ]. bottom_n1 := n_-_c-ed_le & [ STEM < "bottom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottom_n_1_rel", PHON.ONSET con ] ]. bottom_out_v1 := v_p_le & [ STEM < "bottom" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bottom_v_out_rel" ], PHON.ONSET con ] ]. bottom_v1 := v_-_le & [ STEM < "bottom" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottom_v_1_rel", PHON.ONSET con ] ]. bottomless_a1 := aj_-_i_le & [ STEM < "bottomless" >, SYNSEM [ LKEYS.KEYREL.PRED "_bottomless_a_1_rel", PHON.ONSET con ] ]. bough_n1 := n_-_c_le & [ STEM < "bough" >, SYNSEM [ LKEYS.KEYREL.PRED "_bough_n_1_rel", PHON.ONSET con ] ]. bouillon_n1 := n_-_m_le & [ STEM < "bouillon" >, SYNSEM [ LKEYS.KEYREL.PRED "_bouillon_n_1_rel", PHON.ONSET con ] ]. boulder-rich_a1 := aj_-_i_le & [ STEM < "boulder-", "rich" >, SYNSEM [ LKEYS.KEYREL.PRED "_boulder-rich_a_1_rel", PHON.ONSET con ] ]. boulder_n1 := n_-_c_le & [ STEM < "boulder" >, SYNSEM [ LKEYS.KEYREL.PRED "_boulder_n_1_rel", PHON.ONSET con ] ]. bouldering_n1 := n_-_m_le & [ STEM < "bouldering" >, SYNSEM [ LKEYS.KEYREL.PRED "_bouldering_n_1_rel", PHON.ONSET con ] ]. boulevard_n1 := n_-_c_le & [ STEM < "boulevard" >, SYNSEM [ LKEYS.KEYREL.PRED "_boulevard_n_1_rel", PHON.ONSET con ] ]. boulevard_post_ttl := n_-_tt-post_le & [ STEM < "Boulevard" >, SYNSEM [ LKEYS.KEYREL.PRED "_boulevard_n_1_rel", PHON.ONSET con ] ]. bounce_back_v1 := v_p-np_le & [ STEM < "bounce" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_bounce_v_back_rel" ], PHON.ONSET con ] ]. bounce_back_v2 := v_p_le & [ STEM < "bounce" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_bounce_v_back_rel" ], PHON.ONSET con ] ]. bounce_n1 := n_-_mc_le & [ STEM < "bounce" >, SYNSEM [ LKEYS.KEYREL.PRED "_bounce_n_1_rel", PHON.ONSET con ] ]. bounce_v1 := v_pp*_dir_le & [ STEM < "bounce" >, SYNSEM [ LKEYS.KEYREL.PRED "_bounce_v_1_rel", PHON.ONSET con ] ]. bounce_v2 := v_np_noger_le & [ STEM < "bounce" >, SYNSEM [ LKEYS.KEYREL.PRED "_bounce_v_cause_rel", PHON.ONSET con ] ]. bound_n1 := n_-_c_le & [ STEM < "bound" >, SYNSEM [ LKEYS.KEYREL.PRED "_bound_n_1_rel", PHON.ONSET con ] ]. bound_v1 := v_np_noger_le & [ STEM < "bound" >, SYNSEM [ LKEYS.KEYREL.PRED "_bound_v_1_rel", PHON.ONSET con ] ]. bound_v2 := v_pp*_dir_le & [ STEM < "bound" >, SYNSEM [ LKEYS.KEYREL.PRED "_bound_v_1_rel", PHON.ONSET con ] ]. boundary_n1 := n_-_c_le & [ STEM < "boundary" >, SYNSEM [ LKEYS.KEYREL.PRED "_boundary_n_1_rel", PHON.ONSET con ] ]. bouquet_n1 := n_-_pn_le & [ STEM < "Bouquet" >, SYNSEM [ LKEYS.KEYREL.CARG "Bouquet", PHON.ONSET con ] ]. bourbon_n1 := n_-_mc_le & [ STEM < "bourbon" >, SYNSEM [ LKEYS.KEYREL.PRED "_bourbon_n_1_rel", PHON.ONSET con ] ]. bourgeois_a1 := aj_-_i_le & [ STEM < "bourgeois" >, SYNSEM [ LKEYS.KEYREL.PRED "_bourgeois_a_1_rel", PHON.ONSET con ] ]. bourgeois_n1 := n_-_c-pl-nocnh_le & [ STEM < "bourgeois" >, SYNSEM [ LKEYS.KEYREL.PRED "_bourgeois_n_1_rel", PHON.ONSET con ] ]. bout_n1 := n_-_c_le & [ STEM < "bout" >, SYNSEM [ LKEYS.KEYREL.PRED "_bout_n_1_rel", PHON.ONSET con ] ]. bouvardier_n1 := n_-_pn_le & [ STEM < "Bouvardier" >, SYNSEM [ LKEYS.KEYREL.CARG "Bouvardier", PHON.ONSET con ] ]. bouvier_n1 := n_-_pn_le & [ STEM < "Bouvier" >, SYNSEM [ LKEYS.KEYREL.CARG "Bouvier", PHON.ONSET con ] ]. bow_down_v1 := v_p-pp_le & [ STEM < "bow" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_bow_v_down_rel" ], PHON.ONSET con ] ]. bow_down_v2 := v_p_le & [ STEM < "bow" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_bow_v_down_rel" ], PHON.ONSET con ] ]. bow_n1 := n_-_c_le & [ STEM < "bow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bow_n_1_rel", PHON.ONSET con ] ]. bow_out_v1 := v_p-pp_le & [ STEM < "bow" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, --OCOMPKEY _of_p_rel, KEYREL.PRED "_bow_v_out_rel" ], PHON.ONSET con ] ]. bow_out_v2 := v_p_le & [ STEM < "bow" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_bow_v_out_rel" ], PHON.ONSET con ] ]. bow_to_v1 := v_pp_e_le & [ STEM < "bow" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_bow_v_to_rel" ], PHON.ONSET con ] ]. bow_v1 := v_np*_le & [ STEM < "bow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bow_v_1_rel", PHON.ONSET con ] ]. bow_wow_n1 := n_-_c_le & [ STEM < "bow-", "wow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bow-wow_n_1_rel", PHON.ONSET con ] ]. bow_wow_n2 := n_-_c_le & [ STEM < "bow", "wow" >, SYNSEM [ LKEYS.KEYREL.PRED "_bow-wow_n_1_rel", PHON.ONSET con ] ]. bowel_n1 := n_-_c_le & [ STEM < "bowel" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowel_n_1_rel", PHON.ONSET con ] ]. bower_n1 := n_-_c_le & [ STEM < "bower" >, SYNSEM [ LKEYS.KEYREL.PRED "_bower_n_1_rel", PHON.ONSET con ] ]. bowl_n1 := n_-_c_le & [ STEM < "bowl" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowl_n_1_rel", PHON.ONSET con ] ]. bowl_over_v1 := v_p-np_le & [ STEM < "bowl" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_bowl_v_over_rel" ], PHON.ONSET con ] ]. bowl_v1 := v_np*_le & [ STEM < "bowl" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowl_v_1_rel", PHON.ONSET con ] ]. bowl_v2 := v_pp_dir_le & [ STEM < "bowl" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowl_v_2_rel", PHON.ONSET con ] ]. bowler_n1 := n_-_pn_le & [ STEM < "Bowler" >, SYNSEM [ LKEYS.KEYREL.CARG "Bowler", PHON.ONSET con ] ]. bowler_n2 := n_-_c_le & [ STEM < "bowler" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowler_n_1_rel", PHON.ONSET con ] ]. bowling_n1 := n_-_pn_le & [ STEM < "Bowling" >, SYNSEM [ LKEYS.KEYREL.CARG "Bowling", PHON.ONSET con ] ]. bowsprit_n1 := n_-_c_le & [ STEM < "bowsprit" >, SYNSEM [ LKEYS.KEYREL.PRED "_bowsprit_n_1_rel", PHON.ONSET con ] ]. box_in_v1 := v_p-np_le & [ STEM < "box" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_box_v_in_rel" ], PHON.ONSET con ] ]. box_n1 := n_pp_c-of_le & [ STEM < "box" >, SYNSEM [ LKEYS.KEYREL.PRED "_box_n_of_rel", PHON.ONSET con ] ]. box_n2 := n_-_pn_le & [ STEM < "Box" >, SYNSEM [ LKEYS.KEYREL.CARG "Box", PHON.ONSET con ] ]. box_up_v1 := v_p-np_le & [ STEM < "box" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_box_v_up_rel" ], PHON.ONSET con ] ]. box_v1 := v_np_le & [ STEM < "box" >, SYNSEM [ LKEYS.KEYREL.PRED "_box_v_1_rel", PHON.ONSET con ] ]. boxcar_n1 := n_-_c_le & [ STEM < "boxcar" >, SYNSEM [ LKEYS.KEYREL.PRED "_boxcar_n_1_rel", PHON.ONSET con ] ]. boxell_n1 := n_-_pn_le & [ STEM < "Boxell" >, SYNSEM [ LKEYS.KEYREL.CARG "Boxell", PHON.ONSET con ] ]. boxer_n1 := n_-_c_le & [ STEM < "boxer" >, SYNSEM [ LKEYS.KEYREL.PRED "_boxer_n_1_rel", PHON.ONSET con ] ]. boxing_day_n1 := n_-_pn_le & [ STEM < "Boxing", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Boxing_Day", PHON.ONSET con ] ]. boxing_n1 := n_-_mc_le & [ STEM < "boxing" >, SYNSEM [ LKEYS.KEYREL.PRED "_boxing_n_1_rel", PHON.ONSET con ] ]. boxwood_n1 := n_-_m_le & [ STEM < "boxwood" >, SYNSEM [ LKEYS.KEYREL.PRED "_boxwood_n_1_rel", PHON.ONSET con ] ]. boy_n1 := n_-_c_le & [ STEM < "boy" >, SYNSEM [ LKEYS.KEYREL.PRED "_boy_n_1_rel", PHON.ONSET con ] ]. boy_root_post := av_-_s-cp-nsp-po_le & [ STEM < "boy" >, SYNSEM [ LKEYS.KEYREL.PRED "_boy_a_1_rel", PHON.ONSET con ] ]. boy_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "boy" >, SYNSEM [ LKEYS.KEYREL.PRED "_boy_a_1_rel", PHON.ONSET con ] ]. boycott_n1 := n_-_mc_le & [ STEM < "boycott" >, SYNSEM [ LKEYS.KEYREL.PRED "_boycott_n_1_rel", PHON.ONSET con ] ]. boyfriend_n1 := n_-_c_le & [ STEM < "boyfriend" >, SYNSEM [ LKEYS.KEYREL.PRED "_boyfriend_n_1_rel", PHON.ONSET con ] ]. boys_of_summer_n1 := n_-_pn_le & [ STEM < "Boys", "of", "Summer" >, SYNSEM [ LKEYS.KEYREL.CARG "Boys_of_Summer", PHON.ONSET con ] ]. bp_n1 := n_-_pn_le & [ STEM < "BP" >, SYNSEM [ LKEYS.KEYREL.CARG "BP", PHON.ONSET con ] ]. bra_n1 := n_-_c_le & [ STEM < "bra" >, SYNSEM [ LKEYS.KEYREL.PRED "_bra_n_1_rel", PHON.ONSET con ] ]. braathens := n_-_pn_le & [ STEM < "Braathens" >, SYNSEM [ LKEYS.KEYREL.CARG "Braathens", PHON.ONSET con ] ]. brace_n1 := n_-_c_le & [ STEM < "brace" >, SYNSEM [ LKEYS.KEYREL.PRED "_brace_n_1_rel", PHON.ONSET con ] ]. brace_v1 := v_np-pp_le & [ STEM < "brace" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_rel, KEYREL.PRED "_brace_v_1_rel" ], PHON.ONSET con ] ]. brace_v2 := v_np_le & [ STEM < "brace" >, SYNSEM [ LKEYS.KEYREL.PRED "_brace_v_1_rel", PHON.ONSET con ] ]. brace_v3 := v_pp_le & [ STEM < "brace" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_rel, KEYREL.PRED "_brace_v_1_rel" ], PHON.ONSET con ] ]. brace_v4 := v_np-vp_oeq_le & [ STEM < "brace" >, SYNSEM [ LKEYS.KEYREL.PRED "_brace_v_1_rel", PHON.ONSET con ] ]. brack_n1 := n_-_pn_le & [ STEM < "Brack" >, SYNSEM [ LKEYS.KEYREL.CARG "Brack", PHON.ONSET con ] ]. brackish_a1 := aj_-_i_le & [ STEM < "brackish" >, SYNSEM [ LKEYS.KEYREL.PRED "_brackish_a_1_rel", PHON.ONSET con ] ]. bract_n1 := n_-_c_le & [ STEM < "bract" >, SYNSEM [ LKEYS.KEYREL.PRED "_bract_n_1_rel", PHON.ONSET con ] ]. bradford_n1 := n_-_pn-city_le & [ STEM < "Bradford" >, SYNSEM [ LKEYS.KEYREL.CARG "Bradford", PHON.ONSET con ] ]. bradley_n1 := n_-_pn_le & [ STEM < "Bradley" >, SYNSEM [ LKEYS.KEYREL.CARG "Bradley", PHON.ONSET con ] ]. bragg_n1 := n_-_pn_le & [ STEM < "Bragg" >, SYNSEM [ LKEYS.KEYREL.CARG "Bragg", PHON.ONSET con ] ]. brahma_n1 := n_-_pn_le & [ STEM < "Brahma" >, SYNSEM [ LKEYS.KEYREL.CARG "Brahma", PHON.ONSET con ] ]. braille_n1 := n_-_pn_le & [ STEM < "Braille" >, SYNSEM [ LKEYS.KEYREL.CARG "Braille", PHON.ONSET con ] ]. brain_n1 := n_-_c-ed_le & [ STEM < "brain" >, SYNSEM [ LKEYS.KEYREL.PRED "_brain_n_1_rel", PHON.ONSET con ] ]. brake_n1 := n_-_c_le & [ STEM < "brake" >, SYNSEM [ LKEYS.KEYREL.PRED "_brake_n_1_rel", PHON.ONSET con ] ]. brake_v1 := v_-_unacc_le & [ STEM < "brake" >, SYNSEM [ LKEYS.KEYREL.PRED "_brake_v_1_rel", PHON.ONSET con ] ]. brake_v2 := v_np_noger_le & [ STEM < "brake" >, SYNSEM [ LKEYS.KEYREL.PRED "_brake_v_cause_rel", PHON.ONSET con ] ]. brambling_n1 := n_-_c_le & [ STEM < "brambling" >, SYNSEM [ LKEYS.KEYREL.PRED "_brambling_n_1_rel", PHON.ONSET con ] ]. brambling_n2 := n_-_m-kind_le & [ STEM < "brambling" >, SYNSEM [ LKEYS.KEYREL.PRED "_brambling_n_1_rel", PHON.ONSET con ] ]. bran_n1 := n_-_mc_le & [ STEM < "bran" >, SYNSEM [ LKEYS.KEYREL.PRED "_bran_n_1_rel", PHON.ONSET con ] ]. branch_davidian_n1 := n_-_pn_le & [ STEM < "Branch", "Davidian" >, SYNSEM [ LKEYS.KEYREL.CARG "Branch_Davidian", PHON.ONSET con ] ]. branch_n1 := n_pp_c-of_le & [ STEM < "branch" >, SYNSEM [ LKEYS.KEYREL.PRED "_branch_n_of_rel", PHON.ONSET con ] ]. branch_off_v1 := v_p_le & [ STEM < "branch" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_branch_v_off_rel" ], PHON.ONSET con ] ]. branch_out_v1 := v_p_le & [ STEM < "branch" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_branch_v_out_rel" ], PHON.ONSET con ] ]. branch_v1 := v_-_le & [ STEM < "branch" >, SYNSEM [ LKEYS.KEYREL.PRED "_branch_v_1_rel", PHON.ONSET con ] ]. brand_n1 := n_pp_c-of-brn_le & [ STEM < "brand" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand_n_of_rel", PHON.ONSET con ] ]. brand_n2 := n_-_c_le & [ STEM < "brand" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand_n_of_rel", PHON.ONSET con ] ]. brand_new_a1 := aj_-_i_le & [ STEM < "brand", "new" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand+new_a_1_rel", PHON.ONSET con ] ]. brand_new_a2 := aj_-_i_le & [ STEM < "brand-", "new" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand+new_a_1_rel", PHON.ONSET con ] ]. brand_v1 := v_np_le & [ STEM < "brand" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand_v_1_rel", PHON.ONSET con ] ]. brand_v2 := v_np-np_only_le & [ STEM < "brand" >, SYNSEM [ LKEYS.KEYREL.PRED "_brand_v_1_rel", PHON.ONSET con ] ]. brandenburg_n1 := n_-_pn-city_le & [ STEM < "Brandenburg" >, SYNSEM [ LKEYS.KEYREL.CARG "Brandenburg", PHON.ONSET con ] ]. brandish_v1 := v_np_le & [ STEM < "brandish" >, SYNSEM [ LKEYS.KEYREL.PRED "_brandish_v_1_rel", PHON.ONSET con ] ]. brandt_n1 := n_-_pn_le & [ STEM < "Brandt" >, SYNSEM [ LKEYS.KEYREL.CARG "Brandt", PHON.ONSET con ] ]. brandy_n1 := n_-_mc_le & [ STEM < "brandy" >, SYNSEM [ LKEYS.KEYREL.PRED "_brandy_n_1_rel", PHON.ONSET con ] ]. brannon_n1 := n_-_pn_le & [ STEM < "Brannon" >, SYNSEM [ LKEYS.KEYREL.CARG "Brannon", PHON.ONSET con ] ]. branson := n_-_pn_le & [ STEM < "Branson" >, SYNSEM [ LKEYS.KEYREL.CARG "Branson", PHON.ONSET con ] ]. brash_a1 := aj_-_i_le & [ STEM < "brash" >, SYNSEM [ LKEYS.KEYREL.PRED "_brash_a_1_rel", PHON.ONSET con ] ]. brass_n1 := n_-_mc_le & [ STEM < "brass" >, SYNSEM [ LKEYS.KEYREL.PRED "_brass_n_1_rel", PHON.ONSET con ] ]. bratteli_n1 := n_-_pn_le & [ STEM < "Bratteli" >, SYNSEM [ LKEYS.KEYREL.CARG "Bratteli", PHON.ONSET con ] ]. braunschweig_n1 := n_-_pn-city_le & [ STEM < "Braunschweig" >, SYNSEM [ LKEYS.KEYREL.CARG "Braunschweig", PHON.ONSET con ] ]. bravado_n1 := n_-_m_le & [ STEM < "bravado" >, SYNSEM [ LKEYS.KEYREL.PRED "_bravado_n_1_rel", PHON.ONSET con ] ]. brave_a1 := aj_-_i_le & [ STEM < "brave" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_a_1_rel", PHON.ONSET con ] ]. brave_n1 := n_-_c_le & [ STEM < "brave" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_n_1_rel", PHON.ONSET con ] ]. brave_new_world_n1 := n_-_pn_le & [ STEM < "Brave", "New", "World" >, SYNSEM [ LKEYS.KEYREL.CARG "Brave_New_World", PHON.ONSET con ] ]. brave_v1 := v_np_le & [ STEM < "brave" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_v_1_rel", PHON.ONSET con ] ]. bravely_adv1 := av_-_i-vp_le & [ STEM < "bravely" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_a_1_rel", PHON.ONSET con ] ]. braver := aj_pp_i-cmp_le & [ STEM < "braver" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_a_1_rel", PHON.ONSET con ] ]. bravest_a1 := aj_-_i-sup_le & [ STEM < "bravest" >, SYNSEM [ LKEYS.KEYREL.PRED "_brave_a_1_rel", PHON.ONSET con ] ]. brazen_a1 := aj_-_i_le & [ STEM < "brazen" >, SYNSEM [ LKEYS.KEYREL.PRED "_brazen_a_1_rel", PHON.ONSET con ] ]. brazil_n1 := n_-_pn_le & [ STEM < "Brazil" >, SYNSEM [ LKEYS.KEYREL.CARG "Brazil", PHON.ONSET con ] ]. brazilian_a1 := aj_-_i_le & [ STEM < "Brazilian" >, SYNSEM [ LKEYS.KEYREL.PRED "_brazilian_a_1_rel", PHON.ONSET con ] ]. brazilian_n1 := n_-_c-nocnh_le & [ STEM < "Brazilian" >, SYNSEM [ LKEYS.KEYREL.PRED "_brazilian_n_1_rel", PHON.ONSET con ] ]. breach_n1 := n_pp_mc-of_le & [ STEM < "breach" >, SYNSEM [ LKEYS.KEYREL.PRED "_breach_n_of_rel", PHON.ONSET con ] ]. breach_v1 := v_np_le & [ STEM < "breach" >, SYNSEM [ LKEYS.KEYREL.PRED "_breach_v_1_rel", PHON.ONSET con ] ]. bread_n1 := n_-_mc_le & [ STEM < "bread" >, SYNSEM [ LKEYS.KEYREL.PRED "_bread_n_1_rel", PHON.ONSET con ] ]. breaded_a1 := aj_-_i_le & [ STEM < "breaded" >, SYNSEM [ LKEYS.KEYREL.PRED "_breaded_a_1_rel", PHON.ONSET con ] ]. breadth_n1 := n_pp_mc-of_le & [ STEM < "breadth" >, SYNSEM [ LKEYS.KEYREL.PRED "_breadth_n_of_rel", PHON.ONSET con ] ]. break_down_v1 := v_p-np_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_break_v_down_rel" ], PHON.ONSET con ] ]. break_down_v2 := v_p_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_break_v_down_rel" ], PHON.ONSET con ] ]. break_in_v1 := v_p-np_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_break_v_in_rel" ], PHON.ONSET con ] ]. break_in_v2 := v_p_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_break_v_in_rel" ], PHON.ONSET con ] ]. break_n1 := n_-_mc_le & [ STEM < "break" >, SYNSEM [ LKEYS.KEYREL.PRED "_break_n_1_rel", PHON.ONSET con ] ]. break_off_v1 := v_p-np_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_break_v_off_rel" ], PHON.ONSET con ] ]. break_off_v2 := v_p_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_break_v_off_rel" ], PHON.ONSET con ] ]. break_out_v1 := v_p-np_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_break_v_out_rel" ], PHON.ONSET con ] ]. break_out_v2 := v_p_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_break_v_out_rel" ], PHON.ONSET con ] ]. break_up_v1 := v_p-np_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_break_v_up_rel" ], PHON.ONSET con ] ]. break_up_v2 := v_p_le & [ STEM < "break" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_break_v_up_rel" ], PHON.ONSET con ] ]. break_v1 := v_np_noger_le & [ STEM < "break" >, SYNSEM [ LKEYS.KEYREL.PRED "_break_v_cause_rel", PHON.ONSET con ] ]. break_v2 := v_-_unacc_le & [ STEM < "break" >, SYNSEM [ LKEYS.KEYREL.PRED "_break_v_1_rel", PHON.ONSET con ] ]. breakage_n1 := n_-_m_le & [ STEM < "breakage" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakage_n_1_rel", PHON.ONSET con ] ]. breakdown_n1 := n_-_c_le & [ STEM < "breakdown" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakdown_n_1_rel", PHON.ONSET con ] ]. breakdown_n2 := n_-_c_le & [ STEM < "break", "down" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakdown_n_1_rel", PHON.ONSET con ] ]. breakdown_n3 := n_-_c_le & [ STEM < "break-", "down" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakdown_n_1_rel", PHON.ONSET con ] ]. breaker_n1 := n_-_c_le & [ STEM < "breaker" >, SYNSEM [ LKEYS.KEYREL.PRED "_breaker_n_1_rel", PHON.ONSET con ] ]. breakey_n1 := n_-_pn_le & [ STEM < "Breakey" >, SYNSEM [ LKEYS.KEYREL.CARG "Breakey", PHON.ONSET con ] ]. breakfast_n1 := n_-_mc_le & [ STEM < "breakfast" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakfast_n_1_rel", PHON.ONSET con ] ]. breakfast_time_n1 := n_-_pn-mealtm_le & [ STEM < "breakfast" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakfast_n_1_rel", PHON.ONSET con ] ]. breakfast_v1 := v_-_le & [ STEM < "breakfast" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakfast_v_1_rel", PHON.ONSET con ] ]. breakup_n1 := n_-_c_le & [ STEM < "breakup" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakup_n_1_rel", PHON.ONSET con ] ]. breakup_n2 := n_-_c_le & [ STEM < "break", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakup_n_1_rel", PHON.ONSET con ] ]. breakup_n3 := n_-_c_le & [ STEM < "break-", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_breakup_n_1_rel", PHON.ONSET con ] ]. bream_n1 := n_-_mc_le & [ STEM < "bream" >, SYNSEM [ LKEYS.KEYREL.PRED "_bream_n_1_rel", PHON.ONSET con ] ]. breast_n1 := n_-_c-ed_le & [ STEM < "breast" >, SYNSEM [ LKEYS.KEYREL.PRED "_breast_n_1_rel", PHON.ONSET con ] ]. breast_v1 := v_np_le & [ STEM < "breast" >, SYNSEM [ LKEYS.KEYREL.PRED "_breast_v_1_rel", PHON.ONSET con ] ]. breastband_n1 := n_-_c_le & [ STEM < "breastband" >, SYNSEM [ LKEYS.KEYREL.PRED "_breastband_n_1_rel", PHON.ONSET con ] ]. breastbone_n1 := n_-_mc_le & [ STEM < "breastbone" >, SYNSEM [ LKEYS.KEYREL.PRED "_breastbone_n_1_rel", PHON.ONSET con ] ]. breath_n1 := n_-_mc_le & [ STEM < "breath" >, SYNSEM [ LKEYS.KEYREL.PRED "_breath_n_1_rel", PHON.ONSET con ] ]. breathe_v1 := v_np*_le & [ STEM < "breathe" >, SYNSEM [ LKEYS.KEYREL.PRED "_breathe_v_1_rel", PHON.ONSET con ] ]. breather_n1 := n_-_c_le & [ STEM < "breather" >, SYNSEM [ LKEYS.KEYREL.PRED "_breather_n_1_rel", PHON.ONSET con ] ]. breathless_a1 := aj_-_i_le & [ STEM < "breathless" >, SYNSEM [ LKEYS.KEYREL.PRED "_breathless_a_1_rel", PHON.ONSET con ] ]. breathlessly_adv := av_-_i-vp_le & [ STEM < "breathlessly" >, SYNSEM [ LKEYS.KEYREL.PRED "_breathless_a_1_rel", PHON.ONSET con ] ]. breathtaking_a1 := aj_-_i_le & [ STEM < "breathtaking" >, SYNSEM [ LKEYS.KEYREL.PRED "_breathtaking_a_1_rel", PHON.ONSET con ] ]. brebekken_n1 := n_-_pn_le & [ STEM < "Brebekken" >, SYNSEM [ LKEYS.KEYREL.CARG "Brebekken", PHON.ONSET con ] ]. bree_n1 := n_-_pn_le & [ STEM < "Bree" >, SYNSEM [ LKEYS.KEYREL.CARG "Bree", PHON.ONSET con ] ]. breech_n1 := n_-_c_le & [ STEM < "breech" >, SYNSEM [ LKEYS.KEYREL.PRED "_breech_n_1_rel", PHON.ONSET con ] ]. breech_v1 := v_np_le & [ STEM < "breech" >, SYNSEM [ LKEYS.KEYREL.PRED "_breech_v_1_rel", PHON.ONSET con ] ]. breed_n1 := n_pp_c-of-brn_le & [ STEM < "breed" >, SYNSEM [ LKEYS.KEYREL.PRED "_breed_n_of-n_rel", PHON.ONSET con ] ]. breed_n2 := n_-_c_le & [ STEM < "breed" >, SYNSEM [ LKEYS.KEYREL.PRED "_breed_n_of-n_rel", PHON.ONSET con ] ]. breed_v1 := v_np*_le & [ STEM < "breed" >, SYNSEM [ LKEYS.KEYREL.PRED "_breed_v_1_rel", PHON.ONSET con ] ]. breeder_n1 := n_-_c_le & [ STEM < "breeder" >, SYNSEM [ LKEYS.KEYREL.PRED "_breeder_n_1_rel", PHON.ONSET con ] ]. breesbekken_n1 := n_-_pn_le & [ STEM < "Breesbekken" >, SYNSEM [ LKEYS.KEYREL.CARG "Breesbekken", PHON.ONSET con ] ]. breeze_n1 := n_-_c_le & [ STEM < "breeze" >, SYNSEM [ LKEYS.KEYREL.PRED "_breeze_n_1_rel", PHON.ONSET con ] ]. breezier_a1 := aj_pp_i-cmp_le & [ STEM < "breezier" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breezier_a2 := aj_pp_i-cmp-wthr_le & [ STEM < "breezier" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breeziest_a1 := aj_-_i-sup_le & [ STEM < "breeziest" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breeziest_a2 := aj_-_i-sup-it_le & [ STEM < "breeziest" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breezily_adv1 := av_-_i-vp_le & [ STEM < "breezily" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breezy_a1 := aj_-_i_le & [ STEM < "breezy" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breezy_a2 := aj_-_i-wthr_le & [ STEM < "breezy" >, SYNSEM [ LKEYS.KEYREL.PRED "_breezy_a_1_rel", PHON.ONSET con ] ]. breheimen_n1 := n_-_pn_le & [ STEM < "Breheimen" >, SYNSEM [ LKEYS.KEYREL.CARG "Breheimen", PHON.ONSET con ] ]. breibakka := n_-_pn_le & [ STEM < "Breibakka" >, SYNSEM [ LKEYS.KEYREL.CARG "Breibakka", PHON.ONSET con ] ]. breidalen := n_-_pn_le & [ STEM < "Breidalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Breidalen", PHON.ONSET con ] ]. breidalsbotn := n_-_pn_le & [ STEM < "Breidalsbotn" >, SYNSEM [ LKEYS.KEYREL.CARG "Breidalsbotn", PHON.ONSET con ] ]. breidskardet_n1 := n_-_pn_le & [ STEM < "Breidskardet" >, SYNSEM [ LKEYS.KEYREL.CARG "Breidskardet", PHON.ONSET con ] ]. brekken_n1 := n_-_pn_le & [ STEM < "Brekken" >, SYNSEM [ LKEYS.KEYREL.CARG "Brekken", PHON.ONSET con ] ]. brekksetra_n1 := n_-_pn_le & [ STEM < "Brekksetra" >, SYNSEM [ LKEYS.KEYREL.CARG "Brekksetra", PHON.ONSET con ] ]. bremen_n1 := n_-_pn-city_le & [ STEM < "Bremen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bremen", PHON.ONSET con ] ]. bremuseum := n_-_pn_le & [ STEM < "Bremuseum" >, SYNSEM [ LKEYS.KEYREL.CARG "Bremuseum", PHON.ONSET con ] ]. brendeteigen_n1 := n_-_pn_le & [ STEM < "Brendeteigen" >, SYNSEM [ LKEYS.KEYREL.CARG "Brendeteigen", PHON.ONSET con ] ]. brenner_n1 := n_-_pn_le & [ STEM < "Brenner" >, SYNSEM [ LKEYS.KEYREL.CARG "Brenner", PHON.ONSET con ] ]. breve_n1 := n_-_c_le & [ STEM < "breve" >, SYNSEM [ LKEYS.KEYREL.PRED "_breve_n_1_rel", PHON.ONSET con ] ]. brevet_major_n1 := n_-_c_le & [ STEM < "brevet", "major" >, SYNSEM [ LKEYS.KEYREL.PRED "_brevet+major_n_1_rel", PHON.ONSET con ] ]. brew_n1 := n_-_c_le & [ STEM < "brew" >, SYNSEM [ LKEYS.KEYREL.PRED "_brew_n_1_rel", PHON.ONSET con ] ]. brew_v1 := v_np_le & [ STEM < "brew" >, SYNSEM [ LKEYS.KEYREL.PRED "_brew_v_1_rel", PHON.ONSET con ] ]. brewer_n1 := n_-_c_le & [ STEM < "brewer" >, SYNSEM [ LKEYS.KEYREL.PRED "_brewer_n_1_rel", PHON.ONSET con ] ]. brewery_n1 := n_-_c_le & [ STEM < "brewery" >, SYNSEM [ LKEYS.KEYREL.PRED "_brewery_n_1_rel", PHON.ONSET con ] ]. brian := n_-_pn_le & [ STEM < "Brian" >, SYNSEM [ LKEYS.KEYREL.CARG "Brian", PHON.ONSET con ] ]. bribe_n1 := n_-_c_le & [ STEM < "bribe" >, SYNSEM [ LKEYS.KEYREL.PRED "_bribe_n_1_rel", PHON.ONSET con ] ]. bribe_v1 := v_np_le & [ STEM < "bribe" >, SYNSEM [ LKEYS.KEYREL.PRED "_bribe_v_1_rel", PHON.ONSET con ] ]. bribe_v2 := v_np-vp_oeq_le & [ STEM < "bribe" >, SYNSEM [ LKEYS.KEYREL.PRED "_bribe_v_1_rel", PHON.ONSET con ] ]. bribed_n1 := n_-_c-pl-def_le & [ STEM < "bribed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bribed_n_1_rel", PHON.ONSET con ] ]. bribery_n1 := n_-_m_le & [ STEM < "bribery" >, SYNSEM [ LKEYS.KEYREL.PRED "_bribery_n_1_rel", PHON.ONSET con ] ]. brick_n1 := n_-_mc_le & [ STEM < "brick" >, SYNSEM [ LKEYS.KEYREL.PRED "_brick_n_1_rel", PHON.ONSET con ] ]. brick_up_v1 := v_p-np_le & [ STEM < "brick" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_brick_v_up_rel" ], PHON.ONSET con ] ]. brick_v1 := v_np_le & [ STEM < "brick" >, SYNSEM [ LKEYS.KEYREL.PRED "_brick_v_1_rel", PHON.ONSET con ] ]. bricklayer_n1 := n_-_c_le & [ STEM < "bricklayer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bricklayer_n_1_rel", PHON.ONSET con ] ]. bridal_a1 := aj_-_i_le & [ STEM < "bridal" >, SYNSEM [ LKEYS.KEYREL.PRED "_bridal_a_1_rel", PHON.ONSET con ] ]. bride_n1 := n_-_c_le & [ STEM < "bride" >, SYNSEM [ LKEYS.KEYREL.PRED "_bride_n_1_rel", PHON.ONSET con ] ]. bridge_n1 := n_-_c_le & [ STEM < "bridge" >, SYNSEM [ LKEYS.KEYREL.PRED "_bridge_n_1_rel", PHON.ONSET con ] ]. bridge_post_ttl := n_-_tt-post_le & [ STEM < "Bridge" >, SYNSEM [ LKEYS.KEYREL.PRED "_bridge_n_1_rel", PHON.ONSET con ] ]. bridge_v1 := v_np_le & [ STEM < "bridge" >, SYNSEM [ LKEYS.KEYREL.PRED "_bridge_v_1_rel", PHON.ONSET con ] ]. bridget_n1 := n_-_pn_le & [ STEM < "Bridget" >, SYNSEM [ LKEYS.KEYREL.CARG "Bridget", PHON.ONSET con ] ]. bridle_at_v1 := v_pp_e_le & [ STEM < "bridle" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_bridle_v_at_rel" ], PHON.ONSET con ] ]. bridle_n1 := n_-_c_le & [ STEM < "bridle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bridle_n_1_rel", PHON.ONSET con ] ]. bridle_v1 := v_pp_e_le & [ STEM < "bridle" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_bridle_v_at_rel" ], PHON.ONSET con ] ]. brief_a1 := aj_-_i_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_a_1_rel", PHON.ONSET con ] ]. brief_n1 := n_-_c_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_n_1_rel", PHON.ONSET con ] ]. brief_v1 := v_np-pp_e_le & [ STEM < "brief" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_brief_v_on_rel" ], PHON.ONSET con ] ]. brief_v2 := v_np-cp_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_v_1_rel", PHON.ONSET con ] ]. brief_v3 := v_np-vp_oeq_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_v_1_rel", PHON.ONSET con ] ]. brief_v4 := v_np_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_v_on_rel", PHON.ONSET con ] ]. briefcase_n1 := n_-_c_le & [ STEM < "briefcase" >, SYNSEM [ LKEYS.KEYREL.PRED "_briefcase_n_1_rel", PHON.ONSET con ] ]. briefer_a1 := aj_pp_i-cmp_le & [ STEM < "briefer" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_a_1_rel", PHON.ONSET con ] ]. briefest_a1 := aj_-_i-sup_le & [ STEM < "briefest" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_a_1_rel", PHON.ONSET con ] ]. briefing_n1 := n_pp_c-of_le & [ STEM < "briefing" >, SYNSEM [ LKEYS.KEYREL.PRED "_briefing_n_of_rel", PHON.ONSET con ] ]. briefly_adv1 := av_-_i-vp_le & [ STEM < "briefly" >, SYNSEM [ LKEYS.KEYREL.PRED "_brief_a_1_rel", PHON.ONSET con ] ]. briefs_n1 := n_-_c-pl-nocnh_le & [ STEM < "brief" >, SYNSEM [ LKEYS.KEYREL.PRED "_briefs_n_1_rel", PHON.ONSET con ] ]. brigade_n1 := n_-_c_le & [ STEM < "brigade" >, SYNSEM [ LKEYS.KEYREL.PRED "_brigade_n_of_rel", PHON.ONSET con ] ]. brigade_n2 := n_pp_c-gr-of_le & [ STEM < "brigade" >, SYNSEM [ LKEYS.KEYREL.PRED "_brigade_n_of_rel", PHON.ONSET con ] ]. brigadier_general_n1 := n_-_c_le & [ STEM < "brigadier", "general" >, SYNSEM [ LKEYS.KEYREL.PRED "_brigadier+general_n_1_rel", PHON.ONSET con ] ]. brigadier_n1 := n_-_c_le & [ STEM < "brigadier" >, SYNSEM [ LKEYS.KEYREL.PRED "_brigadier_n_1_rel", PHON.ONSET con ] ]. brighetti_n1 := n_-_pn_le & [ STEM < "Brighetti" >, SYNSEM [ LKEYS.KEYREL.CARG "Brighetti", PHON.ONSET con ] ]. bright_isect := aj_-_i_le & [ STEM < "bright" >, SYNSEM [ LKEYS.KEYREL.PRED "_bright_a_1_rel", PHON.ONSET con ] ]. brighten_v1 := v_np_noger_le & [ STEM < "brighten" >, SYNSEM [ LKEYS.KEYREL.PRED "_brighten_v_cause_rel", PHON.ONSET con ] ]. brighten_v2 := v_-_unacc_le & [ STEM < "brighten" >, SYNSEM [ LKEYS.KEYREL.PRED "_brighten_v_1_rel", PHON.ONSET con ] ]. brighter_a1 := aj_pp_i-cmp_le & [ STEM < "brighter" >, SYNSEM [ LKEYS.KEYREL.PRED "_bright_a_1_rel", PHON.ONSET con ] ]. brightest_a1 := aj_-_i-sup_le & [ STEM < "brightest" >, SYNSEM [ LKEYS.KEYREL.PRED "_bright_a_1_rel", PHON.ONSET con ] ]. brightest_n1 := n_-_c-pl-def_le & [ STEM < "brightest" >, SYNSEM [ LKEYS.KEYREL.PRED "_brightest_n_1_rel", PHON.ONSET con ] ]. brightly := av_-_i-vp_le & [ STEM < "brightly" >, SYNSEM [ LKEYS.KEYREL.PRED "_bright_a_1_rel", PHON.ONSET con ] ]. brightness_n1 := n_-_m_le & [ STEM < "brightness" >, SYNSEM [ LKEYS.KEYREL.PRED "_brightness_n_1_rel", PHON.ONSET con ] ]. brighton_n1 := n_-_pn-city_le & [ STEM < "Brighton" >, SYNSEM [ LKEYS.KEYREL.CARG "Brighton", PHON.ONSET con ] ]. briksdalsbreen := n_-_pn_le & [ STEM < "Briksdalsbreen" >, SYNSEM [ LKEYS.KEYREL.CARG "Briksdalsbreen", PHON.ONSET con ] ]. brilliance_n1 := n_-_m_le & [ STEM < "brilliance" >, SYNSEM [ LKEYS.KEYREL.PRED "_brilliance_n_1_rel", PHON.ONSET con ] ]. brilliant_isect := aj_-_i_le & [ STEM < "brilliant" >, SYNSEM [ LKEYS.KEYREL.PRED "_brilliant_a_1_rel", PHON.ONSET con ] ]. brilliantly := av_-_i-vp_le & [ STEM < "brilliantly" >, SYNSEM [ LKEYS.KEYREL.PRED "_brilliant_a_1_rel", PHON.ONSET con ] ]. brim_n1 := n_pp_c-of_le & [ STEM < "brim" >, SYNSEM [ LKEYS.KEYREL.PRED "_brim_n_of_rel", PHON.ONSET con ] ]. brim_v1 := v_-_le & [ STEM < "brim" >, SYNSEM [ LKEYS.KEYREL.PRED "_brim_v_with_rel", PHON.ONSET con ] ]. brim_with_v1 := v_pp_e_le & [ STEM < "brim" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_brim_v_with_rel" ], PHON.ONSET con ] ]. brine_n1 := n_-_m_le & [ STEM < "brine" >, SYNSEM [ LKEYS.KEYREL.PRED "_brine_n_1_rel", PHON.ONSET con ] ]. bring_about_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_bring_v_about_rel" ], PHON.ONSET con ] ]. bring_along_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _along_p_sel_rel, KEYREL.PRED "_bring_v_along_rel" ], PHON.ONSET con ] ]. bring_down_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_bring_v_down_rel" ], PHON.ONSET con ] ]. bring_forth_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _forth_p_sel_rel, KEYREL.PRED "_bring_v_forth_rel" ], PHON.ONSET con ] ]. bring_forward_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _forward_p_sel_rel, KEYREL.PRED "_bring_v_forward_rel" ], PHON.ONSET con ] ]. bring_home_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _home_a_sel_rel, KEYREL.PRED "_bring_v_home_rel" ], PHON.ONSET con ] ]. bring_in_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_bring_v_in_rel" ], PHON.ONSET con ] ]. bring_off_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_bring_v_off_rel" ], PHON.ONSET con ] ]. bring_over_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_bring_v_over_rel" ], PHON.ONSET con ] ]. bring_to_v1 := v_np-p_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_bring_v_to_rel" ], PHON.ONSET con ] ]. bring_up_v1 := v_p-np_le & [ STEM < "bring" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bring_v_up_rel" ], PHON.ONSET con ] ]. bring_v1 := v_np_le & [ STEM < "bring" >, SYNSEM [ LKEYS.KEYREL.PRED "_bring_v_1_rel", PHON.ONSET con ] ]. bring_v2 := v_np-pp_prop_le & [ STEM < "bring" >, SYNSEM [ LKEYS.KEYREL.PRED "_bring_v_1_rel", PHON.ONSET con ] ]. bring_v3 := v_np-np_only_le & [ STEM < "bring" >, SYNSEM [ LKEYS.KEYREL.PRED "_bring_v_1_rel", PHON.ONSET con ] ]. bring_v4 := v_np-vp_oeq_le & [ STEM < "bring" >, SYNSEM [ LKEYS.KEYREL.PRED "_bring_v_1_rel", PHON.ONSET con ] ]. brink_n1 := n_pp_c-of_le & [ STEM < "brink" >, SYNSEM [ LKEYS.KEYREL.PRED "_brink_n_of_rel", PHON.ONSET con ] ]. brisk_a1 := aj_-_i_le & [ STEM < "brisk" >, SYNSEM [ LKEYS.KEYREL.PRED "_brisk_a_1_rel", PHON.ONSET con ] ]. brisker := aj_pp_i-cmp_le & [ STEM < "brisker" >, SYNSEM [ LKEYS.KEYREL.PRED "_brisk_a_1_rel", PHON.ONSET con ] ]. briskest_a1 := aj_-_i-sup_le & [ STEM < "briskest" >, SYNSEM [ LKEYS.KEYREL.PRED "_brisk_a_1_rel", PHON.ONSET con ] ]. briskly_adv1 := av_-_i-vp_le & [ STEM < "briskly" >, SYNSEM [ LKEYS.KEYREL.PRED "_brisk_a_1_rel", PHON.ONSET con ] ]. bristle_n1 := n_-_c_le & [ STEM < "bristle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bristle_n_1_rel", PHON.ONSET con ] ]. bristle_v1 := v_-_le & [ STEM < "bristle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bristle_v_1_rel", PHON.ONSET con ] ]. bristol-myers_n1 := n_-_pn_le & [ STEM < "Bristol-", "Myers" >, SYNSEM [ LKEYS.KEYREL.CARG "Bristol-Myers", PHON.ONSET con ] ]. bristol-myers_squibb_n1 := n_-_pn_le & [ STEM < "Bristol-", "Myers", "Squibb" >, SYNSEM [ LKEYS.KEYREL.CARG "Bristol-Myers+Squibb", PHON.ONSET con ] ]. bristol_n1 := n_-_pn-city_le & [ STEM < "Bristol" >, SYNSEM [ LKEYS.KEYREL.CARG "Bristol", PHON.ONSET con ] ]. britain := n_-_pn_le & [ STEM < "Britain" >, SYNSEM [ LKEYS.KEYREL.CARG "Britain", PHON.ONSET con ] ]. british_a1 := aj_-_i_le & [ STEM < "British" >, SYNSEM [ LKEYS.KEYREL.PRED "_british_a_1_rel", PHON.ONSET con ] ]. british_abb_a1 := aj_-_i_le & [ STEM < "Br" >, SYNSEM [ LKEYS.KEYREL.PRED "_british_a_1_rel", PHON.ONSET con ] ]. british_abb_a2 := aj_-_i_le & [ STEM < "Br." >, SYNSEM [ LKEYS.KEYREL.PRED "_british_a_1_rel", PHON.ONSET con ] ]. british_air_n1 := n_-_pn_le & [ STEM < "British", "Air" >, SYNSEM [ LKEYS.KEYREL.CARG "British_Air", PHON.ONSET con ] ]. british_airways_n1 := n_-_pn_le & [ STEM < "British", "Airways" >, SYNSEM [ LKEYS.KEYREL.CARG "Britishairways", PHON.ONSET con ] ]. british_n1 := n_-_c-pl-nocnh_le & [ STEM < "British" >, SYNSEM [ LKEYS.KEYREL.PRED "_british_n_1_rel", PHON.ONSET con ] ]. british_rail_n1 := n_-_pn_le & [ STEM < "British", "Rail" >, SYNSEM [ LKEYS.KEYREL.CARG "British+Rail", PHON.ONSET con ] ]. briton_n1 := n_-_c_le & [ STEM < "Briton" >, SYNSEM [ LKEYS.KEYREL.PRED "_briton_n_1_rel", PHON.ONSET con ] ]. brittany_n1 := n_-_pn_le & [ STEM < "Brittany" >, SYNSEM [ LKEYS.KEYREL.CARG "Brittany", PHON.ONSET con ] ]. brittle_a1 := aj_-_i_le & [ STEM < "brittle" >, SYNSEM [ LKEYS.KEYREL.PRED "_brittle_a_1_rel", PHON.ONSET con ] ]. brittle_n1 := n_-_mc_le & [ STEM < "brittle" >, SYNSEM [ LKEYS.KEYREL.PRED "_brittle_n_1_rel", PHON.ONSET con ] ]. bro := n_-_pn_le & [ STEM < "Bro" >, SYNSEM [ LKEYS.KEYREL.CARG "Bro", PHON.ONSET con ] ]. broad_a1 := aj_-_i_le & [ STEM < "broad" >, SYNSEM [ LKEYS.KEYREL.PRED "_broad_a_1_rel", PHON.ONSET con ] ]. broad_n1 := n_-_c-nocnh_le & [ STEM < "broad" >, SYNSEM [ LKEYS.KEYREL.PRED "_broad_n_1_rel", PHON.ONSET con ] ]. broadcast_n1 := n_-_mc_le & [ STEM < "broadcast" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadcast_n_1_rel", PHON.ONSET con ] ]. broadcast_v1 := v_np*_le & [ STEM < "broadcast" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadcast_v_to_rel", PHON.ONSET con ] ]. broadcast_v2 := v_np-pp_to_le & [ STEM < "broadcast" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadcast_v_to_rel", PHON.ONSET con ] ]. broadcasting_n1 := n_pp_c-of_le & [ STEM < "broadcasting" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadcasting_n_of_rel", PHON.ONSET con ] ]. broadcloth_n1 := n_-_mc_le & [ STEM < "broadcloth" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadcloth_n_1_rel", PHON.ONSET con ] ]. broaden_v1 := v_np_noger_le & [ STEM < "broaden" >, SYNSEM [ LKEYS.KEYREL.PRED "_broaden_v_cause_rel", PHON.ONSET con ] ]. broaden_v2 := v_-_unacc_le & [ STEM < "broaden" >, SYNSEM [ LKEYS.KEYREL.PRED "_broaden_v_1_rel", PHON.ONSET con ] ]. broaden_v3 := v_np-vp_oeq_le & [ STEM < "broaden" >, SYNSEM [ LKEYS.KEYREL.PRED "_broaden_v_cause_rel", PHON.ONSET con ] ]. broaden_v4 := v_vp_seq_le & [ STEM < "broaden" >, SYNSEM [ LKEYS.KEYREL.PRED "_broaden_v_1_rel", PHON.ONSET con ] ]. broader := aj_pp_i-cmp_le & [ STEM < "broader" >, SYNSEM [ LKEYS.KEYREL.PRED "_broad_a_1_rel", PHON.ONSET con ] ]. broadest_a1 := aj_-_i-sup_le & [ STEM < "broadest" >, SYNSEM [ LKEYS.KEYREL.PRED "_broad_a_1_rel", PHON.ONSET con ] ]. broadly_adv := av_-_i-vp_le & [ STEM < "broadly" >, SYNSEM [ LKEYS.KEYREL.PRED "_broad_a_1_rel", PHON.ONSET con ] ]. broadsword_n1 := n_-_c_le & [ STEM < "broadsword" >, SYNSEM [ LKEYS.KEYREL.PRED "_broadsword_n_1_rel", PHON.ONSET con ] ]. broadway_n1 := n_-_pn_le & [ STEM < "Broadway" >, SYNSEM [ LKEYS.KEYREL.CARG "Broadway", PHON.ONSET con ] ]. brochure_n1 := n_pp_c-of_le & [ STEM < "brochure" >, SYNSEM [ LKEYS.KEYREL.PRED "_brochure_n_of_rel", PHON.ONSET con ] ]. broder_n1 := n_-_pn_le & [ STEM < "Broder" >, SYNSEM [ LKEYS.KEYREL.CARG "Broder", PHON.ONSET con ] ]. broiler_n1 := n_-_c_le & [ STEM < "broiler" >, SYNSEM [ LKEYS.KEYREL.PRED "_broiler_n_1_rel", PHON.ONSET con ] ]. broke_robust := aj_-_i_le & [ STEM < "broke" >, SYNSEM [ LKEYS.KEYREL.PRED "_broken_a_1_rel", PHON.ONSET con ] ]. broker_n1 := n_-_c_le & [ STEM < "broker" >, SYNSEM [ LKEYS.KEYREL.PRED "_broker_n_1_rel", PHON.ONSET con ] ]. broker_v1 := v_np_le & [ STEM < "broker" >, SYNSEM [ LKEYS.KEYREL.PRED "_broker_v_1_rel", PHON.ONSET con ] ]. brontosaurus_n1 := n_-_c_le & [ STEM < "brontosaurus" >, SYNSEM [ LKEYS.KEYREL.PRED "_brontosaurus_n_1_rel", PHON.ONSET con ] ]. bronx_n1 := n_-_c-nm_le & [ STEM < "Bronx" >, SYNSEM [ LKEYS.KEYREL.CARG "Bronx", PHON.ONSET con ] ]. bronze_n1 := n_-_mc-col_le & [ STEM < "bronze" >, SYNSEM [ LKEYS.KEYREL.PRED "_bronze_n_1_rel", PHON.ONSET con ] ]. bronze_v1 := v_np_noger_le & [ STEM < "bronze" >, SYNSEM [ LKEYS.KEYREL.PRED "_bronze_v_cause_rel", PHON.ONSET con ] ]. bronze_v2 := v_-_unacc_le & [ STEM < "bronze" >, SYNSEM [ LKEYS.KEYREL.PRED "_bronze_v_1_rel", PHON.ONSET con ] ]. brood_n1 := n_-_c_le & [ STEM < "brood" >, SYNSEM [ LKEYS.KEYREL.PRED "_brood_n_1_rel", PHON.ONSET con ] ]. brood_v1 := v_-_le & [ STEM < "brood" >, SYNSEM [ LKEYS.KEYREL.PRED "_brood_v_1_rel", PHON.ONSET con ] ]. brook_n1 := n_-_c_le & [ STEM < "brook" >, SYNSEM [ LKEYS.KEYREL.PRED "_brook_n_1_rel", PHON.ONSET con ] ]. brook_post_ttl := n_-_tt-post_le & [ STEM < "Brook" >, SYNSEM [ LKEYS.KEYREL.PRED "_brook_n_1_rel", PHON.ONSET con ] ]. brook_v1 := v_np_le & [ STEM < "brook" >, SYNSEM [ LKEYS.KEYREL.PRED "_brook_v_1_rel", PHON.ONSET con ] ]. brooke_n1 := n_-_pn_le & [ STEM < "Brooke" >, SYNSEM [ LKEYS.KEYREL.CARG "Brooke", PHON.ONSET con ] ]. brookings_n1 := n_-_pn_le & [ STEM < "Brookings" >, SYNSEM [ LKEYS.KEYREL.CARG "Brookings", PHON.ONSET con ] ]. brooklyn_n1 := n_-_pn-city_le & [ STEM < "Brooklyn" >, SYNSEM [ LKEYS.KEYREL.CARG "Brooklyn", PHON.ONSET con ] ]. brother_in_law_n1 := n_-_c_le & [ STEM < "brother-", "in-", "law" >, SYNSEM [ LKEYS.KEYREL.PRED "_brother+in+law_n_1_rel", PHON.ONSET con ] ]. brother_n1 := n_pp_c-of_le & [ STEM < "brother" >, SYNSEM [ LKEYS.KEYREL.PRED "_brother_n_of_rel", PHON.ONSET con ] ]. brother_n2 := n_-_pn_le & [ STEM < "Brother" >, SYNSEM [ LKEYS.KEYREL.CARG "Brother", PHON.ONSET con ] ]. brow_n1 := n_-_c_le & [ STEM < "brow" >, SYNSEM [ LKEYS.KEYREL.PRED "_brow_n_1_rel", PHON.ONSET con ] ]. brown_n1 := n_-_pn_le & [ STEM < "Brown" >, SYNSEM [ LKEYS.KEYREL.CARG "Brown", PHON.ONSET con ] ]. brown_n2 := n_-_mc-col_le & [ STEM < "brown" >, SYNSEM [ LKEYS.KEYREL.PRED "_brown_n_1_rel", PHON.ONSET con ] ]. brown_v1 := v_np_noger_le & [ STEM < "brown" >, SYNSEM [ LKEYS.KEYREL.PRED "_brown_v_cause_rel", PHON.ONSET con ] ]. brown_v2 := v_-_unacc_le & [ STEM < "brown" >, SYNSEM [ LKEYS.KEYREL.PRED "_brown_v_1_rel", PHON.ONSET con ] ]. browne := n_-_pn_le & [ STEM < "Browne" >, SYNSEM [ LKEYS.KEYREL.CARG "Browne", PHON.ONSET con ] ]. brownie_n1 := n_-_c_le & [ STEM < "brownie" >, SYNSEM [ LKEYS.KEYREL.PRED "_brownie_n_1_rel", PHON.ONSET con ] ]. browning_n1 := n_-_pn_le & [ STEM < "Browning" >, SYNSEM [ LKEYS.KEYREL.CARG "Browning", PHON.ONSET con ] ]. browse_v1 := v_np*_le & [ STEM < "browse" >, SYNSEM [ LKEYS.KEYREL.PRED "_browse_v_1_rel", PHON.ONSET con ] ]. browser_n1 := n_-_c_le & [ STEM < "browser" >, SYNSEM [ LKEYS.KEYREL.PRED "_browser_n_1_rel", PHON.ONSET con ] ]. bru_n1 := n_-_pn_le & [ STEM < "Bru" >, SYNSEM [ LKEYS.KEYREL.CARG "Bru", PHON.ONSET con ] ]. bruaas_n1 := n_-_pn_le & [ STEM < "Bruaas" >, SYNSEM [ LKEYS.KEYREL.CARG "Bruaas", PHON.ONSET con ] ]. bruce_n1 := n_-_pn_le & [ STEM < "Bruce" >, SYNSEM [ LKEYS.KEYREL.CARG "Bruce", PHON.ONSET con ] ]. bruegel_n1 := n_-_pn_le & [ STEM < "Bruegel" >, SYNSEM [ LKEYS.KEYREL.CARG "Bruegel", PHON.ONSET con ] ]. bruise_n1 := n_-_c_le & [ STEM < "bruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_bruise_n_1_rel", PHON.ONSET con ] ]. bruise_v1 := v_np_noger_le & [ STEM < "bruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_bruise_v_cause_rel", PHON.ONSET con ] ]. bruise_v2 := v_-_unacc_le & [ STEM < "bruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_bruise_v_1_rel", PHON.ONSET con ] ]. brunch_n1 := n_-_c_le & [ STEM < "brunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_brunch_n_1_rel", PHON.ONSET con ] ]. brunei_n1 := n_-_pn_le & [ STEM < "Brunei" >, SYNSEM [ LKEYS.KEYREL.CARG "Brunei", PHON.ONSET con ] ]. brunswick_n1 := n_-_pn-city_le & [ STEM < "Brunswick" >, SYNSEM [ LKEYS.KEYREL.CARG "Brunswick", PHON.ONSET con ] ]. brurskardet_n1 := n_-_pn-city_le & [ STEM < "Brurskardet" >, SYNSEM [ LKEYS.KEYREL.CARG "Brurskardet", PHON.ONSET con ] ]. brurskarknappen_n1 := n_-_pn_le & [ STEM < "Brurskarknappen" >, SYNSEM [ LKEYS.KEYREL.CARG "Brurskarknappen", PHON.ONSET con ] ]. brurskartjørni_n1 := n_-_pn_le & [ STEM < "Brurskartjørni" >, SYNSEM [ LKEYS.KEYREL.CARG "Brurskartjørni", PHON.ONSET con ] ]. brush_aside_v1 := v_p-np_le & [ STEM < "brush" >, SYNSEM [ LKEYS [ --COMPKEY _aside_p_sel_rel, KEYREL.PRED "_brush_v_aside_rel" ], PHON.ONSET con ] ]. brush_away_v1 := v_p-np_le & [ STEM < "brush" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_brush_v_away_rel" ], PHON.ONSET con ] ]. brush_n1 := n_-_mc_le & [ STEM < "brush" >, SYNSEM [ LKEYS.KEYREL.PRED "_brush_n_1_rel", PHON.ONSET con ] ]. brush_off_v1 := v_p-np_le & [ STEM < "brush" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_brush_v_off_rel" ], PHON.ONSET con ] ]. brush_v1 := v_np*_le & [ STEM < "brush" >, SYNSEM [ LKEYS.KEYREL.PRED "_brush_v_1_rel", PHON.ONSET con ] ]. brush_v2 := v_np-pp_prop_le & [ STEM < "brush" >, SYNSEM [ LKEYS.KEYREL.PRED "_brush_v_1_rel", PHON.ONSET con ] ]. brushlike_a1 := aj_-_i_le & [ STEM < "brushlike" >, SYNSEM [ LKEYS.KEYREL.PRED "_brushlike_a_1_rel", PHON.ONSET con ] ]. brushlike_a2 := aj_-_i_le & [ STEM < "brush-", "like" >, SYNSEM [ LKEYS.KEYREL.PRED "_brushlike_a_1_rel", PHON.ONSET con ] ]. brussels_n1 := n_-_pn-city_le & [ STEM < "Brussels" >, SYNSEM [ LKEYS.KEYREL.CARG "Brussels", PHON.ONSET con ] ]. brutal_a1 := aj_-_i_le & [ STEM < "brutal" >, SYNSEM [ LKEYS.KEYREL.PRED "_brutal_a_1_rel", PHON.ONSET con ] ]. brutally_adv := av_-_i-vp_le & [ STEM < "brutally" >, SYNSEM [ LKEYS.KEYREL.PRED "_brutal_a_1_rel", PHON.ONSET con ] ]. brute_a1 := aj_-_i_le & [ STEM < "brute" >, SYNSEM [ LKEYS.KEYREL.PRED "_brute_a_1_rel", PHON.ONSET con ] ]. brute_n1 := n_-_c_le & [ STEM < "brute" >, SYNSEM [ LKEYS.KEYREL.PRED "_brute_n_1_rel", PHON.ONSET con ] ]. bryan_n1 := n_-_pn_le & [ STEM < "Bryan" >, SYNSEM [ LKEYS.KEYREL.CARG "Bryan", PHON.ONSET con ] ]. bryn_mawr_n1 := n_-_pn_le & [ STEM < "Bryn", "Mawr" >, SYNSEM [ LKEYS.KEYREL.CARG "Bryn+Mawr", PHON.ONSET con ] ]. bråkdalen_n1 := n_-_pn-city_le & [ STEM < "Bråkdalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bråkdalen", PHON.ONSET con ] ]. bt_n1 := n_-_pn_le & [ STEM < "BT" >, SYNSEM [ LKEYS.KEYREL.CARG "BT", PHON.ONSET con ] ]. bub_n1 := n_-_pn_le & [ STEM < "Bub" >, SYNSEM [ LKEYS.KEYREL.CARG "Bub", PHON.ONSET con ] ]. bubble_n1 := n_-_c_le & [ STEM < "bubble" >, SYNSEM [ LKEYS.KEYREL.PRED "_bubble_n_1_rel", PHON.ONSET con ] ]. bubble_over_v1 := v_p_le & [ STEM < "bubble" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_bubble_v_over_rel" ], PHON.ONSET con ] ]. bubble_up_v1 := v_p_le & [ STEM < "bubble" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bubble_v_up_rel" ], PHON.ONSET con ] ]. bubble_v1 := v_-_le & [ STEM < "bubble" >, SYNSEM [ LKEYS.KEYREL.PRED "_bubble_v_1_rel", PHON.ONSET con ] ]. buccinum := n_-_pn_le & [ STEM < "Buccinum" >, SYNSEM [ LKEYS.KEYREL.CARG "Buccinum", PHON.ONSET con ] ]. buck_money_n1 := n_-_c-meas_le & [ STEM < "buck" >, SYNSEM [ LKEYS.KEYREL.PRED "_buck_n_money_rel", PHON.ONSET con ] ]. buck_v1 := v_np*_le & [ STEM < "buck" >, SYNSEM [ LKEYS.KEYREL.PRED "_buck_v_1_rel", PHON.ONSET con ] ]. buckboard_n1 := n_-_c_le & [ STEM < "buckboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_buckboard_n_1_rel", PHON.ONSET con ] ]. bucket_n1 := n_-_c_le & [ STEM < "bucket" >, SYNSEM [ LKEYS.KEYREL.PRED "_bucket_n_1_rel", PHON.ONSET con ] ]. buckingham_n1 := n_-_pn_le & [ STEM < "Buckingham" >, SYNSEM [ LKEYS.KEYREL.CARG "Buckingham", PHON.ONSET con ] ]. buckle_n1 := n_-_c_le & [ STEM < "buckle" >, SYNSEM [ LKEYS.KEYREL.PRED "_buckle_n_1_rel", PHON.ONSET con ] ]. buckle_v1 := v_-_unacc_le & [ STEM < "buckle" >, SYNSEM [ LKEYS.KEYREL.PRED "_buckle_v_1_rel", PHON.ONSET con ] ]. buckle_v2 := v_np_noger_le & [ STEM < "buckle" >, SYNSEM [ LKEYS.KEYREL.PRED "_buckle_v_cause_rel", PHON.ONSET con ] ]. buckskin_n1 := n_-_mc_le & [ STEM < "buckskin" >, SYNSEM [ LKEYS.KEYREL.PRED "_buckskin_n_1_rel", PHON.ONSET con ] ]. bucolic_a1 := aj_-_i_le & [ STEM < "bucolic" >, SYNSEM [ LKEYS.KEYREL.PRED "_bucolic_a_1_rel", PHON.ONSET con ] ]. bud_n1 := n_-_c_le & [ STEM < "bud" >, SYNSEM [ LKEYS.KEYREL.PRED "_bud_n_1_rel", PHON.ONSET con ] ]. bud_v1 := v_-_le & [ STEM < "bud" >, SYNSEM [ LKEYS.KEYREL.PRED "_bud_v_1_rel", PHON.ONSET con ] ]. buddha_n1 := n_-_pn_le & [ STEM < "Buddha" >, SYNSEM [ LKEYS.KEYREL.CARG "Buddha", PHON.ONSET con ] ]. buddhism_n1 := n_-_m_le & [ STEM < "buddhism" >, SYNSEM [ LKEYS.KEYREL.PRED "_buddhism_n_1_rel", PHON.ONSET con ] ]. buddhist_a1 := aj_-_i_le & [ STEM < "buddhist" >, SYNSEM [ LKEYS.KEYREL.PRED "_buddhist_a_1_rel", PHON.ONSET con ] ]. buddhist_n1 := n_-_c_le & [ STEM < "buddhist" >, SYNSEM [ LKEYS.KEYREL.PRED "_buddhist_n_1_rel", PHON.ONSET con ] ]. buddy_n1 := n_-_pn_le & [ STEM < "Buddy" >, SYNSEM [ LKEYS.KEYREL.CARG "Buddy", PHON.ONSET con ] ]. budge_v1 := v_np_noger_le & [ STEM < "budge" >, SYNSEM [ LKEYS.KEYREL.PRED "_budge_v_cause_rel", PHON.ONSET con ] ]. budge_v2 := v_-_unacc_le & [ STEM < "budge" >, SYNSEM [ LKEYS.KEYREL.PRED "_budge_v_1_rel", PHON.ONSET con ] ]. budgerigar_n1 := n_-_c_le & [ STEM < "budgerigar" >, SYNSEM [ LKEYS.KEYREL.PRED "_budgerigar_n_1_rel", PHON.ONSET con ] ]. budget_for_v1 := v_pp_e_le & [ STEM < "budget" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_budget_v_for_rel" ], PHON.ONSET con ] ]. budget_n1 := n_-_c_le & [ STEM < "budget" >, SYNSEM [ LKEYS.KEYREL.PRED "_budget_n_1_rel", PHON.ONSET con ] ]. budget_v1 := v_np*_le & [ STEM < "budget" >, SYNSEM [ LKEYS.KEYREL.PRED "_budget_v_for_rel", PHON.ONSET con ] ]. budgetary_a1 := aj_-_i_le & [ STEM < "budgetary" >, SYNSEM [ LKEYS.KEYREL.PRED "_budgetary_a_1_rel", PHON.ONSET con ] ]. budgie_n1 := n_-_c_le & [ STEM < "budgie" >, SYNSEM [ LKEYS.KEYREL.PRED "_budgie_n_1_rel", PHON.ONSET con ] ]. budweiser_n1 := n_-_pn_le & [ STEM < "Budweiser" >, SYNSEM [ LKEYS.KEYREL.CARG "Budweiser", PHON.ONSET con ] ]. budzyn_n1 := n_-_pn_le & [ STEM < "Budzyn" >, SYNSEM [ LKEYS.KEYREL.CARG "Budzyn", PHON.ONSET con ] ]. buechner_nd := n_-_pn_le & [ STEM < "Buechner" >, SYNSEM [ LKEYS.KEYREL.CARG "Buechner", PHON.ONSET con ] ]. buehne_nd := n_-_pn_le & [ STEM < "Buehne" >, SYNSEM [ LKEYS.KEYREL.CARG "Buehne", PHON.ONSET con ] ]. buff_adj := aj_-_i_le & [ STEM < "buff" >, SYNSEM [ LKEYS.KEYREL.PRED "_buff_a_1_rel", PHON.ONSET con ] ]. buff_up_v1 := v_p-np_le & [ STEM < "buff" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_buff_v_up_rel" ], PHON.ONSET con ] ]. buff_v1 := v_np_le & [ STEM < "buff" >, SYNSEM [ LKEYS.KEYREL.PRED "_buff_v_1_rel", PHON.ONSET con ] ]. buffalo_n1 := n_-_pn-city_le & [ STEM < "Buffalo" >, SYNSEM [ LKEYS.KEYREL.CARG "Buffalo", PHON.ONSET con ] ]. buffer_n1 := n_-_mc_le & [ STEM < "buffer" >, SYNSEM [ LKEYS.KEYREL.PRED "_buffer_n_1_rel", PHON.ONSET con ] ]. buffer_v1 := v_np*_le & [ STEM < "buffer" >, SYNSEM [ LKEYS.KEYREL.PRED "_buffer_v_1_rel", PHON.ONSET con ] ]. buffet_n1 := n_-_c_le & [ STEM < "buffet" >, SYNSEM [ LKEYS.KEYREL.PRED "_buffet_n_1_rel", PHON.ONSET con ] ]. buffet_v2 := v_np_le & [ STEM < "buffet" >, SYNSEM [ LKEYS.KEYREL.PRED "_buffet_v_1_rel", PHON.ONSET con ] ]. bug_n1 := n_-_c_le & [ STEM < "bug" >, SYNSEM [ LKEYS.KEYREL.PRED "_bug_n_1_rel", PHON.ONSET con ] ]. bug_n2 := n_-_m-nocnh_le & [ STEM < "bug" >, SYNSEM [ LKEYS.KEYREL.PRED "_bug_n_sea_rel", PHON.ONSET con ] ]. bug_v1 := v_np_le & [ STEM < "bug" >, SYNSEM [ LKEYS.KEYREL.PRED "_bug_v_1_rel", PHON.ONSET con ] ]. bugle_n1 := n_-_c_le & [ STEM < "bugle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bugle_n_1_rel", PHON.ONSET con ] ]. build_in_v1 := v_p-np_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_build_v_in_rel" ], PHON.ONSET con ] ]. build_into_v1 := v_np-pp_e_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_build_v_into_rel" ], PHON.ONSET con ] ]. build_n1 := n_-_m_le & [ STEM < "build" >, SYNSEM [ LKEYS.KEYREL.PRED "_build_n_1_rel", PHON.ONSET con ] ]. build_on_v1 := v_pp_e_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_build_v_on_rel" ], PHON.ONSET con ] ]. build_on_v2 := v_p_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_build_v_on_rel" ], PHON.ONSET con ] ]. build_up_v1 := v_p-np_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_build_v_up_rel" ], PHON.ONSET con ] ]. build_up_v2 := v_p_le & [ STEM < "build" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_build_v_up_rel" ], PHON.ONSET con ] ]. build_v1 := v_np*_le & [ STEM < "build" >, SYNSEM [ LKEYS.KEYREL.PRED "_build_v_1_rel", PHON.ONSET con ] ]. build_v2 := v_np-prd_oeq_le & [ STEM < "build" >, SYNSEM [ LKEYS.KEYREL.PRED "_build_v_1_rel", PHON.ONSET con ] ]. builder_n1 := n_pp_c-of_le & [ STEM < "builder" >, SYNSEM [ LKEYS.KEYREL.PRED "_builder_n_of_rel", PHON.ONSET con ] ]. building_n1 := n_-_c_le & [ STEM < "building" >, SYNSEM [ LKEYS.KEYREL.PRED "_building_n_1_rel", PHON.ONSET con ] ]. building_post_ttl := n_-_tt-post_le & [ STEM < "Building" >, SYNSEM [ LKEYS.KEYREL.PRED "_building_n_1_rel", PHON.ONSET con ] ]. built_in_a1 := aj_-_i_le & [ STEM < "built", "in" >, SYNSEM [ LKEYS.KEYREL.PRED "_built+in_a_1_rel", PHON.ONSET con ] ]. built_in_a2 := aj_-_i_le & [ STEM < "built-", "in" >, SYNSEM [ LKEYS.KEYREL.PRED "_built+in_a_1_rel", PHON.ONSET con ] ]. bukkehø_n1 := n_-_pn_le & [ STEM < "Bukkehø" >, SYNSEM [ LKEYS.KEYREL.CARG "Bukkehø", PHON.ONSET con ] ]. bukkelægeret_n1 := n_-_pn_le & [ STEM < "Bukkelægeret" >, SYNSEM [ LKEYS.KEYREL.CARG "Bukkelægeret", PHON.ONSET con ] ]. bulb_n1 := n_-_c_le & [ STEM < "bulb" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulb_n_1_rel", PHON.ONSET con ] ]. bulge_n1 := n_-_c_le & [ STEM < "bulge" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulge_n_1_rel", PHON.ONSET con ] ]. bulge_v1 := v_-_le & [ STEM < "bulge" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulge_v_1_rel", PHON.ONSET con ] ]. bulk_n1 := n_-_m_le & [ STEM < "bulk" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulk_n_1_rel", PHON.ONSET con ] ]. bulkier := aj_pp_i-cmp_le & [ STEM < "bulkier" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulky_a_1_rel", PHON.ONSET con ] ]. bulky_adj := aj_-_i_le & [ STEM < "bulky" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulky_a_1_rel", PHON.ONSET con ] ]. bull_n1 := n_-_c_le & [ STEM < "bull" >, SYNSEM [ LKEYS.KEYREL.PRED "_bull_n_1_rel", PHON.ONSET con ] ]. bullet_n1 := n_-_c_le & [ STEM < "bullet" >, SYNSEM [ LKEYS.KEYREL.PRED "_bullet_n_1_rel", PHON.ONSET con ] ]. bulletin_n1 := n_-_c_le & [ STEM < "bulletin" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulletin_n_1_rel", PHON.ONSET con ] ]. bullock_n1 := n_-_pn_le & [ STEM < "Bullock" >, SYNSEM [ LKEYS.KEYREL.CARG "Bullock", PHON.ONSET con ] ]. bully_n1 := n_-_c_le & [ STEM < "bully" >, SYNSEM [ LKEYS.KEYREL.PRED "_bully_n_1_rel", PHON.ONSET con ] ]. bully_v1 := v_np-pp_e_le & [ STEM < "bully" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_bully_v_into_rel" ], PHON.ONSET con ] ]. bully_v2 := v_np_le & [ STEM < "bully" >, SYNSEM [ LKEYS.KEYREL.PRED "_bully_v_into_rel", PHON.ONSET con ] ]. buluvatna_n1 := n_-_pn_le & [ STEM < "Buluvatna" >, SYNSEM [ LKEYS.KEYREL.CARG "Buluvatna", PHON.ONSET con ] ]. bulwark_n1 := n_-_c_le & [ STEM < "bulwark" >, SYNSEM [ LKEYS.KEYREL.PRED "_bulwark_n_1_rel", PHON.ONSET con ] ]. bum_n1 := n_-_c_le & [ STEM < "bum" >, SYNSEM [ LKEYS.KEYREL.PRED "_bum_n_1_rel", PHON.ONSET con ] ]. bumblebee_n1 := n_-_c_le & [ STEM < "bumblebee" >, SYNSEM [ LKEYS.KEYREL.PRED "_bumblebee_n_1_rel", PHON.ONSET con ] ]. bummer_n1 := n_-_c_le & [ STEM < "bummer" >, SYNSEM [ LKEYS.KEYREL.PRED "_bummer_n_1_rel", PHON.ONSET con ] ]. bump_into_v1 := v_pp_e_le & [ STEM < "bump" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_bump_v_into_rel" ], PHON.ONSET con ] ]. bump_n1 := n_-_c_le & [ STEM < "bump" >, SYNSEM [ LKEYS.KEYREL.PRED "_bump_n_1_rel", PHON.ONSET con ] ]. bump_v1 := v_np*_le & [ STEM < "bump" >, SYNSEM [ LKEYS.KEYREL.PRED "_bump_v_1_rel", PHON.ONSET con ] ]. bump_v2 := v_np-pp_prop_le & [ STEM < "bump" >, SYNSEM [ LKEYS.KEYREL.PRED "_bump_v_1_rel", PHON.ONSET con ] ]. bumpy_a1 := aj_-_i_le & [ STEM < "bumpy" >, SYNSEM [ LKEYS.KEYREL.PRED "_bumpy_a_1_rel", PHON.ONSET con ] ]. bunch_n1 := n_-_c-gr_le & [ STEM < "bunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunch_n_of_rel", PHON.ONSET con ] ]. bunch_n2 := n_pp_c-gr-of_le & [ STEM < "bunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunch_n_of_rel", PHON.ONSET con ] ]. bunch_v1 := v_-_le & [ STEM < "bunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunch_v_1_rel", PHON.ONSET con ] ]. bund_n1 := n_-_pn_le & [ STEM < "Bund" >, SYNSEM [ LKEYS.KEYREL.CARG "bund_n_1_Rel", PHON.ONSET con ] ]. bundesbahn_n1 := n_-_c_le & [ STEM < "bundesbahn" >, SYNSEM [ LKEYS.KEYREL.PRED "_bundesbahn_n_1_rel", PHON.ONSET con ] ]. bundle_n1 := n_-_c_le & [ STEM < "bundle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bundle_n_1_rel", PHON.ONSET con ] ]. bundle_up_v1 := v_p-np_le & [ STEM < "bundle" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bundle_v_up_rel" ], PHON.ONSET con ] ]. bundle_up_v2 := v_p_le & [ STEM < "bundle" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_bundle_v_up_rel" ], PHON.ONSET con ] ]. bundle_v1 := v_np_le & [ STEM < "bundle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bundle_v_1_rel", PHON.ONSET con ] ]. bundle_v2 := v_np-pp_prop_le & [ STEM < "bundle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bundle_v_1_rel", PHON.ONSET con ] ]. bunk_n1 := n_-_mc_le & [ STEM < "bunk" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunk_n_1_rel", PHON.ONSET con ] ]. bunk_v1 := v_-_le & [ STEM < "bunk" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunk_v_1_rel", PHON.ONSET con ] ]. bunker_n1 := n_-_c_le & [ STEM < "bunker" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunker_n_1_rel", PHON.ONSET con ] ]. bunny_n1 := n_-_pn_le & [ STEM < "Bunny" >, SYNSEM [ LKEYS.KEYREL.CARG "Bunny", PHON.ONSET con ] ]. bunny_n2 := n_-_c_le & [ STEM < "bunny" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunny_n_1_rel", PHON.ONSET con ] ]. bunt_n1 := n_-_c_le & [ STEM < "bunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunt_n_1_rel", PHON.ONSET con ] ]. bunt_v1 := v_np*_le & [ STEM < "bunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunt_v_1_rel", PHON.ONSET con ] ]. bunting_n1 := n_-_m_le & [ STEM < "bunting" >, SYNSEM [ LKEYS.KEYREL.PRED "_bunting_n_1_rel", PHON.ONSET con ] ]. bunyan_n1 := n_-_pn_le & [ STEM < "Bunyan" >, SYNSEM [ LKEYS.KEYREL.CARG "Bunyan", PHON.ONSET con ] ]. bunznudders_n1 := n_-_pn_le & [ STEM < "Bunznudders" >, SYNSEM [ LKEYS.KEYREL.CARG "Bunznudders", PHON.ONSET con ] ]. buoy_n1 := n_-_c_le & [ STEM < "buoy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buoy_n_1_rel", PHON.ONSET con ] ]. buoy_up_v1 := v_p-np_le & [ STEM < "buoy" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_buoy_v_up_rel" ], PHON.ONSET con ] ]. buoy_v1 := v_np_le & [ STEM < "buoy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buoy_v_1_rel", PHON.ONSET con ] ]. buoyancy_n1 := n_-_mc_le & [ STEM < "buoyancy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buoyancy_n_1_rel", PHON.ONSET con ] ]. buoyant_a1 := aj_-_i_le & [ STEM < "buoyant" >, SYNSEM [ LKEYS.KEYREL.PRED "_buoyant_a_1_rel", PHON.ONSET con ] ]. burden_n1 := n_-_c_le & [ STEM < "burden" >, SYNSEM [ LKEYS.KEYREL.PRED "_burden_n_1_rel", PHON.ONSET con ] ]. burden_v1 := v_np_le & [ STEM < "burden" >, SYNSEM [ LKEYS.KEYREL.PRED "_burden_v_1_rel", PHON.ONSET con ] ]. burdensome_a1 := aj_-_i_le & [ STEM < "burdensome" >, SYNSEM [ LKEYS.KEYREL.PRED "_burdensome_a_1_rel", PHON.ONSET con ] ]. burdock_n1 := n_-_c_le & [ STEM < "burdock" >, SYNSEM [ LKEYS.KEYREL.PRED "_burdock_n_1_rel", PHON.ONSET con ] ]. bureau_n1 := n_-_c_le & [ STEM < "bureau" >, SYNSEM [ LKEYS.KEYREL.PRED "_bureau_n_1_rel", PHON.ONSET con ] ]. bureaucracy_n1 := n_-_c_le & [ STEM < "bureaucracy" >, SYNSEM [ LKEYS.KEYREL.PRED "_bureaucracy_n_1_rel", PHON.ONSET con ] ]. bureaucratic_a1 := aj_-_i_le & [ STEM < "bureaucratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_bureaucratic_a_1_rel", PHON.ONSET con ] ]. burgeon_v1 := v_-_le & [ STEM < "burgeon" >, SYNSEM [ LKEYS.KEYREL.PRED "_burgeon_v_1_rel", PHON.ONSET con ] ]. burglar_n1 := n_-_c_le & [ STEM < "burglar" >, SYNSEM [ LKEYS.KEYREL.PRED "_burglar_n_1_rel", PHON.ONSET con ] ]. burglary_n1 := n_pp_mc-of_le & [ STEM < "burglary" >, SYNSEM [ LKEYS.KEYREL.PRED "_burglary_n_of_rel", PHON.ONSET con ] ]. burgundy_n1 := n_-_mc-col_le & [ STEM < "burgundy" >, SYNSEM [ LKEYS.KEYREL.PRED "_burgundy_n_1_rel", PHON.ONSET con ] ]. burial_n1 := n_pp_mc-of_le & [ STEM < "burial" >, SYNSEM [ LKEYS.KEYREL.PRED "_burial_n_of_rel", PHON.ONSET con ] ]. burkette_n1 := n_-_pn_le & [ STEM < "Burkette" >, SYNSEM [ LKEYS.KEYREL.CARG "Burkette", PHON.ONSET con ] ]. burkina_faso_n1 := n_-_pn_le & [ STEM < "Burkina", "Faso" >, SYNSEM [ LKEYS.KEYREL.CARG "Burkina_Faso", PHON.ONSET con ] ]. burl_n1 := n_-_c_le & [ STEM < "burl" >, SYNSEM [ LKEYS.KEYREL.PRED "_burl_n_1_rel", PHON.ONSET con ] ]. burleson_n1 := n_-_pn_le & [ STEM < "Burleson" >, SYNSEM [ LKEYS.KEYREL.CARG "Burleson", PHON.ONSET con ] ]. burly_a1 := aj_-_i_le & [ STEM < "burly" >, SYNSEM [ LKEYS.KEYREL.PRED "_burly_a_1_rel", PHON.ONSET con ] ]. burma_n1 := n_-_pn_le & [ STEM < "Burma" >, SYNSEM [ LKEYS.KEYREL.CARG "Burma", PHON.ONSET con ] ]. burn_down_v1 := v_p-np_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_burn_v_down_rel" ], PHON.ONSET con ] ]. burn_down_v2 := v_p_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_burn_v_down_rel" ], PHON.ONSET con ] ]. burn_n1 := n_-_c_le & [ STEM < "burn" >, SYNSEM [ LKEYS.KEYREL.PRED "_burn_n_1_rel", PHON.ONSET con ] ]. burn_off_v1 := v_p-np_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_burn_v_off_rel" ], PHON.ONSET con ] ]. burn_off_v2 := v_p_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_burn_v_off_rel" ], PHON.ONSET con ] ]. burn_out_v1 := v_p-np_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_burn_v_out_rel" ], PHON.ONSET con ] ]. burn_out_v2 := v_p_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_burn_v_out_rel" ], PHON.ONSET con ] ]. burn_up_v1 := v_p-np_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_burn_v_up_rel" ], PHON.ONSET con ] ]. burn_up_v2 := v_p_le & [ STEM < "burn" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_burn_v_up_rel" ], PHON.ONSET con ] ]. burn_v1 := v_np_noger_le & [ STEM < "burn" >, SYNSEM [ LKEYS.KEYREL.PRED "_burn_v_cause_rel", PHON.ONSET con ] ]. burn_v2 := v_-_unacc_le & [ STEM < "burn" >, SYNSEM [ LKEYS.KEYREL.PRED "_burn_v_1_rel", PHON.ONSET con ] ]. burner_n1 := n_-_c_le & [ STEM < "burner" >, SYNSEM [ LKEYS.KEYREL.PRED "_burner_n_1_rel", PHON.ONSET con ] ]. burr_n1 := n_-_pn_le & [ STEM < "Burr" >, SYNSEM [ LKEYS.KEYREL.CARG "Burr", PHON.ONSET con ] ]. burrow_n1 := n_-_c_le & [ STEM < "burrow" >, SYNSEM [ LKEYS.KEYREL.PRED "_burrow_n_1_rel", PHON.ONSET con ] ]. burrow_v1 := v_pp*_dir_le & [ STEM < "burrow" >, SYNSEM [ LKEYS.KEYREL.PRED "_burrow_v_1_rel", PHON.ONSET con ] ]. burrows_n1 := n_-_pn_le & [ STEM < "Burrows" >, SYNSEM [ LKEYS.KEYREL.CARG "Burrows", PHON.ONSET con ] ]. burst_n1 := n_-_c_le & [ STEM < "burst" >, SYNSEM [ LKEYS.KEYREL.PRED "_burst_n_1_rel", PHON.ONSET con ] ]. burst_v1 := v_np_noger_le & [ STEM < "burst" >, SYNSEM [ LKEYS.KEYREL.PRED "_burst_v_cause_rel", PHON.ONSET con ] ]. burst_v2 := v_-_unacc_le & [ STEM < "burst" >, SYNSEM [ LKEYS.KEYREL.PRED "_burst_v_1_rel", PHON.ONSET con ] ]. burst_v3 := v_pp_dir_le & [ STEM < "burst" >, SYNSEM [ LKEYS.KEYREL.PRED "_burst_v_1_rel", PHON.ONSET con ] ]. burton_n1 := n_-_pn_le & [ STEM < "Burton" >, SYNSEM [ LKEYS.KEYREL.CARG "Burton", PHON.ONSET con ] ]. burun_n1 := n_-_pn_le & [ STEM < "Burun" >, SYNSEM [ LKEYS.KEYREL.CARG "Burun", PHON.ONSET con ] ]. bury_v1 := v_np_le & [ STEM < "bury" >, SYNSEM [ LKEYS.KEYREL.PRED "_bury_v_1_rel", PHON.ONSET con ] ]. bus-line_n1 := n_-_c_le & [ STEM < "bus", "line" >, SYNSEM [ LKEYS.KEYREL.PRED "_bus+line_n_1_rel", PHON.ONSET con ] ]. bus_in_v1 := v_p-np_le & [ STEM < "bus" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_bus_v_in_rel" ], PHON.ONSET con ] ]. bus_n1 := n_-_c_le & [ STEM < "bus" >, SYNSEM [ LKEYS.KEYREL.PRED "_bus_n_1_rel", PHON.ONSET con ] ]. bus_v1 := v_pp*_dir_le & [ STEM < "bus" >, SYNSEM [ LKEYS.KEYREL.PRED "_bus_v_1_rel", PHON.ONSET con ] ]. bus_v2 := v_np_noger_le & [ STEM < "bus" >, SYNSEM [ LKEYS.KEYREL.PRED "_bus_v_1_rel", PHON.ONSET con ] ]. busbar_n1 := n_-_c_le & [ STEM < "busbar" >, SYNSEM [ LKEYS.KEYREL.PRED "_busbar_n_1_rel", PHON.ONSET con ] ]. busboy_n1 := n_-_c_le & [ STEM < "busboy" >, SYNSEM [ LKEYS.KEYREL.PRED "_busboy_n_1_rel", PHON.ONSET con ] ]. busch_n1 := n_-_pn_le & [ STEM < "Busch" >, SYNSEM [ LKEYS.KEYREL.CARG "Busch", PHON.ONSET con ] ]. bush_n1 := n_-_mc_le & [ STEM < "bush" >, SYNSEM [ LKEYS.KEYREL.PRED "_bush_n_1_rel", PHON.ONSET con ] ]. bush_n2 := n_-_pn_le & [ STEM < "Bush" >, SYNSEM [ LKEYS.KEYREL.CARG "Bush", PHON.ONSET con ] ]. bushed_a1 := aj_-_i_le & [ STEM < "bushed" >, SYNSEM [ LKEYS.KEYREL.PRED "_bushed_a_1_rel", PHON.ONSET con ] ]. bushel_n1 := n_-_c-meas_le & [ STEM < "bushel" >, SYNSEM [ LKEYS.KEYREL.PRED "_bushel_n_1_rel", PHON.ONSET con ] ]. bushing_n1 := n_-_mc_le & [ STEM < "bushing" >, SYNSEM [ LKEYS.KEYREL.PRED "_bushing_n_1_rel", PHON.ONSET con ] ]. bushy_a1 := aj_-_i_le & [ STEM < "bushy" >, SYNSEM [ LKEYS.KEYREL.PRED "_bushy_a_1_rel", PHON.ONSET con ] ]. busier := aj_pp_i-cmp_le & [ STEM < "busier" >, SYNSEM [ LKEYS.KEYREL.PRED "_busy_a_1_rel", PHON.ONSET con ] ]. busiest_a1 := aj_-_i-sup_le & [ STEM < "busiest" >, SYNSEM [ LKEYS.KEYREL.PRED "_busy_a_1_rel", PHON.ONSET con ] ]. busily := av_-_i-vp_le & [ STEM < "busily" >, SYNSEM [ LKEYS.KEYREL.PRED "_busy_a_1_rel", PHON.ONSET con ] ]. business_like_a1 := aj_-_i_le & [ STEM < "business", "like" >, SYNSEM [ LKEYS.KEYREL.PRED "_business+like_a_1_rel", PHON.ONSET con ] ]. business_n1 := n_-_mc_le & [ STEM < "business" >, SYNSEM [ LKEYS.KEYREL.PRED "_business_n_1_rel", PHON.ONSET con ] ]. businessman_n1 := n_-_c_le & [ STEM < "businessman" >, SYNSEM [ LKEYS.KEYREL.PRED "_businessman_n_1_rel", PHON.ONSET con ] ]. businesswoman_n1 := n_-_c_le & [ STEM < "businesswoman" >, SYNSEM [ LKEYS.KEYREL.PRED "_businesswoman_n_1_rel", PHON.ONSET con ] ]. bust_n1 := n_-_c_le & [ STEM < "bust" >, SYNSEM [ LKEYS.KEYREL.PRED "_bust_n_1_rel", PHON.ONSET con ] ]. bust_v1 := v_np_noger_le & [ STEM < "bust" >, SYNSEM [ LKEYS.KEYREL.PRED "_bust_v_cause_rel", PHON.ONSET con ] ]. bust_v2 := v_-_unacc_le & [ STEM < "bust" >, SYNSEM [ LKEYS.KEYREL.PRED "_bust_v_1_rel", PHON.ONSET con ] ]. bustle_n1 := n_-_mc_le & [ STEM < "bustle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bustle_n_1_rel", PHON.ONSET con ] ]. bustle_v1 := v_-_le & [ STEM < "bustle" >, SYNSEM [ LKEYS.KEYREL.PRED "_bustle_v_1_rel", PHON.ONSET con ] ]. bustvalen_n1 := n_-_pn_le & [ STEM < "Bustvalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bustvalen", PHON.ONSET con ] ]. busy_a1 := aj_-_i_le & [ STEM < "busy" >, SYNSEM [ LKEYS.KEYREL.PRED "_busy_a_1_rel", PHON.ONSET con ] ]. busy_v1 := v_np_le & [ STEM < "busy" >, SYNSEM [ LKEYS.KEYREL.PRED "_busy_v_1_rel", PHON.ONSET con ] ]. but+rather_np_conj := c_xp_but-np_le & [ STEM < "but", "rather" >, SYNSEM.PHON.ONSET con ]. but_also_1 := c_xp_but-also_le & [ STEM < "but", "also" >, SYNSEM.PHON.ONSET con ]. but_c_prop := cm_vp_but_le & [ STEM < "but" >, SYNSEM.PHON.ONSET con ]. but_conj := c_xp_but_le & [ STEM < "but" >, SYNSEM.PHON.ONSET con ]. but_except_p := p_np_i-nsp-ngap_le & [ STEM < "but" >, SYNSEM [ LKEYS.KEYREL.PRED _but_p_except_rel, PHON.ONSET con ] ]. but_for := p_np_i_le & [ STEM < "but", "for" >, SYNSEM [ LKEYS.KEYREL.PRED _but+for_p_rel, PHON.ONSET con ] ]. but_neither_subord_inv := p_cp_inv-s_le & [ STEM < "but", "neither" >, SYNSEM [ LKEYS.KEYREL.PRED "_but+neither_x_subord_rel", PHON.ONSET con ] ]. but_not_1 := c_xp_but-not_le & [ STEM < "but", "not" >, SYNSEM.PHON.ONSET con ]. but_np_conj := c_xp_but-np_le & [ STEM < "but" >, SYNSEM.PHON.ONSET con ]. but_prd_p1 := p_prd_i_le & [ STEM < "but" >, SYNSEM [ LKEYS.KEYREL.PRED _but_p_except_rel, PHON.ONSET con ] ]. but_root_post := av_-_s-cp-nsp-po_le & [ STEM < "but" >, SYNSEM [ LKEYS.KEYREL.PRED "_but_c_rel", PHON.ONSET con ] ]. but_so_subord_inv := p_cp_inv-s_le & [ STEM < "but", "so" >, SYNSEM [ LKEYS.KEYREL.PRED "_but+so_x_subord_rel", PHON.ONSET con ] ]. but_then_1 := c_xp_but-then_le & [ STEM < "but", "then" >, SYNSEM.PHON.ONSET con ]. butcher_n1 := n_-_c_le & [ STEM < "butcher" >, SYNSEM [ LKEYS.KEYREL.PRED "_butcher_n_1_rel", PHON.ONSET con ] ]. butcher_v1 := v_np_le & [ STEM < "butcher" >, SYNSEM [ LKEYS.KEYREL.PRED "_butcher_v_1_rel", PHON.ONSET con ] ]. butjønnan_n1 := n_-_pn_le & [ STEM < "Butjønnan" >, SYNSEM [ LKEYS.KEYREL.CARG "Butjønnan", PHON.ONSET con ] ]. butler_n1 := n_-_c_le & [ STEM < "butler" >, SYNSEM [ LKEYS.KEYREL.PRED "_butler_n_1_rel", PHON.ONSET con ] ]. butler_n2 := n_-_pn_le & [ STEM < "Butler" >, SYNSEM [ LKEYS.KEYREL.CARG "Butler", PHON.ONSET con ] ]. buts_n1 := n_-_c-pl-nocnh_le & [ STEM < "but" >, SYNSEM [ LKEYS.KEYREL.PRED "_buts_n_1_rel", PHON.ONSET con ] ]. butt_in_v2 := v_p_le & [ STEM < "butt" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_butt_v_in_rel" ], PHON.ONSET con ] ]. butt_n1 := n_-_pn_le & [ STEM < "Butt" >, SYNSEM [ LKEYS.KEYREL.CARG "Butt", PHON.ONSET con ] ]. butt_v1 := v_np_le & [ STEM < "butt" >, SYNSEM [ LKEYS.KEYREL.PRED "_butt_v_1_rel", PHON.ONSET con ] ]. butter_n1 := n_-_m_le & [ STEM < "butter" >, SYNSEM [ LKEYS.KEYREL.PRED "_butter_n_1_rel", PHON.ONSET con ] ]. butter_v1 := v_np_le & [ STEM < "butter" >, SYNSEM [ LKEYS.KEYREL.PRED "_butter_v_1_rel", PHON.ONSET con ] ]. buttercup_n1 := n_-_c_le & [ STEM < "buttercup" >, SYNSEM [ LKEYS.KEYREL.PRED "_buttercup_n_1_rel", PHON.ONSET con ] ]. butterfly_n1 := n_-_c_le & [ STEM < "butterfly" >, SYNSEM [ LKEYS.KEYREL.PRED "_butterfly_n_1_rel", PHON.ONSET con ] ]. buttermilk_n1 := n_-_m_le & [ STEM < "buttermilk" >, SYNSEM [ LKEYS.KEYREL.PRED "_buttermilk_n_1_rel", PHON.ONSET con ] ]. button_down_v1 := v_p-np_le & [ STEM < "button" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_button_v_down_rel" ], PHON.ONSET con ] ]. button_n1 := n_-_c_le & [ STEM < "button" >, SYNSEM [ LKEYS.KEYREL.PRED "_button_n_1_rel", PHON.ONSET con ] ]. button_up_v1 := v_p_le & [ STEM < "button" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_button_v_up_rel" ], PHON.ONSET con ] ]. button_up_v2 := v_p-np_le & [ STEM < "button" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_button_v_up_rel" ], PHON.ONSET con ] ]. button_v1 := v_np_noger_le & [ STEM < "button" >, SYNSEM [ LKEYS.KEYREL.PRED "_button_v_cause_rel", PHON.ONSET con ] ]. button_v2 := v_-_unacc_le & [ STEM < "button" >, SYNSEM [ LKEYS.KEYREL.PRED "_button_v_1_rel", PHON.ONSET con ] ]. buttress_n1 := n_-_c_le & [ STEM < "buttress" >, SYNSEM [ LKEYS.KEYREL.PRED "_buttress_n_1_rel", PHON.ONSET con ] ]. buxom_a1 := aj_-_i_le & [ STEM < "buxom" >, SYNSEM [ LKEYS.KEYREL.PRED "_buxom_a_1_rel", PHON.ONSET con ] ]. buy_into_v1 := v_pp_e_le & [ STEM < "buy" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_buy_v_into_rel" ], PHON.ONSET con ] ]. buy_n1 := n_-_c_le & [ STEM < "buy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buy_n_1_rel", PHON.ONSET con ] ]. buy_out_v1 := v_p-np_le & [ STEM < "buy" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_buy_v_out_rel" ], PHON.ONSET con ] ]. buy_up_v1 := v_p-np_le & [ STEM < "buy" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_buy_v_up_rel" ], PHON.ONSET con ] ]. buy_v1 := v_np*_le & [ STEM < "buy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buy_v_1_rel", PHON.ONSET con ] ]. buy_v4 := v_np-np_only_le & [ STEM < "buy" >, SYNSEM [ LKEYS.KEYREL.PRED "_buy_v_1_rel", PHON.ONSET con ] ]. buy_v5 := v_np-pp_e_le & [ STEM < "buy" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_buy_v_from_rel" ], PHON.ONSET con ] ]. buyer_n1 := n_pp_c-of_le & [ STEM < "buyer" >, SYNSEM [ LKEYS.KEYREL.PRED "_buyer_n_of_rel", PHON.ONSET con ] ]. buzz_n1 := n_-_mc_le & [ STEM < "buzz" >, SYNSEM [ LKEYS.KEYREL.PRED "_buzz_n_1_rel", PHON.ONSET con ] ]. buzz_v1 := v_-_le & [ STEM < "buzz" >, SYNSEM [ LKEYS.KEYREL.PRED "_buzz_v_1_rel", PHON.ONSET con ] ]. buzz_v2 := v_np_le & [ STEM < "buzz" >, SYNSEM [ LKEYS.KEYREL.PRED "_buzz_v_2_rel", PHON.ONSET con ] ]. buzzard_n1 := n_-_c_le & [ STEM < "buzzard" >, SYNSEM [ LKEYS.KEYREL.PRED "_buzzard_n_1_rel", PHON.ONSET con ] ]. by_adv := pp_-_i-dir-nnm_le & [ STEM < "by" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_rel, PHON.ONSET con ] ]. by_and_by_adv1 := av_-_i-vp_le & [ STEM < "by", "and", "by" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+and+by_a_1_rel", PHON.ONSET con ] ]. by_and_large_adv1 := av_-_i-vp_le & [ STEM < "by", "and", "large" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+and+large_a_1_rel", PHON.ONSET con ] ]. by_chance_adv1 := av_-_i-vp_le & [ STEM < "by", "chance" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+chance_a_1_rel", PHON.ONSET con ] ]. by_colon_prtcl := pp_-_ptcl_le & [ STEM < "by", ":" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_cm_rel, PHON.ONSET con ] ]. by_far_adv1 := av_-_i-vp-x_le & [ STEM < "by", "far" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+far_a_1_rel", PHON.ONSET con ] ]. by_far_adv2 := av_-_i-vp-po_le & [ STEM < "by", "far" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+far_a_1_rel", PHON.ONSET con ] ]. by_gum_root_post := av_-_s-cp-nsp-po_le & [ STEM < "by", "gum" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+gum_a_1_rel", PHON.ONSET con ] ]. by_gum_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "by", "gum" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+gum_a_1_rel", PHON.ONSET con ] ]. by_means := p_nb_i_le & [ STEM < "by" >, SYNSEM [ LKEYS [ --COMPKEY non_temp_nom_rel, KEYREL.PRED _by_p_means_rel ], PHON.ONSET con ] ]. by_means_ger := p_np_i-ger_le & [ STEM < "by" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_means_rel, PHON.ONSET con ] ]. by_means_of := p_np_i_le & [ STEM < "by", "means", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _by+means+of_p_rel, PHON.ONSET con ] ]. by_nbar_nbar_p := p_nb_i-oblspr_le & [ STEM < "by" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_n-n_rel, PHON.ONSET con ] ]. by_no_means_adv1 := av_-_i-vp-x_le & [ STEM < "by", "no", "means" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+no+means_a_1_rel", PHON.ONSET con ] ]. by_p := p_np_i-dgsp_le & [ STEM < "by" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_rel, PHON.ONSET con ] ]. by_pass_p := p_np_ptcl_le & [ STEM < "by" >, SYNSEM [ LKEYS [ --COMPKEY non_temp_nom_rel, KEYREL.PRED _by_p_cm_rel ], PHON.ONSET con ] ]. by_prtcl := p_np_ptcl_le & [ STEM < "by" >, SYNSEM [ LKEYS.KEYREL.PRED _by_p_sel_rel, PHON.ONSET con ] ]. by_temp_p := p_np_i-tmp-vm_le & [ STEM < "by" >, SYNSEM [ LKEYS [ --COMPKEY temp_abstr_rel, KEYREL.PRED _by_p_temp_rel ], PHON.ONSET con ] ]. by_the_hour := av_-_i-vp-po_le & [ STEM < "by", "the", "hour" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+the+hour_a_1_rel", PHON.ONSET con ] ]. by_the_way := av_-_i-vp_le & [ STEM < "by", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+the+way_a_1_rel", PHON.ONSET con ] ]. by_the_way_adv1 := av_-_i-vp-po_le & [ STEM < "by", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+the+way_a_1_rel", PHON.ONSET con ] ]. by_the_way_adv2 := av_-_i-vp-x_le & [ STEM < "by", "the", "way" >, SYNSEM [ LKEYS.KEYREL.PRED "_by+the+way_a_1_rel", PHON.ONSET con ] ]. by_way_of := p_np_i-reg_le & [ STEM < "by", "way", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _by+way+of_p_rel, PHON.ONSET con ] ]. bye_bye_root_post := av_-_dc-grt-po_le & [ STEM < "bye", "bye" >, SYNSEM [ LKEYS.KEYREL.CARG "bye_bye", PHON.ONSET con ] ]. bye_bye_root_pre := av_-_dc-grt-pr_le & [ STEM < "bye", "bye" >, SYNSEM [ LKEYS.KEYREL.CARG "bye_bye", PHON.ONSET con ] ]. bye_root_post := av_-_dc-grt-po_le & [ STEM < "bye" >, SYNSEM [ LKEYS.KEYREL.CARG "bye", PHON.ONSET con ] ]. bye_root_pre := av_-_dc-grt-pr_le & [ STEM < "bye" >, SYNSEM [ LKEYS.KEYREL.CARG "bye", PHON.ONSET con ] ]. byfjellene_n1 := n_-_pn-city_le & [ STEM < "Byfjellene" >, SYNSEM [ LKEYS.KEYREL.CARG "Byfjellene", PHON.ONSET con ] ]. bygdin := n_-_pn_le & [ STEM < "Bygdin" >, SYNSEM [ LKEYS.KEYREL.CARG "Bygdin", PHON.ONSET con ] ]. bygdisheim_n1 := n_-_pn_le & [ STEM < "Bygdisheim" >, SYNSEM [ LKEYS.KEYREL.CARG "Bygdisheim", PHON.ONSET con ] ]. bygin_n1 := n_-_pn_le & [ STEM < "Bygin" >, SYNSEM [ LKEYS.KEYREL.CARG "Bygin", PHON.ONSET con ] ]. bygone_a1 := aj_-_i_le & [ STEM < "bygone" >, SYNSEM [ LKEYS.KEYREL.PRED "_bygone_a_1_rel", PHON.ONSET con ] ]. bylus_n1 := n_-_pn_le & [ STEM < "Bylus" >, SYNSEM [ LKEYS.KEYREL.CARG "Bylus", PHON.ONSET con ] ]. bypass_n1 := n_-_c_le & [ STEM < "bypass" >, SYNSEM [ LKEYS.KEYREL.PRED "_bypass_n_1_rel", PHON.ONSET con ] ]. bypass_v1 := v_np*_le & [ STEM < "bypass" >, SYNSEM [ LKEYS.KEYREL.PRED "_bypass_v_1_rel", PHON.ONSET con ] ]. byrd_n1 := n_-_pn_le & [ STEM < "Byrd" >, SYNSEM [ LKEYS.KEYREL.CARG "Byrd", PHON.ONSET con ] ]. byron_n1 := n_-_pn_le & [ STEM < "Byron" >, SYNSEM [ LKEYS.KEYREL.CARG "Byron", PHON.ONSET con ] ]. byronism_n1 := n_-_c_le & [ STEM < "byronism" >, SYNSEM [ LKEYS.KEYREL.PRED "_byronism_n_1_rel", PHON.ONSET con ] ]. bystrzyca_n1 := n_-_pn_le & [ STEM < "Bystrzyca" >, SYNSEM [ LKEYS.KEYREL.CARG "Bystrzyca", PHON.ONSET con ] ]. byte_n1 := n_-_c_le & [ STEM < "byte" >, SYNSEM [ LKEYS.KEYREL.PRED "_byte_n_1_rel", PHON.ONSET con ] ]. byway_n1 := n_-_c_le & [ STEM < "byway" >, SYNSEM [ LKEYS.KEYREL.PRED "_byway_n_1_rel", PHON.ONSET con ] ]. bårdsgarden_n1 := n_-_pn_le & [ STEM < "Bårdsgarden" >, SYNSEM [ LKEYS.KEYREL.CARG "Bårdsgarden", PHON.ONSET con ] ]. båtutleie_n1 := n_-_pn_le & [ STEM < "Båtutleie" >, SYNSEM [ LKEYS.KEYREL.CARG "Båtutleie", PHON.ONSET con ] ]. bæivasgjedde_ødestue_n1 := n_-_pn_le & [ STEM < "Bæivasgjedde", "ødestue" >, SYNSEM [ LKEYS.KEYREL.CARG "Bæivasgjedde+ødestue", PHON.ONSET con ] ]. børelva := n_-_pn_le & [ STEM < "Børelva" >, SYNSEM [ LKEYS.KEYREL.CARG "Børelva", PHON.ONSET con ] ]. børgefjell_n1 := n_-_pn-city_le & [ STEM < "Børgefjell" >, SYNSEM [ LKEYS.KEYREL.CARG "Børgefjell", PHON.ONSET con ] ]. børtinden := n_-_pn_le & [ STEM < "Børtinden" >, SYNSEM [ LKEYS.KEYREL.CARG "Børtinden", PHON.ONSET con ] ]. børvasstindene := n_-_pn_le & [ STEM < "Børvasstindene" >, SYNSEM [ LKEYS.KEYREL.CARG "Børvasstindene", PHON.ONSET con ] ]. børvatnet := n_-_pn_le & [ STEM < "Børvatnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Børvatnet", PHON.ONSET con ] ]. bøverbreen_n1 := n_-_pn_le & [ STEM < "Bøverbreen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bøverbreen", PHON.ONSET con ] ]. bøverdalen_n1 := n_-_pn_le & [ STEM < "Bøverdalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bøverdalen", PHON.ONSET con ] ]. bøverdaler_n1 := n_-_c_le & [ STEM < "Bøverdaler" >, SYNSEM [ LKEYS.KEYREL.PRED "_bøverdaler_n_1_rel", PHON.ONSET con ] ]. bøvertun_n1 := n_-_pn_le & [ STEM < "Bøvertun" >, SYNSEM [ LKEYS.KEYREL.CARG "Bøvertun", PHON.ONSET con ] ]. bøyabreen := n_-_pn_le & [ STEM < "Bøyabreen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bøyabreen", PHON.ONSET con ] ]. bøyesen_n1 := n_-_pn_le & [ STEM < "Bøyesen" >, SYNSEM [ LKEYS.KEYREL.CARG "Bøyesen", PHON.ONSET con ] ]. c-technologies_n1 := n_-_pn_le & [ STEM < "C-", "Technologies" >, SYNSEM [ LKEYS.KEYREL.CARG "C-Technologies", PHON.ONSET con ] ]. c-technologies_n2 := n_-_pn_le & [ STEM < "C", "Technologies" >, SYNSEM [ LKEYS.KEYREL.CARG "C-Technologies", PHON.ONSET con ] ]. c_lower_np1 := n_-_pn_le & [ STEM < "c" >, SYNSEM [ LKEYS.KEYREL.CARG "C", PHON.ONSET con ] ]. c_np1 := n_-_pn_le & [ STEM < "_C" >, SYNSEM [ LKEYS.KEYREL.CARG "C", PHON.ONSET con ] ]. c_period_np1 := n_-_pn_le & [ STEM < "C." >, SYNSEM [ LKEYS.KEYREL.CARG "C", PHON.ONSET con ] ]. c_period_np2 := n_-_pn_le & [ STEM < "_C." >, SYNSEM [ LKEYS.KEYREL.CARG "C", PHON.ONSET con ] ]. cab_n1 := n_-_c_le & [ STEM < "cab" >, SYNSEM [ LKEYS.KEYREL.PRED "_cab_n_1_rel", PHON.ONSET con ] ]. cabbage_n1 := n_-_mc_le & [ STEM < "cabbage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cabbage_n_1_rel", PHON.ONSET con ] ]. cabin_n1 := n_-_c_le & [ STEM < "cabin" >, SYNSEM [ LKEYS.KEYREL.PRED "_cabin_n_1_rel", PHON.ONSET con ] ]. cabin_post_ttl := n_-_tt-post_le & [ STEM < "Cabin" >, SYNSEM [ LKEYS.KEYREL.PRED "_cabin_n_1_rel", PHON.ONSET con ] ]. cabinet_n1 := n_-_c_le & [ STEM < "cabinet" >, SYNSEM [ LKEYS.KEYREL.PRED "_cabinet_n_1_rel", PHON.ONSET con ] ]. cabins_post_ttl := n_-_tt-post-pl_le & [ STEM < "Cabin" >, SYNSEM [ LKEYS.KEYREL.PRED "_cabin_n_1_rel", PHON.ONSET con ] ]. cable_n := n_-_c_le & [ STEM < "cable" >, SYNSEM [ LKEYS.KEYREL.PRED "_cable_n_1_rel", PHON.ONSET con ] ]. cable_v1 := v_np-np_le & [ STEM < "cable" >, SYNSEM [ LKEYS.KEYREL.PRED "_cable_v_1_rel", PHON.ONSET con ] ]. cableway_n1 := n_-_c_le & [ STEM < "cableway" >, SYNSEM [ LKEYS.KEYREL.PRED "_cableway_n_1_rel", PHON.ONSET con ] ]. cactus_n1 := n_-_c_le & [ STEM < "cactus" >, SYNSEM [ LKEYS.KEYREL.PRED "_cactus_n_1_rel", PHON.ONSET con ] ]. cadmium_n1 := n_-_mc_le & [ STEM < "cadmium" >, SYNSEM [ LKEYS.KEYREL.PRED "_cadmium_n_1_rel", PHON.ONSET con ] ]. caduceus_n1 := n_-_c_le & [ STEM < "caduceus" >, SYNSEM [ LKEYS.KEYREL.PRED "_caduceus_n_1_rel", PHON.ONSET con ] ]. caesar_n1 := n_-_pn_le & [ STEM < "Caesar" >, SYNSEM [ LKEYS.KEYREL.CARG "Caesar", PHON.ONSET con ] ]. cafe_n1 := n_-_c_le & [ STEM < "cafe" >, SYNSEM [ LKEYS.KEYREL.PRED "_cafe_n_1_rel", PHON.ONSET con ] ]. cafe_n2 := n_-_c_le & [ STEM < "café" >, SYNSEM [ LKEYS.KEYREL.PRED "_cafe_n_1_rel", PHON.ONSET con ] ]. cafe_post_ttl := n_-_tt-post_le & [ STEM < "Cafe" >, SYNSEM [ LKEYS.KEYREL.PRED "_cafe_n_1_rel", PHON.ONSET con ] ]. cafe_post_ttl2 := n_-_tt-post_le & [ STEM < "café" >, SYNSEM [ LKEYS.KEYREL.PRED "_cafe_n_1_rel", PHON.ONSET con ] ]. cafeteria_n1 := n_-_c_le & [ STEM < "cafeteria" >, SYNSEM [ LKEYS.KEYREL.PRED "_cafeteria_n_1_rel", PHON.ONSET con ] ]. caffeinated_a1 := aj_-_i_le & [ STEM < "caffeinated" >, SYNSEM [ LKEYS.KEYREL.PRED "_caffeinated_a_1_rel", PHON.ONSET con ] ]. caffeine_n1 := n_-_m_le & [ STEM < "caffeine" >, SYNSEM [ LKEYS.KEYREL.PRED "_caffeine_n_1_rel", PHON.ONSET con ] ]. cage_n1 := n_-_c_le & [ STEM < "cage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cage_n_1_rel", PHON.ONSET con ] ]. cage_n2 := n_-_pn_le & [ STEM < "Cage" >, SYNSEM [ LKEYS.KEYREL.CARG "Cage", PHON.ONSET con ] ]. cage_v1 := v_np_le & [ STEM < "cage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cage_v_1_rel", PHON.ONSET con ] ]. cai_yuanpei_n1 := n_-_pn_le & [ STEM < "Cai", "Yuanpei" >, SYNSEM [ LKEYS.KEYREL.CARG "Cai_Yuanpei", PHON.ONSET con ] ]. cairn_n1 := n_-_c-ed_le & [ STEM < "cairn" >, SYNSEM [ LKEYS.KEYREL.PRED "_cairn_n_1_rel", PHON.ONSET con ] ]. cairo_n1 := n_-_pn-city_le & [ STEM < "Cairo" >, SYNSEM [ LKEYS.KEYREL.CARG "Cairo", PHON.ONSET con ] ]. caisson_n1 := n_-_c_le & [ STEM < "caisson" >, SYNSEM [ LKEYS.KEYREL.PRED "_caisson_n_1_rel", PHON.ONSET con ] ]. cajole_v1 := v_np-vp_oeq_le & [ STEM < "cajole" >, SYNSEM [ LKEYS.KEYREL.PRED "_cajole_v_1_rel", PHON.ONSET con ] ]. cajole_v2 := v_np*_le & [ STEM < "cajole" >, SYNSEM [ LKEYS.KEYREL.PRED "_cajole_v_1_rel", PHON.ONSET con ] ]. cake_n1 := n_-_c_le & [ STEM < "cake" >, SYNSEM [ LKEYS.KEYREL.PRED "_cake_n_1_rel", PHON.ONSET con ] ]. cake_v1 := v_np_noger_le & [ STEM < "cake" >, SYNSEM [ LKEYS.KEYREL.PRED "_cake_v_cause_rel", PHON.ONSET con ] ]. cake_v2 := v_np-pp_le & [ STEM < "cake" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_rel, KEYREL.PRED "_cake_v_1_rel" ], PHON.ONSET con ] ]. cake_v3 := v_pp_unacc_le & [ STEM < "cake" >, SYNSEM [ LKEYS.KEYREL.PRED "_cake_v_1_rel", PHON.ONSET con ] ]. calamitous_a1 := aj_-_i_le & [ STEM < "calamitous" >, SYNSEM [ LKEYS.KEYREL.PRED "_calamitous_a_1_rel", PHON.ONSET con ] ]. calcareous_a1 := aj_-_i_le & [ STEM < "calcareous" >, SYNSEM [ LKEYS.KEYREL.PRED "_calcareous_a_1_rel", PHON.ONSET con ] ]. calcify_v1 := v_np_le & [ STEM < "calcify" >, SYNSEM [ LKEYS.KEYREL.PRED "_calcify_v_1_rel", PHON.ONSET con ] ]. calcium_n1 := n_-_m_le & [ STEM < "calcium" >, SYNSEM [ LKEYS.KEYREL.PRED "_calcium_n_1_rel", PHON.ONSET con ] ]. calculate_v1 := v_np_le & [ STEM < "calculate" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculate_v_1_rel", PHON.ONSET con ] ]. calculate_v2 := v_cp_le & [ STEM < "calculate" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculate_v_1_rel", PHON.ONSET con ] ]. calculation_n1 := n_pp_mc-of_le & [ STEM < "calculation" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculation_n_of_rel", PHON.ONSET con ] ]. calculator_n1 := n_-_c_le & [ STEM < "calculator" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculator_n_1_rel", PHON.ONSET con ] ]. calculous_a1 := aj_-_i_le & [ STEM < "calculous" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculous_a_1_rel", PHON.ONSET con ] ]. calculus_n1 := n_-_mc_le & [ STEM < "calculus" >, SYNSEM [ LKEYS.KEYREL.PRED "_calculus_n_1_rel", PHON.ONSET con ] ]. caldera_n1 := n_-_c_le & [ STEM < "caldera" >, SYNSEM [ LKEYS.KEYREL.PRED "_caldera_n_1_rel", PHON.ONSET con ] ]. caleb_n1 := n_-_pn_le & [ STEM < "Caleb" >, SYNSEM [ LKEYS.KEYREL.CARG "Caleb", PHON.ONSET con ] ]. caledonian_a1 := aj_-_i_le & [ STEM < "Caledonian" >, SYNSEM [ LKEYS.KEYREL.PRED "_caledonian_a_1_rel", PHON.ONSET con ] ]. calendar_n1 := n_-_c_le & [ STEM < "calendar" >, SYNSEM [ LKEYS.KEYREL.PRED "_calendar_n_1_rel", PHON.ONSET con ] ]. calender_n1 := n_-_c_le & [ STEM < "calender" >, SYNSEM [ LKEYS.KEYREL.PRED "_calender_n_1_rel", PHON.ONSET con ] ]. calender_v1 := v_np_le & [ STEM < "calender" >, SYNSEM [ LKEYS.KEYREL.PRED "_calender_v_1_rel", PHON.ONSET con ] ]. calf_n1 := n_-_c_le & [ STEM < "calf" >, SYNSEM [ LKEYS.KEYREL.PRED "_calf_n_1_rel", PHON.ONSET con ] ]. calgary_n1 := n_-_pn-city_le & [ STEM < "Calgary" >, SYNSEM [ LKEYS.KEYREL.CARG "Calgary", PHON.ONSET con ] ]. calhoun_n1 := n_-_pn_le & [ STEM < "Calhoun" >, SYNSEM [ LKEYS.KEYREL.CARG "Calhoun", PHON.ONSET con ] ]. caliber_n1 := n_-_c_le & [ STEM < "caliber" >, SYNSEM [ LKEYS.KEYREL.PRED "_caliber_n_1_rel", PHON.ONSET con ] ]. calibration_n1 := n_pp_mc-of_le & [ STEM < "calibration" >, SYNSEM [ LKEYS.KEYREL.PRED "_calibration_n_of_rel", PHON.ONSET con ] ]. calibre_n1 := n_-_c_le & [ STEM < "calibre" >, SYNSEM [ LKEYS.KEYREL.PRED "_calibre_n_1_rel", PHON.ONSET con ] ]. caliente_n1 := n_-_mc_le & [ STEM < "caliente" >, SYNSEM [ LKEYS.KEYREL.PRED "_caliente_n_1_rel", PHON.ONSET con ] ]. california_n1 := n_-_pn_le & [ STEM < "California" >, SYNSEM [ LKEYS.KEYREL.CARG "California", PHON.ONSET con ] ]. california_n2 := n_-_pn-abb_le & [ STEM < "CA" >, SYNSEM [ LKEYS.KEYREL.CARG "California", PHON.ONSET con ] ]. california_n3 := n_-_pn_le & [ STEM < "Calif" >, SYNSEM [ LKEYS.KEYREL.CARG "California", PHON.ONSET con ] ]. california_n4 := n_-_pn_le & [ STEM < "Calif." >, SYNSEM [ LKEYS.KEYREL.CARG "California", PHON.ONSET con ] ]. californian_a1 := aj_-_i_le & [ STEM < "Californian" >, SYNSEM [ LKEYS.KEYREL.PRED "_californian_a_1_rel", PHON.ONSET con ] ]. californian_n1 := n_-_c-nocnh_le & [ STEM < "Californian" >, SYNSEM [ LKEYS.KEYREL.PRED "_californian_n_1_rel", PHON.ONSET con ] ]. caligula_n1 := n_-_pn_le & [ STEM < "Caligula" >, SYNSEM [ LKEYS.KEYREL.CARG "Caligula", PHON.ONSET con ] ]. call_back_v1 := v_p-np_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_call_v_back_rel" ], PHON.ONSET con ] ]. call_back_v2 := v_p_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_call_v_back_rel" ], PHON.ONSET con ] ]. call_ditrans_v1 := v_np-np_only_le & [ STEM < "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_call_v_name_rel", PHON.ONSET con ] ]. call_for_v1 := v_pp_e_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_call_v_for_rel" ], PHON.ONSET con ] ]. call_n1 := n_-_c_le & [ STEM < "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_call_n_1_rel", PHON.ONSET con ] ]. call_off_v1 := v_p-np_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_call_v_off_rel" ], PHON.ONSET con ] ]. call_out_v1 := v_p-np_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_call_v_out_rel" ], PHON.ONSET con ] ]. call_out_v2 := v_p_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_call_v_out_rel" ], PHON.ONSET con ] ]. call_quits_v1_i := v_np-np_idm_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY pron_rel, KEYREL.PRED "_call_v_i_rel" ], PHON.ONSET con ] ]. call_up_v1 := v_p-np_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_call_v_up_rel" ], PHON.ONSET con ] ]. call_v1 := v_np*_le & [ STEM < "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_call_v_1_rel", PHON.ONSET con ] ]. call_v2 := v_vp_seq_le & [ STEM < "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_call_v_1_rel", PHON.ONSET con ] ]. call_v3 := v_np-prd_oeq_le & [ STEM < "call" >, SYNSEM [ LKEYS.KEYREL.PRED "_call_v_1_rel", PHON.ONSET con ] ]. call_v4 := v_np-pp_le & [ STEM < "call" >, SYNSEM [ LKEYS [ --OCOMPKEY _about_p_rel, KEYREL.PRED "_call_v_1_rel" ], PHON.ONSET con ] ]. caller_n1 := n_pp_c-of_le & [ STEM < "caller" >, SYNSEM [ LKEYS.KEYREL.PRED "_caller_n_of_rel", PHON.ONSET con ] ]. calligrapher_n1 := n_-_c_le & [ STEM < "calligrapher" >, SYNSEM [ LKEYS.KEYREL.PRED "_calligrapher_n_1_rel", PHON.ONSET con ] ]. calligraphy_n1 := n_-_m_le & [ STEM < "calligraphy" >, SYNSEM [ LKEYS.KEYREL.PRED "_calligraphy_n_1_rel", PHON.ONSET con ] ]. calliope_n1 := n_-_c_le & [ STEM < "calliope" >, SYNSEM [ LKEYS.KEYREL.PRED "_calliope_n_1_rel", PHON.ONSET con ] ]. callosity_a1 := n_-_c_le & [ STEM < "callosity" >, SYNSEM [ LKEYS.KEYREL.PRED "_callosity_a_1_rel", PHON.ONSET con ] ]. callosity_n1 := n_-_mc_le & [ STEM < "callosity" >, SYNSEM [ LKEYS.KEYREL.PRED "_callosity_n_1_rel", PHON.ONSET con ] ]. callous_a1 := aj_-_i_le & [ STEM < "callous" >, SYNSEM [ LKEYS.KEYREL.PRED "_callous_a_1_rel", PHON.ONSET con ] ]. callously_adv1 := av_-_i-vp_le & [ STEM < "callously" >, SYNSEM [ LKEYS.KEYREL.PRED "_callous_a_1_rel", PHON.ONSET con ] ]. callyx_n1 := n_-_c_le & [ STEM < "callyx" >, SYNSEM [ LKEYS.KEYREL.PRED "_callyx_n_1_rel", PHON.ONSET con ] ]. calm_a1 := aj_-_i_le & [ STEM < "calm" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_a_1_rel", PHON.ONSET con ] ]. calm_down_v1 := v_p-np_le & [ STEM < "calm" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_calm_v_down_rel" ], PHON.ONSET con ] ]. calm_down_v2 := v_p_le & [ STEM < "calm" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_calm_v_down_rel" ], PHON.ONSET con ] ]. calm_n1 := n_-_m_le & [ STEM < "calm" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_n_1_rel", PHON.ONSET con ] ]. calm_v1 := v_np_le & [ STEM < "calm" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_v_1_rel", PHON.ONSET con ] ]. calmer_a1 := aj_pp_i-cmp_le & [ STEM < "calmer" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_a_1_rel", PHON.ONSET con ] ]. calmest_a1 := aj_-_i-sup_le & [ STEM < "calmest" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_a_1_rel", PHON.ONSET con ] ]. calmly := av_-_i-vp_le & [ STEM < "calmly" >, SYNSEM [ LKEYS.KEYREL.PRED "_calm_a_1_rel", PHON.ONSET con ] ]. calorie_n1 := n_-_c_le & [ STEM < "calorie" >, SYNSEM [ LKEYS.KEYREL.PRED "_calorie_n_1_rel", PHON.ONSET con ] ]. calumny_n1 := n_-_mc_le & [ STEM < "calumny" >, SYNSEM [ LKEYS.KEYREL.PRED "_calumny_n_1_rel", PHON.ONSET con ] ]. calvin_n1 := n_-_pn_le & [ STEM < "Calvin" >, SYNSEM [ LKEYS.KEYREL.CARG "Calvin", PHON.ONSET con ] ]. cam_n1 := n_-_c_le & [ STEM < "cam" >, SYNSEM [ LKEYS.KEYREL.PRED "_cam_n_1_rel", PHON.ONSET con ] ]. camber_n1 := n_-_c_le & [ STEM < "camber" >, SYNSEM [ LKEYS.KEYREL.PRED "_camber_n_1_rel", PHON.ONSET con ] ]. cambodia_n1 := n_-_pn_le & [ STEM < "Cambodia" >, SYNSEM [ LKEYS.KEYREL.CARG "Cambodia", PHON.ONSET con ] ]. cambridge_n1 := n_-_pn-city_le & [ STEM < "Cambridge" >, SYNSEM [ LKEYS.KEYREL.CARG "Cambridge", PHON.ONSET con ] ]. camcorder_n1 := n_-_c_le & [ STEM < "camcorder" >, SYNSEM [ LKEYS.KEYREL.PRED "_camcorder_n_1_rel", PHON.ONSET con ] ]. camden_n1 := n_-_pn_le & [ STEM < "Camden" >, SYNSEM [ LKEYS.KEYREL.CARG "Camden", PHON.ONSET con ] ]. camera_n1 := n_-_c_le & [ STEM < "camera" >, SYNSEM [ LKEYS.KEYREL.PRED "_camera_n_1_rel", PHON.ONSET con ] ]. cameron_n1 := n_-_pn_le & [ STEM < "Cameron" >, SYNSEM [ LKEYS.KEYREL.CARG "Cameron", PHON.ONSET con ] ]. camouflage_n1 := n_-_m_le & [ STEM < "camouflage" >, SYNSEM [ LKEYS.KEYREL.PRED "_camouflage_n_1_rel", PHON.ONSET con ] ]. camouflage_v1 := v_np_le & [ STEM < "camouflage" >, SYNSEM [ LKEYS.KEYREL.PRED "_camouflage_v_1_rel", PHON.ONSET con ] ]. camp_a1 := aj_-_i-ndpt_le & [ STEM < "camp" >, SYNSEM [ LKEYS.KEYREL.PRED "_camp_a_1_rel", PHON.ONSET con ] ]. camp_n1 := n_-_mc_le & [ STEM < "camp" >, SYNSEM [ LKEYS.KEYREL.PRED "_camp_n_1_rel", PHON.ONSET con ] ]. camp_out_v1 := v_p_le & [ STEM < "camp" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_camp_v_out_rel" ], PHON.ONSET con ] ]. camp_v1 := v_-_le & [ STEM < "camp" >, SYNSEM [ LKEYS.KEYREL.PRED "_camp_v_1_rel", PHON.ONSET con ] ]. campaign_n1 := n_-_c_le & [ STEM < "campaign" >, SYNSEM [ LKEYS.KEYREL.PRED "_campaign_n_1_rel", PHON.ONSET con ] ]. campaign_v1 := v_-_le & [ STEM < "campaign" >, SYNSEM [ LKEYS.KEYREL.PRED "_campaign_v_1_rel", PHON.ONSET con ] ]. campaigner_n1 := n_-_c_le & [ STEM < "campaigner" >, SYNSEM [ LKEYS.KEYREL.PRED "_campaigner_n_1_rel", PHON.ONSET con ] ]. campbell_n1 := n_-_pn_le & [ STEM < "Campbell" >, SYNSEM [ LKEYS.KEYREL.CARG "Campbell", PHON.ONSET con ] ]. camper_n1 := n_-_c_le & [ STEM < "camper" >, SYNSEM [ LKEYS.KEYREL.PRED "_camper_n_1_rel", PHON.ONSET con ] ]. campfire_n1 := n_-_c_le & [ STEM < "campfire" >, SYNSEM [ LKEYS.KEYREL.PRED "_campfire_n_1_rel", PHON.ONSET con ] ]. campground_n1 := n_-_c_le & [ STEM < "campground" >, SYNSEM [ LKEYS.KEYREL.PRED "_campground_n_1_rel", PHON.ONSET con ] ]. camphor_n1 := n_-_m_le & [ STEM < "camphor" >, SYNSEM [ LKEYS.KEYREL.PRED "_camphor_n_1_rel", PHON.ONSET con ] ]. campmate_n1 := n_-_c_le & [ STEM < "campmate" >, SYNSEM [ LKEYS.KEYREL.PRED "_campmate_n_1_rel", PHON.ONSET con ] ]. campsite_n1 := n_-_c_le & [ STEM < "campsite" >, SYNSEM [ LKEYS.KEYREL.PRED "_campsite_n_1_rel", PHON.ONSET con ] ]. campus_n1 := n_-_c_le & [ STEM < "campus" >, SYNSEM [ LKEYS.KEYREL.PRED "_campus_n_1_rel", PHON.ONSET con ] ]. can_aux_neg2 := v_vp_mdl-n_le & [ STEM < "cannot" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. can_aux_neg_1 := v_vp_mdl-n_le & [ STEM < "can't" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. can_aux_neg_2 := v_vp_mdl-n_le & [ STEM < "can", "'t" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. can_aux_pos := v_vp_mdl-p_le & [ STEM < "can" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. can_n1 := n_-_c_le & [ STEM < "can" >, SYNSEM [ LKEYS.KEYREL.PRED "_can_n_1_rel", PHON.ONSET con ] ]. can_v1 := v_np_le & [ STEM < "can" >, SYNSEM [ LKEYS.KEYREL.PRED "_can_v_1_rel", PHON.ONSET con ] ]. canada_n1 := n_-_pn_le & [ STEM < "Canada" >, SYNSEM [ LKEYS.KEYREL.CARG "Canada", PHON.ONSET con ] ]. canadian_a1 := aj_-_i_le & [ STEM < "Canadian" >, SYNSEM [ LKEYS.KEYREL.PRED "_canadian_a_1_rel", PHON.ONSET con ] ]. canadian_n1 := n_-_c-nocnh_le & [ STEM < "Canadian" >, SYNSEM [ LKEYS.KEYREL.PRED "_canadian_n_1_rel", PHON.ONSET con ] ]. canal_n1 := n_-_c_le & [ STEM < "canal" >, SYNSEM [ LKEYS.KEYREL.PRED "_canal_n_1_rel", PHON.ONSET con ] ]. canaria_n1 := n_-_pn-city_le & [ STEM < "Canaria" >, SYNSEM [ LKEYS.KEYREL.CARG "Canaria", PHON.ONSET con ] ]. canarygrass_n1 := n_-_mc_le & [ STEM < "canarygrass" >, SYNSEM [ LKEYS.KEYREL.PRED "_canarygrass_n_1_rel", PHON.ONSET con ] ]. cancel_out_v1 := v_p-np_le & [ STEM < "cancel" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cancel_v_out_rel" ], PHON.ONSET con ] ]. cancel_out_v2 := v_p_le & [ STEM < "cancel" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cancel_v_out_rel" ], PHON.ONSET con ] ]. cancel_v1 := v_np*_le & [ STEM < "cancel" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancel_v_1_rel", PHON.ONSET con ] ]. cancelable_a1 := aj_-_i_le & [ STEM < "cancelable" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancelable_a_1_rel", PHON.ONSET con ] ]. cancellation_n1 := n_pp_mc-of_le & [ STEM < "cancellation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancellation_n_of_rel", PHON.ONSET con ] ]. cancelled_isect := aj_-_i-att_le & [ STEM < "cancelled" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancelled_a_1_rel", PHON.ONSET con ] ]. cancer-ridden_a1 := aj_-_i_le & [ STEM < "cancer-", "ridden" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancer-ridden_a_1_rel", PHON.ONSET con ] ]. cancer-ridden_a2 := aj_-_i_le & [ STEM < "cancer", "ridden" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancer-ridden_a_1_rel", PHON.ONSET con ] ]. cancer-suppressing_a1 := aj_-_i_le & [ STEM < "cancer-", "suppressing" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancer-suppressing_a_1_rel", PHON.ONSET con ] ]. cancer-susceptible_a1 := aj_-_i_le & [ STEM < "cancer-", "susceptible" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancer-susceptible_a_1_rel", PHON.ONSET con ] ]. cancer_n1 := n_-_mc_le & [ STEM < "cancer" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancer_n_1_rel", PHON.ONSET con ] ]. cancerous_a1 := aj_-_i_le & [ STEM < "cancerous" >, SYNSEM [ LKEYS.KEYREL.PRED "_cancerous_a_1_rel", PHON.ONSET con ] ]. cancun_n1 := n_-_pn-city_le & [ STEM < "Cancun" >, SYNSEM [ LKEYS.KEYREL.CARG "Cancun", PHON.ONSET con ] ]. candidacy_n1 := n_-_mc_le & [ STEM < "candidacy" >, SYNSEM [ LKEYS.KEYREL.PRED "_candidacy_n_1_rel", PHON.ONSET con ] ]. candidate_n1 := n_-_c_le & [ STEM < "candidate" >, SYNSEM [ LKEYS.KEYREL.PRED "_candidate_n_1_rel", PHON.ONSET con ] ]. candle_n1 := n_-_c_le & [ STEM < "candle" >, SYNSEM [ LKEYS.KEYREL.PRED "_candle_n_1_rel", PHON.ONSET con ] ]. candour_n1 := n_-_c_le & [ STEM < "candour" >, SYNSEM [ LKEYS.KEYREL.PRED "_candour_n_1_rel", PHON.ONSET con ] ]. candy_n1 := n_-_mc_le & [ STEM < "candy" >, SYNSEM [ LKEYS.KEYREL.PRED "_candy_n_1_rel", PHON.ONSET con ] ]. cane_n1 := n_-_c_le & [ STEM < "cane" >, SYNSEM [ LKEYS.KEYREL.PRED "_cane_n_1_rel", PHON.ONSET con ] ]. canine_a1 := aj_-_i_le & [ STEM < "canine" >, SYNSEM [ LKEYS.KEYREL.PRED "_canine_a_1_rel", PHON.ONSET con ] ]. canine_n1 := n_-_c_le & [ STEM < "canine" >, SYNSEM [ LKEYS.KEYREL.PRED "_canine_n_1_rel", PHON.ONSET con ] ]. cannabis_n1 := n_-_m_le & [ STEM < "cannabis" >, SYNSEM [ LKEYS.KEYREL.PRED "_cannabis_n_1_rel", PHON.ONSET con ] ]. cannon_n1 := n_-_c-ed_le & [ STEM < "cannon" >, SYNSEM [ LKEYS.KEYREL.PRED "_cannon_n_1_rel", PHON.ONSET con ] ]. cannon_v1 := v_pp_dir_le & [ STEM < "cannon" >, SYNSEM [ LKEYS.KEYREL.PRED "_cannon_v_1_rel", PHON.ONSET con ] ]. canoe_n1 := n_-_c_le & [ STEM < "canoe" >, SYNSEM [ LKEYS.KEYREL.PRED "_canoe_n_1_rel", PHON.ONSET con ] ]. canoe_v1 := v_pp_dir_le & [ STEM < "canoe" >, SYNSEM [ LKEYS.KEYREL.PRED "_canoe_v_dir_rel", PHON.ONSET con ] ]. canoeist_n1 := n_-_c_le & [ STEM < "canoeist" >, SYNSEM [ LKEYS.KEYREL.PRED "_canoeist_n_1_rel", PHON.ONSET con ] ]. canon_n1 := n_-_pn_le & [ STEM < "Canon" >, SYNSEM [ LKEYS.KEYREL.CARG "Canon", PHON.ONSET con ] ]. canopy_n1 := n_-_c_le & [ STEM < "canopy" >, SYNSEM [ LKEYS.KEYREL.PRED "_canopy_n_1_rel", PHON.ONSET con ] ]. cant_n1 := n_-_c_le & [ STEM < "cant" >, SYNSEM [ LKEYS.KEYREL.PRED "_cant_n_1_rel", PHON.ONSET con ] ]. cant_v1 := v_np*_le & [ STEM < "cant" >, SYNSEM [ LKEYS.KEYREL.PRED "_cant_v_1_rel", PHON.ONSET con ] ]. canteen_n1 := n_-_c_le & [ STEM < "canteen" >, SYNSEM [ LKEYS.KEYREL.PRED "_canteen_n_1_rel", PHON.ONSET con ] ]. canterbury_n1 := n_-_pn_le & [ STEM < "Canterbury" >, SYNSEM [ LKEYS.KEYREL.CARG "Canterbury", PHON.ONSET con ] ]. canton_n1 := n_-_c_le & [ STEM < "canton" >, SYNSEM [ LKEYS.KEYREL.PRED "_canton_n_1_rel", PHON.ONSET con ] ]. canton_post_ttl := n_-_tt-post_le & [ STEM < "Canton" >, SYNSEM [ LKEYS.KEYREL.PRED "_canton_n_1_rel", PHON.ONSET con ] ]. canvas_n1 := n_-_mc_le & [ STEM < "canvas" >, SYNSEM [ LKEYS.KEYREL.PRED "_canvas_n_1_rel", PHON.ONSET con ] ]. canvas_v1 := v_np*_le & [ STEM < "canvas" >, SYNSEM [ LKEYS.KEYREL.PRED "_canvas_v_1_rel", PHON.ONSET con ] ]. canvass_n1 := n_-_mc_le & [ STEM < "canvass" >, SYNSEM [ LKEYS.KEYREL.PRED "_canvass_n_1_rel", PHON.ONSET con ] ]. canvass_v1 := v_np*_le & [ STEM < "canvass" >, SYNSEM [ LKEYS.KEYREL.PRED "_canvass_v_1_rel", PHON.ONSET con ] ]. canyon_n1 := n_-_c_le & [ STEM < "canyon" >, SYNSEM [ LKEYS.KEYREL.PRED "_canyon_n_1_rel", PHON.ONSET con ] ]. caobao_n1 := n_-_pn_le & [ STEM < "Caobao" >, SYNSEM [ LKEYS.KEYREL.CARG "Caobao", PHON.ONSET con ] ]. caohejing_n1 := n_-_pn_le & [ STEM < "Caohejing" >, SYNSEM [ LKEYS.KEYREL.CARG "Caohejing", PHON.ONSET con ] ]. caoxi_n1 := n_-_pn_le & [ STEM < "Caoxi" >, SYNSEM [ LKEYS.KEYREL.CARG "Caoxi", PHON.ONSET con ] ]. cap_n1 := n_-_c_le & [ STEM < "cap" >, SYNSEM [ LKEYS.KEYREL.PRED "_cap_n_1_rel", PHON.ONSET con ] ]. cap_n2 := n_-_pn_le & [ STEM < "Cap" >, SYNSEM [ LKEYS.KEYREL.CARG "Cap", PHON.ONSET con ] ]. cap_v1 := v_np-pp_e_le & [ STEM < "cap" >, SYNSEM [ LKEYS [ --OCOMPKEY _at_p_sel_rel, KEYREL.PRED "_cap_v_at_rel" ], PHON.ONSET con ] ]. cap_v2 := v_np_le & [ STEM < "cap" >, SYNSEM [ LKEYS.KEYREL.PRED "_cap_v_at_rel", PHON.ONSET con ] ]. capability_n1 := n_pp_mc_le & [ STEM < "capability" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_capability_n_to_rel" ], PHON.ONSET con ] ]. capability_n2 := n_vp_c_le & [ STEM < "capability" >, SYNSEM [ LKEYS.KEYREL.PRED "_capability_n_to_rel", PHON.ONSET voc ] ]. capable_a1 := aj_pp_i_le & [ STEM < "capable" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_capable_a_of_rel" ], PHON.ONSET con ] ]. capacious_a1 := aj_-_i_le & [ STEM < "capacious" >, SYNSEM [ LKEYS.KEYREL.PRED "_capacious_a_1_rel", PHON.ONSET con ] ]. capacity_n1 := n_-_mc_le & [ STEM < "capacity" >, SYNSEM [ LKEYS.KEYREL.PRED "_capacity_n_1_rel", PHON.ONSET con ] ]. cape_n1 := n_-_c_le & [ STEM < "cape" >, SYNSEM [ LKEYS.KEYREL.PRED "_cape_n_1_rel", PHON.ONSET con ] ]. capillary_n1 := n_-_c_le & [ STEM < "capillary" >, SYNSEM [ LKEYS.KEYREL.PRED "_capillary_n_1_rel", PHON.ONSET con ] ]. capital_a1 := aj_-_i_le & [ STEM < "capital" >, SYNSEM [ LKEYS.KEYREL.PRED "_capital_a_1_rel", PHON.ONSET con ] ]. capital_n1 := n_-_mc_le & [ STEM < "capital" >, SYNSEM [ LKEYS.KEYREL.PRED "_capital_n_1_rel", PHON.ONSET con ] ]. capitalism_n1 := n_-_m_le & [ STEM < "capitalism" >, SYNSEM [ LKEYS.KEYREL.PRED "_capitalism_n_1_rel", PHON.ONSET con ] ]. capitalist_a1 := aj_-_i_le & [ STEM < "capitalist" >, SYNSEM [ LKEYS.KEYREL.PRED "_capitalist_a_1_rel", PHON.ONSET con ] ]. capitalist_n1 := n_-_c_le & [ STEM < "capitalist" >, SYNSEM [ LKEYS.KEYREL.PRED "_capitalist_n_1_rel", PHON.ONSET con ] ]. capitalize_on_v1 := v_pp_e_le & [ STEM < "capitalize" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_capitalize_v_on_rel" ], PHON.ONSET con ] ]. capitalize_v1 := v_-_le & [ STEM < "capitalize" >, SYNSEM [ LKEYS.KEYREL.PRED "_capitalize_v_1_rel", PHON.ONSET con ] ]. capitulum_n1 := n_-_c_le & [ STEM < "capitulum" >, SYNSEM [ LKEYS.KEYREL.PRED "_capitulum_n_1_rel", PHON.ONSET con ] ]. capricious_a1 := aj_-_i_le & [ STEM < "capricious" >, SYNSEM [ LKEYS.KEYREL.PRED "_capricious_a_1_rel", PHON.ONSET con ] ]. capstan_n1 := n_-_c_le & [ STEM < "capstan" >, SYNSEM [ LKEYS.KEYREL.PRED "_capstan_n_1_rel", PHON.ONSET con ] ]. capsule_n1 := n_-_c_le & [ STEM < "capsule" >, SYNSEM [ LKEYS.KEYREL.PRED "_capsule_n_1_rel", PHON.ONSET con ] ]. captain_n := n_pp_c-of_le & [ STEM < "captain" >, SYNSEM [ LKEYS.KEYREL.PRED "_captain_n_of_rel", PHON.ONSET con ] ]. captains_bend_n1 := n_-_pn_le & [ STEM < "Captain", "'s", "Bend" >, SYNSEM [ LKEYS.KEYREL.CARG "Captains_Bend", PHON.ONSET con ] ]. caption_n1 := n_-_c_le & [ STEM < "caption" >, SYNSEM [ LKEYS.KEYREL.PRED "_caption_n_1_rel", PHON.ONSET con ] ]. caption_v1 := v_np_le & [ STEM < "caption" >, SYNSEM [ LKEYS.KEYREL.PRED "_caption_v_1_rel", PHON.ONSET con ] ]. captivate_v1 := v_np_le & [ STEM < "captivate" >, SYNSEM [ LKEYS.KEYREL.PRED "_captivate_v_1_rel", PHON.ONSET con ] ]. capture_n1 := n_pp_mc-of_le & [ STEM < "capture" >, SYNSEM [ LKEYS.KEYREL.PRED "_capture_n_of_rel", PHON.ONSET con ] ]. capture_v1 := v_np_le & [ STEM < "capture" >, SYNSEM [ LKEYS.KEYREL.PRED "_capture_v_1_rel", PHON.ONSET con ] ]. car-pool_n1 := n_-_c_le & [ STEM < "car", "pool" >, SYNSEM [ LKEYS.KEYREL.PRED "_car+pool_n_1_rel", PHON.ONSET con ] ]. car_free_a1 := aj_-_i_le & [ STEM < "car-", "free" >, SYNSEM [ LKEYS.KEYREL.PRED "_car-free_a_1_rel", PHON.ONSET con ] ]. car_n1 := n_-_c_le & [ STEM < "car" >, SYNSEM [ LKEYS.KEYREL.PRED "_car_n_1_rel", PHON.ONSET con ] ]. carafe_n1 := n_-_c_le & [ STEM < "carafe" >, SYNSEM [ LKEYS.KEYREL.PRED "_carafe_n_1_rel", PHON.ONSET con ] ]. carambola_n1 := n_-_mc_le & [ STEM < "carambola" >, SYNSEM [ LKEYS.KEYREL.PRED "_carambola_n_1_rel", PHON.ONSET con ] ]. carapace_n1 := n_-_c_le & [ STEM < "carapace" >, SYNSEM [ LKEYS.KEYREL.PRED "_carapace_n_1_rel", PHON.ONSET con ] ]. caravan_n1 := n_-_c_le & [ STEM < "caravan" >, SYNSEM [ LKEYS.KEYREL.PRED "_caravan_n_of_rel", PHON.ONSET con ] ]. caravan_n2 := n_pp_c-gr-of_le & [ STEM < "caravan" >, SYNSEM [ LKEYS.KEYREL.PRED "_caravan_n_of_rel", PHON.ONSET con ] ]. caravan_v1 := v_-_le & [ STEM < "caravan" >, SYNSEM [ LKEYS.KEYREL.PRED "_caravan_v_1_rel", PHON.ONSET con ] ]. carbene_n1 := n_-_mc_le & [ STEM < "carbene" >, SYNSEM [ LKEYS.KEYREL.PRED "_carbene_n_1_rel", PHON.ONSET con ] ]. carbine_n1 := n_-_c_le & [ STEM < "carbine" >, SYNSEM [ LKEYS.KEYREL.PRED "_carbine_n_1_rel", PHON.ONSET con ] ]. carbon_n1 := n_-_mc_le & [ STEM < "carbon" >, SYNSEM [ LKEYS.KEYREL.PRED "_carbon_n_1_rel", PHON.ONSET con ] ]. carbonate_n1 := n_-_mc_le & [ STEM < "carbonate" >, SYNSEM [ LKEYS.KEYREL.PRED "_carbonate_n_1_rel", PHON.ONSET con ] ]. carbonic_a1 := aj_-_i_le & [ STEM < "carbonic" >, SYNSEM [ LKEYS.KEYREL.PRED "_carbonic_a_1_rel", PHON.ONSET con ] ]. card_gle := aj_-_i-thr-unk_le & [ STEM < "_card_" >, SYNSEM.LKEYS.KEYREL.CARG "_card_" ]. card_n1 := n_-_c_le & [ STEM < "card" >, SYNSEM [ LKEYS.KEYREL.PRED "_card_n_1_rel", PHON.ONSET con ] ]. card_v1 := v_np_le & [ STEM < "card" >, SYNSEM [ LKEYS.KEYREL.PRED "_card_v_1_rel", PHON.ONSET con ] ]. cardamon_n1 := n_-_m_le & [ STEM < "cardamon" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardamon_n_1_rel", PHON.ONSET con ] ]. cardboard_n1 := n_-_mc_le & [ STEM < "cardboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardboard_n_1_rel", PHON.ONSET con ] ]. cardiac_a1 := aj_-_i_le & [ STEM < "cardiac" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardiac_a_1_rel", PHON.ONSET con ] ]. cardiff_n1 := n_-_pn-city_le & [ STEM < "Cardiff" >, SYNSEM [ LKEYS.KEYREL.CARG "Cardiff", PHON.ONSET con ] ]. cardinal_a1 := aj_-_i_le & [ STEM < "cardinal" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardinal_a_1_rel", PHON.ONSET con ] ]. cardinal_n1 := n_-_c_le & [ STEM < "cardinal" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardinal_n_1_rel", PHON.ONSET con ] ]. cardiovascular_a1 := aj_-_i_le & [ STEM < "cardiovascular" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardiovascular_a_1_rel", PHON.ONSET con ] ]. cardphone_n1 := n_-_c_le & [ STEM < "cardphone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cardphone_n_1_rel", PHON.ONSET con ] ]. cardwithcommas := aj_-_i-thr-unk_le & [ STEM < "numberersatz" > ]. care_about_v1 := v_pp_e_le & [ STEM < "care" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_care_v_about_rel" ], PHON.ONSET con ] ]. care_for_v1 := v_pp_e_le & [ STEM < "care" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_care_v_for_rel" ], PHON.ONSET con ] ]. care_n1 := n_-_m_le & [ STEM < "care" >, SYNSEM [ LKEYS.KEYREL.PRED "_care_n_1_rel", PHON.ONSET con ] ]. care_n1_i := n_-_c-br-idm_le & [ STEM < "care" >, SYNSEM [ LKEYS.KEYREL.PRED "_care_n_i_rel", PHON.ONSET con ] ]. care_of_prep := p_np_i-reg_le & [ STEM < "c/o" >, SYNSEM [ LKEYS.KEYREL.PRED _care+of_p_rel, PHON.ONSET con ] ]. care_of_prep_2 := p_np_i-reg_le & [ STEM < "c", "/", "o" >, SYNSEM [ LKEYS.KEYREL.PRED _care+of_p_rel, PHON.ONSET con ] ]. care_of_prep_3 := p_np_i-reg_le & [ STEM < "care", "of" >, SYNSEM [ LKEYS.KEYREL.PRED _care+of_p_rel, PHON.ONSET con ] ]. care_v1 := v_-_le & [ STEM < "care" >, SYNSEM [ LKEYS.KEYREL.PRED "_care_v_1_rel", PHON.ONSET con ] ]. care_v2 := v_cp_le & [ STEM < "care" >, SYNSEM [ LKEYS.KEYREL.PRED "_care_v_1_rel", PHON.ONSET con ] ]. care_v3 := v_vp_seq_le & [ STEM < "care" >, SYNSEM [ LKEYS.KEYREL.PRED "_care_v_1_rel", PHON.ONSET con ] ]. careen_v1 := v_pp*_dir_le & [ STEM < "careen" >, SYNSEM [ LKEYS.KEYREL.PRED "_careen_v_1_rel", PHON.ONSET con ] ]. career_n1 := n_-_c_le & [ STEM < "career" >, SYNSEM [ LKEYS.KEYREL.PRED "_career_n_1_rel", PHON.ONSET con ] ]. career_v1 := v_pp_dir_le & [ STEM < "career" >, SYNSEM [ LKEYS.KEYREL.PRED "_career_v_1_rel", PHON.ONSET con ] ]. careful_a1 := aj_pp_i_le & [ STEM < "careful" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_careful_a_with-about-of_rel" ], PHON.ONSET con ] ]. careful_a3 := aj_pp_i-obl_le & [ STEM < "careful" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_careful_a_with-about-of_rel" ], PHON.ONSET con ] ]. careful_a4 := aj_pp_i-obl_le & [ STEM < "careful" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_careful_a_with-about-of_rel" ], PHON.ONSET con ] ]. carefully := av_-_i-vp_le & [ STEM < "carefully" >, SYNSEM [ LKEYS.KEYREL.PRED "_careful_a_with-about-of_rel", PHON.ONSET con ] ]. careless_a1 := aj_pp_i_le & [ STEM < "careless" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_careless_a_with-about-of_rel" ], PHON.ONSET con ] ]. careless_a2 := aj_pp_i-obl_le & [ STEM < "careless" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_careless_a_with-about-of_rel" ], PHON.ONSET con ] ]. careless_a3 := aj_pp_i-obl_le & [ STEM < "careless" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_careless_a_with-about-of_rel" ], PHON.ONSET con ] ]. carelessly := av_-_i-vp_le & [ STEM < "carelessly" >, SYNSEM [ LKEYS.KEYREL.PRED "_careless_a_with-about-of_rel", PHON.ONSET con ] ]. carer_n1 := n_-_c_le & [ STEM < "carer" >, SYNSEM [ LKEYS.KEYREL.PRED "_carer_n_1_rel", PHON.ONSET con ] ]. caress_v1 := v_np_le & [ STEM < "caress" >, SYNSEM [ LKEYS.KEYREL.PRED "_caress_v_1_rel", PHON.ONSET con ] ]. caretaker_n1 := n_pp_c-of_le & [ STEM < "caretaker" >, SYNSEM [ LKEYS.KEYREL.PRED "_caretaker_n_of_rel", PHON.ONSET con ] ]. carey_n1 := n_-_pn_le & [ STEM < "Carey" >, SYNSEM [ LKEYS.KEYREL.CARG "Carey", PHON.ONSET con ] ]. cargo_n1 := n_-_mc_le & [ STEM < "cargo" >, SYNSEM [ LKEYS.KEYREL.PRED "_cargo_n_1_rel", PHON.ONSET con ] ]. caribbean_a1 := aj_-_i_le & [ STEM < "caribbean" >, SYNSEM [ LKEYS.KEYREL.PRED "_caribbean_a_1_rel", PHON.ONSET con ] ]. caribbean_n1 := n_-_c-nm_le & [ STEM < "Caribbean" >, SYNSEM [ LKEYS.KEYREL.CARG "Caribbean", PHON.ONSET con ] ]. caricature_n := n_-_c_le & [ STEM < "caricature" >, SYNSEM [ LKEYS.KEYREL.PRED "_caricature_n_1_rel", PHON.ONSET con ] ]. carillon_n1 := n_-_c_le & [ STEM < "carillon" >, SYNSEM [ LKEYS.KEYREL.PRED "_carillon_n_1_rel", PHON.ONSET con ] ]. carl_n1 := n_-_pn_le & [ STEM < "Carl" >, SYNSEM [ LKEYS.KEYREL.CARG "Carl", PHON.ONSET con ] ]. carla_n1 := n_-_pn_le & [ STEM < "Carla" >, SYNSEM [ LKEYS.KEYREL.CARG "Carla", PHON.ONSET con ] ]. carlo_n1 := n_-_pn_le & [ STEM < "Carlo" >, SYNSEM [ LKEYS.KEYREL.CARG "Carlo", PHON.ONSET con ] ]. carmen_n1 := n_-_pn_le & [ STEM < "Carmen" >, SYNSEM [ LKEYS.KEYREL.CARG "Carmen", PHON.ONSET con ] ]. carmer_n1 := n_-_pn_le & [ STEM < "Carmer" >, SYNSEM [ LKEYS.KEYREL.CARG "Carmer", PHON.ONSET con ] ]. carnival := n_np_pn-hol_le & [ STEM < "Carnival" >, SYNSEM [ LKEYS.KEYREL.CARG "Carnival", PHON.ONSET con ] ]. carnival_n1 := n_-_c_le & [ STEM < "carnival" >, SYNSEM [ LKEYS.KEYREL.PRED "_carnival_n_1_rel", PHON.ONSET con ] ]. carnivora_n1 := n_-_c-pl_le & [ STEM < "carnivora" >, SYNSEM [ LKEYS.KEYREL.PRED "_carnivora_n_1_rel", PHON.ONSET con ] ]. carnivorous_a1 := aj_-_i_le & [ STEM < "carnivorous" >, SYNSEM [ LKEYS.KEYREL.PRED "_carnivorous_a_1_rel", PHON.ONSET con ] ]. carol := n_-_pn_le & [ STEM < "Carol" >, SYNSEM [ LKEYS.KEYREL.CARG "Carol", PHON.ONSET con ] ]. carolg_n1 := n_-_pn_le & [ STEM < "CAROLG" >, SYNSEM [ LKEYS.KEYREL.CARG "CAROLG", PHON.ONSET con ] ]. caroline_n1 := n_-_pn_le & [ STEM < "Caroline" >, SYNSEM [ LKEYS.KEYREL.CARG "Caroline", PHON.ONSET con ] ]. carolingian_a1 := aj_-_i_le & [ STEM < "Carolingian" >, SYNSEM [ LKEYS.KEYREL.PRED "_carolingian_a_1_rel", PHON.ONSET con ] ]. carolyn_n1 := n_-_pn_le & [ STEM < "Carolyn" >, SYNSEM [ LKEYS.KEYREL.CARG "Carolyn", PHON.ONSET con ] ]. carp_n1 := n_-_mc_le & [ STEM < "carp" >, SYNSEM [ LKEYS.KEYREL.PRED "_carp_n_1_rel", PHON.ONSET con ] ]. carp_v1 := v_-_le & [ STEM < "carp" >, SYNSEM [ LKEYS.KEYREL.PRED "_carp_v_1_rel", PHON.ONSET con ] ]. carp_v2 := v_cp_le & [ STEM < "carp" >, SYNSEM [ LKEYS.KEYREL.PRED "_carp_v_1_rel", PHON.ONSET con ] ]. carpark_n1 := n_-_c_le & [ STEM < "carpark" >, SYNSEM [ LKEYS.KEYREL.PRED "_carpark_n_1_rel", PHON.ONSET con ] ]. carpenter_n1 := n_-_pn_le & [ STEM < "Carpenter" >, SYNSEM [ LKEYS.KEYREL.CARG "Carpenter", PHON.ONSET con ] ]. carpenter_n2 := n_-_c_le & [ STEM < "carpenter" >, SYNSEM [ LKEYS.KEYREL.PRED "_carpenter_n_1_rel", PHON.ONSET con ] ]. carpentry_n1 := n_-_m_le & [ STEM < "carpentry" >, SYNSEM [ LKEYS.KEYREL.PRED "_carpentry_n_1_rel", PHON.ONSET con ] ]. carpet_n1 := n_-_mc_le & [ STEM < "carpet" >, SYNSEM [ LKEYS.KEYREL.PRED "_carpet_n_1_rel", PHON.ONSET con ] ]. carpet_v1 := v_np_le & [ STEM < "carpet" >, SYNSEM [ LKEYS.KEYREL.PRED "_carpet_v_1_rel", PHON.ONSET con ] ]. carriage_n1 := n_-_c_le & [ STEM < "carriage" >, SYNSEM [ LKEYS.KEYREL.PRED "_carriage_n_1_rel", PHON.ONSET con ] ]. carribean_a1 := aj_-_i_le & [ STEM < "carribean" >, SYNSEM [ LKEYS.KEYREL.PRED "_carribean_a_1_rel", PHON.ONSET con ] ]. carribean_n1 := n_-_c-nm_le & [ STEM < "Carribean" >, SYNSEM [ LKEYS.KEYREL.CARG "Carribean", PHON.ONSET con ] ]. carrie_n1 := n_-_pn_le & [ STEM < "Carrie" >, SYNSEM [ LKEYS.KEYREL.CARG "Carrie", PHON.ONSET con ] ]. carrier_n1 := n_pp_c-of_le & [ STEM < "carrier" >, SYNSEM [ LKEYS.KEYREL.PRED "_carrier_n_of_rel", PHON.ONSET con ] ]. carrington_n1 := n_-_pn_le & [ STEM < "Carrington" >, SYNSEM [ LKEYS.KEYREL.CARG "Carrington", PHON.ONSET con ] ]. carroll_n1 := n_-_pn_le & [ STEM < "Carroll" >, SYNSEM [ LKEYS.KEYREL.CARG "Carroll", PHON.ONSET con ] ]. carrot_n1 := n_-_c_le & [ STEM < "carrot" >, SYNSEM [ LKEYS.KEYREL.PRED "_carrot_n_1_rel", PHON.ONSET con ] ]. carry_away_v1 := v_p-np_le & [ STEM < "carry" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_carry_v_away_rel" ], PHON.ONSET con ] ]. carry_in_v1 := v_p-np_le & [ STEM < "carry" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_carry_v_in_rel" ], PHON.ONSET con ] ]. carry_on_n1 := n_-_c_le & [ STEM < "carry", "on" >, SYNSEM [ LKEYS.KEYREL.PRED "_carry+on_n_1_rel", PHON.ONSET con ] ]. carry_on_v1 := v_p-np_le & [ STEM < "carry" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_carry_v_on_rel" ], PHON.ONSET con ] ]. carry_on_v2 := v_p_le & [ STEM < "carry" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_carry_v_on_rel" ], PHON.ONSET con ] ]. carry_out_v1 := v_p-np_le & [ STEM < "carry" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_carry_v_out_rel" ], PHON.ONSET con ] ]. carry_v1 := v_np_le & [ STEM < "carry" >, SYNSEM [ LKEYS.KEYREL.PRED "_carry_v_1_rel", PHON.ONSET con ] ]. carry_v2 := v_np-pp_prop_le & [ STEM < "carry" >, SYNSEM [ LKEYS.KEYREL.PRED "_carry_v_1_rel", PHON.ONSET con ] ]. carry_v3 := v_-_le & [ STEM < "carry" >, SYNSEM [ LKEYS.KEYREL.PRED "_carry_v_sound_rel", PHON.ONSET con ] ]. carson_n1 := n_-_pn_le & [ STEM < "Carson" >, SYNSEM [ LKEYS.KEYREL.CARG "Carson", PHON.ONSET con ] ]. cart_away_v1 := v_p-np_le & [ STEM < "cart" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_cart_v_away_rel" ], PHON.ONSET con ] ]. cart_n1 := n_-_c_le & [ STEM < "cart" >, SYNSEM [ LKEYS.KEYREL.PRED "_cart_n_1_rel", PHON.ONSET con ] ]. cart_v1 := v_np_le & [ STEM < "cart" >, SYNSEM [ LKEYS.KEYREL.PRED "_cart_v_1_rel", PHON.ONSET con ] ]. cart_v2 := v_np-pp_prop_le & [ STEM < "cart" >, SYNSEM [ LKEYS.KEYREL.PRED "_cart_v_1_rel", PHON.ONSET con ] ]. carter_n1 := n_-_pn_le & [ STEM < "Carter" >, SYNSEM [ LKEYS.KEYREL.CARG "Carter", PHON.ONSET con ] ]. cartographic_a1 := aj_-_i_le & [ STEM < "cartographic" >, SYNSEM [ LKEYS.KEYREL.PRED "_cartographic_a_1_rel", PHON.ONSET con ] ]. carton_n1 := n_pp_c-of_le & [ STEM < "carton" >, SYNSEM [ LKEYS.KEYREL.PRED "_carton_n_of_rel", PHON.ONSET con ] ]. cartridge_n1 := n_-_c_le & [ STEM < "cartridge" >, SYNSEM [ LKEYS.KEYREL.PRED "_cartridge_n_1_rel", PHON.ONSET con ] ]. carve_out_v1 := v_p-np_le & [ STEM < "carve" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_carve_v_out_rel" ], PHON.ONSET con ] ]. carve_up_v1 := v_p-np_le & [ STEM < "carve" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_carve_v_up_rel" ], PHON.ONSET con ] ]. carve_v1 := v_np*_le & [ STEM < "carve" >, SYNSEM [ LKEYS.KEYREL.PRED "_carve_v_1_rel", PHON.ONSET con ] ]. carve_v2 := v_np-pp_le & [ STEM < "carve" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_rel, KEYREL.PRED "_carve_v_1_rel" ], PHON.ONSET con ] ]. carve_v3 := v_np-pp_le & [ STEM < "carve" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_rel, KEYREL.PRED "_carve_v_1_rel" ], PHON.ONSET con ] ]. carver_n1 := n_-_pn_le & [ STEM < "Carver" >, SYNSEM [ LKEYS.KEYREL.CARG "Carver", PHON.ONSET con ] ]. carving_n1 := n_-_c_le & [ STEM < "carving" >, SYNSEM [ LKEYS.KEYREL.PRED "_carving_n_1_rel", PHON.ONSET con ] ]. casanova_n1 := n_-_pn_le & [ STEM < "Casanova" >, SYNSEM [ LKEYS.KEYREL.CARG "Casanova", PHON.ONSET con ] ]. cascade_n1 := n_-_c_le & [ STEM < "cascade" >, SYNSEM [ LKEYS.KEYREL.PRED "_cascade_n_1_rel", PHON.ONSET con ] ]. cascade_v1 := v_pp*_dir_le & [ STEM < "cascade" >, SYNSEM [ LKEYS.KEYREL.PRED "_cascade_v_1_rel", PHON.ONSET con ] ]. case_n1 := n_pp_c-of_le & [ STEM < "case" >, SYNSEM [ LKEYS.KEYREL.PRED "_case_n_of_rel", PHON.ONSET con ] ]. case_v1 := v_np_le & [ STEM < "case" >, SYNSEM [ LKEYS.KEYREL.PRED "_case_v_1_rel", PHON.ONSET con ] ]. case_v2 := v_np-pp_e_le & [ STEM < "case" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_sel_rel, KEYREL.PRED "_case_v_in_rel" ], PHON.ONSET con ] ]. casement_n1 := n_-_c_le & [ STEM < "casement" >, SYNSEM [ LKEYS.KEYREL.PRED "_casement_n_1_rel", PHON.ONSET con ] ]. casey_n1 := n_-_pn_le & [ STEM < "Casey" >, SYNSEM [ LKEYS.KEYREL.CARG "Casey", PHON.ONSET con ] ]. cash_in_v1 := v_p-np_le & [ STEM < "cash" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_cash_v_in_rel" ], PHON.ONSET con ] ]. cash_n1 := n_-_m_le & [ STEM < "cash" >, SYNSEM [ LKEYS.KEYREL.PRED "_cash_n_1_rel", PHON.ONSET con ] ]. cash_v1 := v_np_le & [ STEM < "cash" >, SYNSEM [ LKEYS.KEYREL.PRED "_cash_v_1_rel", PHON.ONSET con ] ]. cashier_n1 := n_-_c_le & [ STEM < "cashier" >, SYNSEM [ LKEYS.KEYREL.PRED "_cashier_n_1_rel", PHON.ONSET con ] ]. cashiers_check_n1 := n_-_c_le & [ STEM < "cashier's", "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_cashiers+check_n_1_rel", PHON.ONSET con ] ]. casing_n1 := n_-_c_le & [ STEM < "casing" >, SYNSEM [ LKEYS.KEYREL.PRED "_casing_n_1_rel", PHON.ONSET con ] ]. casino_n1 := n_-_c_le & [ STEM < "casino" >, SYNSEM [ LKEYS.KEYREL.PRED "_casino_n_1_rel", PHON.ONSET con ] ]. casio_n1 := n_-_pn_le & [ STEM < "Casio" >, SYNSEM [ LKEYS.KEYREL.CARG "Casio", PHON.ONSET con ] ]. cask_n1 := n_-_c_le & [ STEM < "cask" >, SYNSEM [ LKEYS.KEYREL.PRED "_cask_n_1_rel", PHON.ONSET con ] ]. caspar_n1 := n_-_pn_le & [ STEM < "Caspar" >, SYNSEM [ LKEYS.KEYREL.CARG "Caspar", PHON.ONSET con ] ]. caspian_n1 := n_-_c-nm_le & [ STEM < "Caspian" >, SYNSEM [ LKEYS.KEYREL.CARG "Caspian", PHON.ONSET con ] ]. casserole_n1 := n_-_c_le & [ STEM < "casserole" >, SYNSEM [ LKEYS.KEYREL.PRED "_casserole_n_1_rel", PHON.ONSET con ] ]. cassette_n1 := n_-_c_le & [ STEM < "cassette" >, SYNSEM [ LKEYS.KEYREL.PRED "_cassette_n_1_rel", PHON.ONSET con ] ]. cassie_n1 := n_-_pn_le & [ STEM < "Cassie" >, SYNSEM [ LKEYS.KEYREL.CARG "Cassie", PHON.ONSET con ] ]. cassite_n1 := n_-_pn_le & [ STEM < "Cassite" >, SYNSEM [ LKEYS.KEYREL.CARG "Cassite", PHON.ONSET con ] ]. cast_down_v1 := v_p-np_le & [ STEM < "cast" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_cast_v_down_rel" ], PHON.ONSET con ] ]. cast_n1 := n_-_c_le & [ STEM < "cast" >, SYNSEM [ LKEYS.KEYREL.PRED "_cast_n_1_rel", PHON.ONSET con ] ]. cast_off_v1 := v_p-np_le & [ STEM < "cast" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cast_v_off_rel" ], PHON.ONSET con ] ]. cast_off_v2 := v_p_le & [ STEM < "cast" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cast_v_off_rel" ], PHON.ONSET con ] ]. cast_out_v1 := v_p-np_le & [ STEM < "cast" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cast_v_out_rel" ], PHON.ONSET con ] ]. cast_v1 := v_np_le & [ STEM < "cast" >, SYNSEM [ LKEYS.KEYREL.PRED "_cast_v_1_rel", PHON.ONSET con ] ]. cast_v2 := v_np-pp_prop_le & [ STEM < "cast" >, SYNSEM [ LKEYS.KEYREL.PRED "_cast_v_1_rel", PHON.ONSET con ] ]. cast_v3 := v_np-pp_oeq-as_le & [ STEM < "cast" >, SYNSEM [ LKEYS.KEYREL.PRED "_cast_v_as_rel", PHON.ONSET con ] ]. casting_n1 := n_-_c-nocnh_le & [ STEM < "casting" >, SYNSEM [ LKEYS.KEYREL.PRED "_casting_n_1_rel", PHON.ONSET con ] ]. castle_n1 := n_-_c_le & [ STEM < "castle" >, SYNSEM [ LKEYS.KEYREL.PRED "_castle_n_1_rel", PHON.ONSET con ] ]. castle_post_ttl := n_-_tt-post_le & [ STEM < "Castle" >, SYNSEM [ LKEYS.KEYREL.PRED "_castle_n_1_rel", PHON.ONSET con ] ]. castrate_v1 := v_np_le & [ STEM < "castrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_castrate_v_1_rel", PHON.ONSET con ] ]. castro_n1 := n_-_pn_le & [ STEM < "Castro" >, SYNSEM [ LKEYS.KEYREL.CARG "Castro", PHON.ONSET con ] ]. casual_a1 := aj_-_i_le & [ STEM < "casual" >, SYNSEM [ LKEYS.KEYREL.PRED "_casual_a_1_rel", PHON.ONSET con ] ]. casual_n1 := n_-_c-nocnh_le & [ STEM < "casual" >, SYNSEM [ LKEYS.KEYREL.PRED "_casual_n_1_rel", PHON.ONSET con ] ]. casually_adv := av_-_i-vp_le & [ STEM < "casually" >, SYNSEM [ LKEYS.KEYREL.PRED "_casual_a_1_rel", PHON.ONSET con ] ]. casualty_n1 := n_-_c_le & [ STEM < "casualty" >, SYNSEM [ LKEYS.KEYREL.PRED "_casualty_n_1_rel", PHON.ONSET con ] ]. cat_n1 := n_-_c_le & [ STEM < "cat" >, SYNSEM [ LKEYS.KEYREL.PRED "_cat_n_1_rel", PHON.ONSET con ] ]. catalan_n1 := n_-_pn_le & [ STEM < "Catalan" >, SYNSEM [ LKEYS.KEYREL.CARG "Catalan", PHON.ONSET con ] ]. catalog_n1 := n_pp_c-of_le & [ STEM < "catalog" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalogue_n_of_rel", PHON.ONSET con ] ]. catalog_v1 := v_np_le & [ STEM < "catalog" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalog_v_1_rel", PHON.ONSET con ] ]. catalogue_n1 := n_pp_c-of_le & [ STEM < "catalogue" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalogue_n_of_rel", PHON.ONSET con ] ]. catalogue_v1 := v_np_le & [ STEM < "catalogue" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalogue_v_1_rel", PHON.ONSET con ] ]. catalunian_a1 := aj_-_i_le & [ STEM < "Catalunian" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalunian_a_1_rel", PHON.ONSET con ] ]. catalunian_n2 := n_-_c-nocnh_le & [ STEM < "Catalunian" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalunian_n_1_rel", PHON.ONSET con ] ]. catalyst_n1 := n_-_c_le & [ STEM < "catalyst" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalyst_n_1_rel", PHON.ONSET con ] ]. catalytic_a1 := aj_-_i_le & [ STEM < "catalytic" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalytic_a_1_rel", PHON.ONSET con ] ]. catalyze_v1 := v_-_unacc_le & [ STEM < "catalyze" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalyze_v_1_rel", PHON.ONSET con ] ]. catalyze_v2 := v_np_noger_le & [ STEM < "catalyze" >, SYNSEM [ LKEYS.KEYREL.PRED "_catalyze_v_cause_rel", PHON.ONSET con ] ]. catamaran_n1 := n_-_c_le & [ STEM < "catamaran" >, SYNSEM [ LKEYS.KEYREL.PRED "_catamaran_n_1_rel", PHON.ONSET con ] ]. cataract_n1 := n_-_c_le & [ STEM < "cataract" >, SYNSEM [ LKEYS.KEYREL.PRED "_cataract_n_1_rel", PHON.ONSET con ] ]. catastrophe_n1 := n_-_mc_le & [ STEM < "catastrophe" >, SYNSEM [ LKEYS.KEYREL.PRED "_catastrophe_n_1_rel", PHON.ONSET con ] ]. catastrophic_isect := aj_-_i_le & [ STEM < "catastrophic" >, SYNSEM [ LKEYS.KEYREL.PRED "_catastrophic_a_1_rel", PHON.ONSET con ] ]. catastrophically := av_-_i-vp_le & [ STEM < "catastrophically" >, SYNSEM [ LKEYS.KEYREL.PRED "_catastrophic_a_1_rel", PHON.ONSET con ] ]. catch_n1 := n_-_c_le & [ STEM < "catch" >, SYNSEM [ LKEYS.KEYREL.PRED "_catch_n_1_rel", PHON.ONSET con ] ]. catch_on_v2 := v_p-cp_le & [ STEM < "catch" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_catch_v_on_rel" ], PHON.ONSET con ] ]. catch_up_v1 := v_p_le & [ STEM < "catch" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_catch_v_up_rel" ], PHON.ONSET con ] ]. catch_up_v2 := v_p-pp_le & [ STEM < "catch" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, --OCOMPKEY _on_p_rel, KEYREL.PRED "_catch_v_up_rel" ], PHON.ONSET con ] ]. catch_up_v3 := v_p-pp_le & [ STEM < "catch" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, --OCOMPKEY _with_p_rel, KEYREL.PRED "_catch_v_up_rel" ], PHON.ONSET con ] ]. catch_v1 := v_np_le & [ STEM < "catch" >, SYNSEM [ LKEYS.KEYREL.PRED "_catch_v_1_rel", PHON.ONSET con ] ]. catch_v2 := v_np-prd_oeq_le & [ STEM < "catch" >, SYNSEM [ LKEYS.KEYREL.PRED "_catch_v_1_rel", PHON.ONSET con ] ]. catcher_n1 := n_-_c_le & [ STEM < "catcher" >, SYNSEM [ LKEYS.KEYREL.PRED "_catcher_n_1_rel", PHON.ONSET con ] ]. catchier := aj_pp_i-cmp_le & [ STEM < "catchier" >, SYNSEM [ LKEYS.KEYREL.PRED "_catchy_a_1_rel", PHON.ONSET con ] ]. catchiest := aj_-_i-sup_le & [ STEM < "catchiest" >, SYNSEM [ LKEYS.KEYREL.PRED "_catchy_a_1_rel", PHON.ONSET con ] ]. catchy_a1 := aj_-_i_le & [ STEM < "catchy" >, SYNSEM [ LKEYS.KEYREL.PRED "_catchy_a_1_rel", PHON.ONSET con ] ]. categorize_v1 := v_np_le & [ STEM < "categorize" >, SYNSEM [ LKEYS.KEYREL.PRED "_categorize_v_1_rel", PHON.ONSET con ] ]. categorize_v2 := v_np-pp_oeq-as_le & [ STEM < "categorize" >, SYNSEM [ LKEYS.KEYREL.PRED "_categorize_v_as_rel", PHON.ONSET con ] ]. category_n1 := n_pp_c-of_le & [ STEM < "category" >, SYNSEM [ LKEYS.KEYREL.PRED "_category_n_of_rel", PHON.ONSET con ] ]. cater_for_v1 := v_pp_e_le & [ STEM < "cater" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_cater_v_for_rel" ], PHON.ONSET con ] ]. cater_to_v1 := v_pp_e_le & [ STEM < "cater" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_cater_v_to_rel" ], PHON.ONSET con ] ]. cater_v1 := v_np_le & [ STEM < "cater" >, SYNSEM [ LKEYS.KEYREL.PRED "_cater_v_1_rel", PHON.ONSET con ] ]. caters_n1 := n_-_pn_le & [ STEM < "Caters" >, SYNSEM [ LKEYS.KEYREL.CARG "Caters", PHON.ONSET con ] ]. catharsis_n1 := n_-_c_le & [ STEM < "catharsis" >, SYNSEM [ LKEYS.KEYREL.PRED "_catharsis_n_1_rel", PHON.ONSET con ] ]. cathartic_a1 := aj_-_i_le & [ STEM < "cathartic" >, SYNSEM [ LKEYS.KEYREL.PRED "_cathartic_a_1_rel", PHON.ONSET con ] ]. cathedral_n1 := n_-_c_le & [ STEM < "cathedral" >, SYNSEM [ LKEYS.KEYREL.PRED "_cathedral_n_1_rel", PHON.ONSET con ] ]. cathedral_post_ttl := n_-_tt-post_le & [ STEM < "Cathedral" >, SYNSEM [ LKEYS.KEYREL.PRED "_cathedral_n_1_rel", PHON.ONSET con ] ]. catherine_n1 := n_-_pn_le & [ STEM < "Catherine" >, SYNSEM [ LKEYS.KEYREL.CARG "Catherine", PHON.ONSET con ] ]. catholic_charities_n1 := n_-_pn_le & [ STEM < "Catholic", "Charities" >, SYNSEM [ LKEYS.KEYREL.CARG "Catholic+Charities", PHON.ONSET con ] ]. catholic_charities_usa_n1 := n_-_pn_le & [ STEM < "Catholic", "Charities", "USA" >, SYNSEM [ LKEYS.KEYREL.CARG "Catholic+Charities+USA", PHON.ONSET con ] ]. catholic_isect := aj_-_i_le & [ STEM < "catholic" >, SYNSEM [ LKEYS.KEYREL.PRED "_catholic_a_1_rel", PHON.ONSET con ] ]. catholic_n1 := n_-_c_le & [ STEM < "catholic" >, SYNSEM [ LKEYS.KEYREL.PRED "_catholic_n_1_rel", PHON.ONSET con ] ]. cation_n1 := n_-_c_le & [ STEM < "cation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cation_n_1_rel", PHON.ONSET con ] ]. cats_ear_n1 := n_-_m_le & [ STEM < "cat", "'s", "ear" >, SYNSEM [ LKEYS.KEYREL.PRED "_cats+ear_n_1_rel", PHON.ONSET con ] ]. catskills_n1 := n_-_c-nm-pl_le & [ STEM < "Catskill" >, SYNSEM [ LKEYS.KEYREL.CARG "Catskills", PHON.ONSET con ] ]. cattle_n1 := n_-_c-pl_le & [ STEM < "cattle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cattle_n_1_rel", PHON.ONSET con ] ]. cattleman_n1 := n_-_c_le & [ STEM < "cattleman" >, SYNSEM [ LKEYS.KEYREL.PRED "_cattleman_n_1_rel", PHON.ONSET con ] ]. caucasian_a1 := aj_-_i_le & [ STEM < "Caucasian" >, SYNSEM [ LKEYS.KEYREL.PRED "_caucasian_a_1_rel", PHON.ONSET con ] ]. caucasian_n1 := n_-_c-nocnh_le & [ STEM < "Caucasian" >, SYNSEM [ LKEYS.KEYREL.PRED "_caucasian_n_1_rel", PHON.ONSET con ] ]. cauldron_n1 := n_-_c_le & [ STEM < "cauldron" >, SYNSEM [ LKEYS.KEYREL.PRED "_cauldron_n_1_rel", PHON.ONSET con ] ]. causal_a1 := aj_-_i_le & [ STEM < "causal" >, SYNSEM [ LKEYS.KEYREL.PRED "_causal_a_1_rel", PHON.ONSET con ] ]. cause_n1 := n_pp_mc-of_le & [ STEM < "cause" >, SYNSEM [ LKEYS.KEYREL.PRED "_cause_n_of_rel", PHON.ONSET con ] ]. cause_v1 := v_np-vp_oeq_le & [ STEM < "cause" >, SYNSEM [ LKEYS.KEYREL.PRED "_cause_v_1_rel", PHON.ONSET con ] ]. cause_v2 := v_np_le & [ STEM < "cause" >, SYNSEM [ LKEYS.KEYREL.PRED "_cause_v_1_rel", PHON.ONSET con ] ]. cause_v3 := v_np-np_le & [ STEM < "cause" >, SYNSEM [ LKEYS.KEYREL.PRED "_cause_v_1_rel", PHON.ONSET con ] ]. causeway_n1 := n_-_c_le & [ STEM < "causeway" >, SYNSEM [ LKEYS.KEYREL.PRED "_causeway_n_1_rel", PHON.ONSET con ] ]. caution_n1 := n_-_mc_le & [ STEM < "caution" >, SYNSEM [ LKEYS.KEYREL.PRED "_caution_n_1_rel", PHON.ONSET con ] ]. caution_v1 := v_np-cp_le & [ STEM < "caution" >, SYNSEM [ LKEYS.KEYREL.PRED "_caution_v_1_rel", PHON.ONSET con ] ]. caution_v2 := v_np_le & [ STEM < "caution" >, SYNSEM [ LKEYS.KEYREL.PRED "_caution_v_1_rel", PHON.ONSET con ] ]. cautious_a1 := aj_-_i_le & [ STEM < "cautious" >, SYNSEM [ LKEYS.KEYREL.PRED "_cautious_a_1_rel", PHON.ONSET con ] ]. cautiously_adv := av_-_i-vp_le & [ STEM < "cautiously" >, SYNSEM [ LKEYS.KEYREL.PRED "_cautious_a_1_rel", PHON.ONSET con ] ]. cav_n1 := n_-_pn_le & [ STEM < "Cav" >, SYNSEM [ LKEYS.KEYREL.CARG "Cav", PHON.ONSET con ] ]. cavalier_n1 := n_-_c_le & [ STEM < "cavalier" >, SYNSEM [ LKEYS.KEYREL.PRED "_cavalier_n_1_rel", PHON.ONSET con ] ]. cavalry_n1 := n_-_m_le & [ STEM < "cavalry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cavalry_n_1_rel", PHON.ONSET con ] ]. cave_in_v1 := v_p-np_le & [ STEM < "cave" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_cave_v_in_rel" ], PHON.ONSET con ] ]. cave_in_v2 := v_p_le & [ STEM < "cave" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_cave_v_in_rel" ], PHON.ONSET con ] ]. cave_n1 := n_-_c_le & [ STEM < "cave" >, SYNSEM [ LKEYS.KEYREL.PRED "_cave_n_1_rel", PHON.ONSET con ] ]. cave_post_ttl := n_-_tt-post_le & [ STEM < "Cave" >, SYNSEM [ LKEYS.KEYREL.PRED "_cave_n_1_rel", PHON.ONSET con ] ]. cave_v1 := v_-_le & [ STEM < "cave" >, SYNSEM [ LKEYS.KEYREL.PRED "_cave_v_1_rel", PHON.ONSET con ] ]. cavenee_n1 := n_-_pn_le & [ STEM < "Cavenee" >, SYNSEM [ LKEYS.KEYREL.CARG "Cavenee", PHON.ONSET con ] ]. cavern_n1 := n_-_c_le & [ STEM < "cavern" >, SYNSEM [ LKEYS.KEYREL.PRED "_cavern_n_1_rel", PHON.ONSET con ] ]. caviar_n1 := n_-_c_le & [ STEM < "caviar" >, SYNSEM [ LKEYS.KEYREL.PRED "_caviar_n_1_rel", PHON.ONSET con ] ]. cavin_n1 := n_-_pn_le & [ STEM < "Cavin" >, SYNSEM [ LKEYS.KEYREL.CARG "Cavin", PHON.ONSET con ] ]. cavity_n1 := n_-_c_le & [ STEM < "cavity" >, SYNSEM [ LKEYS.KEYREL.PRED "_cavity_n_1_rel", PHON.ONSET con ] ]. cayenne_n1 := n_-_m_le & [ STEM < "cayenne" >, SYNSEM [ LKEYS.KEYREL.PRED "_cayenne_n_1_rel", PHON.ONSET con ] ]. cb_n1 := n_-_c_le & [ STEM < "CB" >, SYNSEM [ LKEYS.KEYREL.PRED "_cb_n_1_rel", PHON.ONSET con ] ]. cbs_n1 := n_-_pn_le & [ STEM < "CBS" >, SYNSEM [ LKEYS.KEYREL.CARG "CBS", PHON.ONSET con ] ]. cc_n1 := n_-_c_le & [ STEM < "cc" >, SYNSEM [ LKEYS.KEYREL.PRED "_cc_n_1_rel", PHON.ONSET con ] ]. cc_v1 := v_np_le & [ STEM < "cc" >, SYNSEM [ LKEYS.KEYREL.PRED "_cc_v_1_rel", PHON.ONSET con ] ]. cc_v2 := v_np-pp_prop_le & [ STEM < "cc" >, SYNSEM [ LKEYS.KEYREL.PRED "_cc_v_1_rel", PHON.ONSET con ] ]. cd_n1 := n_-_c_le & [ STEM < "cd" >, SYNSEM [ LKEYS.KEYREL.PRED "_cd_n_1_rel", PHON.ONSET con ] ]. cdma_n1 := n_-_pn_le & [ STEM < "CDMA" >, SYNSEM [ LKEYS.KEYREL.CARG "CDMA", PHON.ONSET con ] ]. cdrom_n1 := n_-_c_le & [ STEM < "cdrom" >, SYNSEM [ LKEYS.KEYREL.PRED "_cdrom_n_1_rel", PHON.ONSET con ] ]. cdrom_n2 := n_-_c_le & [ STEM < "cd", "rom" >, SYNSEM [ LKEYS.KEYREL.PRED "_cdrom_n_1_rel", PHON.ONSET con ] ]. cdt_n1 := n_-_c_le & [ STEM < "cdt" >, SYNSEM [ LKEYS.KEYREL.PRED "_cdt_n_1_rel", PHON.ONSET con ] ]. cease_v1 := v_np_noger_le & [ STEM < "cease" >, SYNSEM [ LKEYS.KEYREL.PRED "_cease_v_cause_rel", PHON.ONSET con ] ]. cease_v2 := v_-_unacc_le & [ STEM < "cease" >, SYNSEM [ LKEYS.KEYREL.PRED "_cease_v_1_rel", PHON.ONSET con ] ]. cease_v3 := v_vp_ssr_le & [ STEM < "cease" >, SYNSEM [ LKEYS.KEYREL.PRED "_cease_v_1_rel", PHON.ONSET con ] ]. cease_v4 := v_vp_ssr-prp_le & [ STEM < "cease" >, SYNSEM [ LKEYS.KEYREL.PRED "_cease_v_1_rel", PHON.ONSET con ] ]. cebit_n1 := n_-_pn_le & [ STEM < "Cebit" >, SYNSEM [ LKEYS.KEYREL.CARG "Cebit", PHON.ONSET con ] ]. cedar_n1 := n_-_mc_le & [ STEM < "cedar" >, SYNSEM [ LKEYS.KEYREL.PRED "_cedar_n_1_rel", PHON.ONSET con ] ]. cedar_n2 := n_-_pn_le & [ STEM < "Cedar" >, SYNSEM [ LKEYS.KEYREL.CARG "Cedar", PHON.ONSET con ] ]. ceiling_n1 := n_-_c-ed_le & [ STEM < "ceiling" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceiling_n_1_rel", PHON.ONSET con ] ]. celebrant_n1 := n_-_c_le & [ STEM < "celebrant" >, SYNSEM [ LKEYS.KEYREL.PRED "_celebrant_n_1_rel", PHON.ONSET con ] ]. celebrate_v1 := v_np*_le & [ STEM < "celebrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_celebrate_v_1_rel", PHON.ONSET con ] ]. celebration_n1 := n_pp_mc-of_le & [ STEM < "celebration" >, SYNSEM [ LKEYS.KEYREL.PRED "_celebration_n_of_rel", PHON.ONSET con ] ]. celeron_n1 := n_-_pn_le & [ STEM < "Celeron" >, SYNSEM [ LKEYS.KEYREL.CARG "Celeron", PHON.ONSET con ] ]. celestial_a1 := aj_-_i_le & [ STEM < "celestial" >, SYNSEM [ LKEYS.KEYREL.PRED "_celestial_a_1_rel", PHON.ONSET con ] ]. celia_n1 := n_-_pn_le & [ STEM < "Celia" >, SYNSEM [ LKEYS.KEYREL.CARG "Celia", PHON.ONSET con ] ]. celibacy_n1 := n_-_m_le & [ STEM < "celibacy" >, SYNSEM [ LKEYS.KEYREL.PRED "_celibacy_n_1_rel", PHON.ONSET con ] ]. celie_n1 := n_-_pn_le & [ STEM < "Celie" >, SYNSEM [ LKEYS.KEYREL.CARG "Celie", PHON.ONSET con ] ]. cell_n1 := n_-_c-ed_le & [ STEM < "cell" >, SYNSEM [ LKEYS.KEYREL.PRED "_cell_n_1_rel", PHON.ONSET con ] ]. cell_phone_n1 := n_-_c_le & [ STEM < "cellphone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cell+phone_n_1_rel", PHON.ONSET con ] ]. cellar_n1 := n_-_c_le & [ STEM < "cellar" >, SYNSEM [ LKEYS.KEYREL.PRED "_cellar_n_1_rel", PHON.ONSET con ] ]. celle_n1 := n_-_pn_le & [ STEM < "Celle" >, SYNSEM [ LKEYS.KEYREL.CARG "Celle", PHON.ONSET con ] ]. cellular_a1 := aj_-_i_le & [ STEM < "cellular" >, SYNSEM [ LKEYS.KEYREL.PRED "_cellular_a_1_rel", PHON.ONSET con ] ]. cellule_n1 := n_-_c_le & [ STEM < "cellule" >, SYNSEM [ LKEYS.KEYREL.PRED "_cellule_n_1_rel", PHON.ONSET con ] ]. cellulose_n1 := n_-_m_le & [ STEM < "cellulose" >, SYNSEM [ LKEYS.KEYREL.PRED "_cellulose_n_1_rel", PHON.ONSET con ] ]. celsius := n_-_pn_le & [ STEM < "Celsius" >, SYNSEM [ LKEYS.KEYREL.CARG "Celsius", PHON.ONSET con ] ]. celtic_a1 := aj_-_i_le & [ STEM < "celtic" >, SYNSEM [ LKEYS.KEYREL.PRED "_celtic_a_1_rel", PHON.ONSET con ] ]. cement_n1 := n_-_mc_le & [ STEM < "cement" >, SYNSEM [ LKEYS.KEYREL.PRED "_cement_n_1_rel", PHON.ONSET con ] ]. cement_v1 := v_np_le & [ STEM < "cement" >, SYNSEM [ LKEYS.KEYREL.PRED "_cement_v_1_rel", PHON.ONSET con ] ]. cemetery_n1 := n_-_c_le & [ STEM < "cemetery" >, SYNSEM [ LKEYS.KEYREL.PRED "_cemetery_n_1_rel", PHON.ONSET con ] ]. cemetery_post_ttl := n_-_tt-post_le & [ STEM < "cemetery" >, SYNSEM [ LKEYS.KEYREL.PRED "_cemetery_n_1_rel", PHON.ONSET con ] ]. censorship_n1 := n_pp_mc-of_le & [ STEM < "censorship" >, SYNSEM [ LKEYS.KEYREL.PRED "_censorship_n_of_rel", PHON.ONSET con ] ]. censure_n1 := n_-_m_le & [ STEM < "censure" >, SYNSEM [ LKEYS.KEYREL.PRED "_censure_n_1_rel", PHON.ONSET con ] ]. censure_v1 := v_np_le & [ STEM < "censure" >, SYNSEM [ LKEYS.KEYREL.PRED "_censure_v_1_rel", PHON.ONSET con ] ]. census_n1 := n_pp_c_le & [ STEM < "census" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_census_n_of_rel" ], PHON.ONSET con ] ]. cent_abb_n1 := n_-_c-meas_le & [ STEM < "ct" >, SYNSEM [ LKEYS.KEYREL.PRED "_cent_n_1_rel", PHON.ONSET con ] ]. cent_abb_n2 := n_-_c-meas_le & [ STEM < "ct." >, SYNSEM [ LKEYS.KEYREL.PRED "_cent_n_1_rel", PHON.ONSET con ] ]. cent_n1 := n_-_c-meas_le & [ STEM < "cent" >, SYNSEM [ LKEYS.KEYREL.PRED "_cent_n_1_rel", PHON.ONSET con ] ]. centenarian_n1 := n_-_c_le & [ STEM < "centenarian" >, SYNSEM [ LKEYS.KEYREL.PRED "_centenarian_n_1_rel", PHON.ONSET con ] ]. centenary_n1 := n_-_c_le & [ STEM < "centenary" >, SYNSEM [ LKEYS.KEYREL.PRED "_centenary_n_1_rel", PHON.ONSET con ] ]. centennial_n1 := n_-_c_le & [ STEM < "centennial" >, SYNSEM [ LKEYS.KEYREL.PRED "_centennial_n_1_rel", PHON.ONSET con ] ]. center_around_v1 := v_pp_e_le & [ STEM < "center" >, SYNSEM [ LKEYS [ --COMPKEY _around_p_sel_rel, KEYREL.PRED "_center_v_around_rel" ], PHON.ONSET con ] ]. center_around_v1_br := v_pp_e_le & [ DIALECT br, STEM < "centre" >, SYNSEM [ LKEYS [ --COMPKEY _around_p_sel_rel, KEYREL.PRED "_center_v_around_rel" ], PHON.ONSET con ] ]. center_n1 := n_pp_c-of_le & [ STEM < "center" >, SYNSEM [ LKEYS.KEYREL.PRED "_center_n_of_rel", PHON.ONSET con ] ]. center_n1_br := n_pp_c-of_le & [ DIALECT br, STEM < "centre" >, SYNSEM [ LKEYS.KEYREL.PRED "_center_n_of_rel", PHON.ONSET con ] ]. center_on_v1 := v_pp_e_le & [ STEM < "center" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_center_v_on_rel" ], PHON.ONSET con ] ]. center_on_v1_br := v_pp_e_le & [ DIALECT br, STEM < "centre" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_center_v_on_rel" ], PHON.ONSET con ] ]. center_post_ttl := n_-_tt-post_le & [ STEM < "Center" >, SYNSEM [ LKEYS.KEYREL.PRED "_center_n_of_rel", PHON.ONSET con ] ]. center_v1 := v_np_le & [ STEM < "center" >, SYNSEM [ LKEYS.KEYREL.PRED "_center_v_1_rel", PHON.ONSET con ] ]. center_v1_br := v_np_le & [ DIALECT br, STEM < "centre" >, SYNSEM [ LKEYS.KEYREL.PRED "_center_v_1_rel", PHON.ONSET con ] ]. centerpiece_n1 := n_-_c_le & [ STEM < "centerpiece" >, SYNSEM [ LKEYS.KEYREL.PRED "_centerpiece_n_1_rel", PHON.ONSET con ] ]. centigrade_abb_n1 := n_-_c-meas_le & [ STEM < "_C" >, SYNSEM [ LKEYS.KEYREL.PRED "_centigrade_n_1_rel", PHON.ONSET con ] ]. centigrade_abb_n2 := n_-_c-meas_le & [ STEM < "_C." >, SYNSEM [ LKEYS.KEYREL.PRED "_centigrade_n_1_rel", PHON.ONSET con ] ]. centimeter_abb_n1 := n_-_c-meas_le & [ STEM < "cm" >, SYNSEM [ LKEYS.KEYREL.PRED "_centimeter_n_1_rel", PHON.ONSET con ] ]. centimeter_abb_n2 := n_-_c-meas_le & [ STEM < "cm." >, SYNSEM [ LKEYS.KEYREL.PRED "_centimeter_n_1_rel", PHON.ONSET con ] ]. centimeter_n1 := n_-_c-meas_le & [ STEM < "centimeter" >, SYNSEM [ LKEYS.KEYREL.PRED "_centimeter_n_1_rel", PHON.ONSET con ] ]. central := aj_-_i_le & [ STEM < "central" >, SYNSEM [ LKEYS.KEYREL.PRED "_central_a_1_rel", PHON.ONSET con ] ]. central-station_n1 := n_-_pn_le & [ STEM < "Central", "Station" >, SYNSEM [ LKEYS.KEYREL.CARG "Central_Station", PHON.ONSET con ] ]. central-station_n2 := n_-_c-nm_le & [ STEM < "Central", "Station" >, SYNSEM [ LKEYS.KEYREL.CARG "Central_Station", PHON.ONSET con ] ]. central_n1 := n_-_pn_le & [ STEM < "Central" >, SYNSEM [ LKEYS.KEYREL.CARG "Central", PHON.ONSET con ] ]. central_park_n1 := n_-_pn_le & [ STEM < "Central", "Park" >, SYNSEM [ LKEYS.KEYREL.CARG "Central_Park", PHON.ONSET con ] ]. centrally := av_-_i-vp_le & [ STEM < "centrally" >, SYNSEM [ LKEYS.KEYREL.PRED "_central_a_1_rel", PHON.ONSET con ] ]. centre_post_ttl := n_-_tt-post_le & [ STEM < "Centre" >, SYNSEM [ LKEYS.KEYREL.PRED "_centre_n_1_rel", PHON.ONSET con ] ]. centrepiece_n1 := n_-_c_le & [ DIALECT br, STEM < "centrepiece" >, SYNSEM [ LKEYS.KEYREL.PRED "_centerpiece_n_1_rel", PHON.ONSET con ] ]. centrifugal_a1 := aj_-_i_le & [ STEM < "centrifugal" >, SYNSEM [ LKEYS.KEYREL.PRED "_centrifugal_a_1_rel", PHON.ONSET con ] ]. cents_abb_n1 := n_-_c-meas_le & [ STEM < "cts." >, SYNSEM [ LKEYS.KEYREL.PRED "_cent_n_1_rel", PHON.ONSET con ] ]. century_n1 := n_-_c-nday_le & [ STEM < "century" >, SYNSEM [ LKEYS.KEYREL.PRED "_century_n_1_rel", PHON.ONSET con ] ]. cephalon_n1 := n_-_c_le & [ STEM < "cephalon" >, SYNSEM [ LKEYS.KEYREL.PRED "_cephalon_n_1_rel", PHON.ONSET con ] ]. cepstral_n1 := n_-_pn_le & [ STEM < "Cepstral" >, SYNSEM [ LKEYS.KEYREL.CARG "Cepstral", PHON.ONSET con ] ]. cepstrel_n1 := n_-_pn_le & [ STEM < "Cepstrel" >, SYNSEM [ LKEYS.KEYREL.CARG "Cepstrel", PHON.ONSET con ] ]. ceramic_a1 := aj_-_i_le & [ STEM < "ceramic" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceramic_a_1_rel", PHON.ONSET con ] ]. ceramic_n1 := n_-_m-nocnh_le & [ STEM < "ceramic" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceramic_n_1_rel", PHON.ONSET con ] ]. ceramics_n1 := n_-_c-pl-nocnh_le & [ STEM < "ceramic" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceramics_n_1_rel", PHON.ONSET con ] ]. cereal_n1 := n_-_mc_le & [ STEM < "cereal" >, SYNSEM [ LKEYS.KEYREL.PRED "_cereal_n_1_rel", PHON.ONSET con ] ]. cerebral_a1 := aj_-_i_le & [ STEM < "cerebral" >, SYNSEM [ LKEYS.KEYREL.PRED "_cerebral_a_1_rel", PHON.ONSET con ] ]. ceremonial_a1 := aj_-_i_le & [ STEM < "ceremonial" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceremonial_a_1_rel", PHON.ONSET con ] ]. ceremonial_n1 := n_-_c-nocnh_le & [ STEM < "ceremonial" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceremonial_n_1_rel", PHON.ONSET con ] ]. ceremony_n1 := n_-_c_le & [ STEM < "ceremony" >, SYNSEM [ LKEYS.KEYREL.PRED "_ceremony_n_1_rel", PHON.ONSET con ] ]. cerilliant_n1 := n_-_pn_le & [ STEM < "Cerilliant" >, SYNSEM [ LKEYS.KEYREL.CARG "Cerilliant", PHON.ONSET con ] ]. certain_a1 := aj_cp_i_le & [ STEM < "certain" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_of_rel", PHON.ONSET con ] ]. certain_a2 := aj_pp_i-obl_le & [ STEM < "certain" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_certain_a_of_rel" ], PHON.ONSET con ] ]. certain_a3 := aj_vp_i-seq_le & [ STEM < "certain" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_of_rel", PHON.ONSET con ] ]. certain_a4 := aj_-_i_le & [ STEM < "certain" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_of_rel", PHON.ONSET con ] ]. certain_a5 := aj_pp_i-obl_le & [ STEM < "certain" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_certain_a_about_rel" ], PHON.ONSET con ] ]. certainly_adv1 := av_-_s-vp-x_le & [ STEM < "certainly" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_1_rel", PHON.ONSET con ] ]. certainly_adv2 := av_-_s-cp-pr_le & [ STEM < "certainly" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_1_rel", PHON.ONSET con ] ]. certainly_adv3 := av_-_s-negmod_le & [ STEM < "certainly" >, SYNSEM [ LKEYS.KEYREL.PRED "_certain_a_1_rel", PHON.ONSET con ] ]. certainty_n1 := n_-_mc_le & [ STEM < "certainty" >, SYNSEM [ LKEYS.KEYREL.PRED "_certainty_n_1_rel", PHON.ONSET con ] ]. certificate_n1 := n_pp_c-of_le & [ STEM < "certificate" >, SYNSEM [ LKEYS.KEYREL.PRED "_certificate_n_of_rel", PHON.ONSET con ] ]. certificated_a1 := aj_-_i_le & [ STEM < "certificated" >, SYNSEM [ LKEYS.KEYREL.PRED "_certificated_a_1_rel", PHON.ONSET con ] ]. certify_v1 := v_np_le & [ STEM < "certify" >, SYNSEM [ LKEYS.KEYREL.PRED "_certify_v_1_rel", PHON.ONSET con ] ]. certify_v2 := v_cp_prop_le & [ STEM < "certify" >, SYNSEM [ LKEYS.KEYREL.PRED "_certify_v_1_rel", PHON.ONSET con ] ]. certitude_n1 := n_-_mc_le & [ STEM < "certitude" >, SYNSEM [ LKEYS.KEYREL.PRED "_certitude_n_1_rel", PHON.ONSET con ] ]. cervix_n1 := n_-_c_le & [ STEM < "cervix" >, SYNSEM [ LKEYS.KEYREL.PRED "_cervix_n_1_rel", PHON.ONSET con ] ]. cessation_n1 := n_-_mc_le & [ STEM < "cessation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cessation_n_1_rel", PHON.ONSET con ] ]. cestre_n1 := n_-_pn_le & [ STEM < "Cestre" >, SYNSEM [ LKEYS.KEYREL.CARG "Cestre", PHON.ONSET con ] ]. cf_v1 := v_np_le & [ STEM < "cf" >, SYNSEM [ LKEYS.KEYREL.PRED "_cf_v_1_rel", PHON.ONSET con ] ]. cf_v2 := v_np_le & [ STEM < "cf." >, SYNSEM [ LKEYS.KEYREL.PRED "_cf_v_1_rel", PHON.ONSET con ] ]. chafe_v1 := v_np*_le & [ STEM < "chafe" >, SYNSEM [ LKEYS.KEYREL.PRED "_chafe_v_1_rel", PHON.ONSET con ] ]. chain_n := n_pp_c-of_le & [ STEM < "chain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chain_n_of_rel", PHON.ONSET con ] ]. chain_to_v2 := v_np-pp_e_le & [ STEM < "chain" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_chain_v_to_rel" ], PHON.ONSET con ] ]. chain_v1 := v_np_le & [ STEM < "chain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chain_v_to_rel", PHON.ONSET con ] ]. chain_v2 := v_-_le & [ STEM < "chain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chain_v_1_rel", PHON.ONSET con ] ]. chair_n1 := n_-_c_le & [ STEM < "chair" >, SYNSEM [ LKEYS.KEYREL.PRED "_chair_n_1_rel", PHON.ONSET con ] ]. chair_v1 := v_np*_le & [ STEM < "chair" >, SYNSEM [ LKEYS.KEYREL.PRED "_chair_v_1_rel", PHON.ONSET con ] ]. chairlift_n1 := n_-_c_le & [ STEM < "chairlift" >, SYNSEM [ LKEYS.KEYREL.PRED "_chairlift_n_1_rel", PHON.ONSET con ] ]. chairman_n1 := n_pp_c-of_le & [ STEM < "chairman" >, SYNSEM [ LKEYS.KEYREL.PRED "_chairman_n_of_rel", PHON.ONSET con ] ]. chairwoman_n1 := n_pp_c-of_le & [ STEM < "chairwoman" >, SYNSEM [ LKEYS.KEYREL.PRED "_chairwoman_n_of_rel", PHON.ONSET con ] ]. chaise_n1 := n_-_c_le & [ STEM < "chaise" >, SYNSEM [ LKEYS.KEYREL.PRED "_chaise_n_1_rel", PHON.ONSET con ] ]. chalfant_n1 := n_-_pn_le & [ STEM < "Chalfant" >, SYNSEM [ LKEYS.KEYREL.CARG "Chalfant", PHON.ONSET con ] ]. chalk_n1 := n_-_mc_le & [ STEM < "chalk" >, SYNSEM [ LKEYS.KEYREL.PRED "_chalk_n_1_rel", PHON.ONSET con ] ]. chalk_up_v1 := v_p-np_le & [ STEM < "chalk" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_chalk_v_up_rel" ], PHON.ONSET con ] ]. chalk_up_v2 := v_p-np-pp_to_le & [ STEM < "chalk" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_chalk_v_up_rel" ], PHON.ONSET con ] ]. chalk_v1 := v_np_le & [ STEM < "chalk" >, SYNSEM [ LKEYS.KEYREL.PRED "_chalk_v_1_rel", PHON.ONSET con ] ]. chalky_a1 := aj_-_i_le & [ STEM < "chalky" >, SYNSEM [ LKEYS.KEYREL.PRED "_chalky_a_1_rel", PHON.ONSET con ] ]. challenge_n1 := n_-_mc-ns_le & [ STEM < "challenge" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenge_n_1_rel", PHON.ONSET con ] ]. challenge_n2 := n_cp_c-inf_le & [ STEM < "challenge" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenge_n_1_rel", PHON.ONSET con ] ]. challenge_v1 := v_np-pp*_to_le & [ STEM < "challenge" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenge_v_to_rel", PHON.ONSET con ] ]. challenge_v2 := v_np-vp_oeq_le & [ STEM < "challenge" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenge_v_1_rel", PHON.ONSET con ] ]. challenging_a1 := aj_-_i_le & [ STEM < "challenging" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenging_a_1_rel", PHON.ONSET con ] ]. challengingly_adv1 := av_-_i-vp_le & [ STEM < "challengingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_challenging_a_1_rel", PHON.ONSET con ] ]. chamber_n1 := n_-_c_le & [ STEM < "chamber" >, SYNSEM [ LKEYS.KEYREL.PRED "_chamber_n_1_rel", PHON.ONSET con ] ]. chamber_post_ttl := n_-_tt-post_le & [ STEM < "Chamber" >, SYNSEM [ LKEYS.KEYREL.PRED "_chamber_n_1_rel", PHON.ONSET con ] ]. chamberlain_n1 := n_-_pn_le & [ STEM < "Chamberlain" >, SYNSEM [ LKEYS.KEYREL.CARG "Chamberlain", PHON.ONSET con ] ]. chamberlain_n2 := n_-_c_le & [ STEM < "chamberlain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chamberlain_n_1_rel", PHON.ONSET con ] ]. champ_n1 := n_-_c_le & [ STEM < "champ" >, SYNSEM [ LKEYS.KEYREL.PRED "_champ_n_1_rel", PHON.ONSET con ] ]. champagne_n1 := n_-_m_le & [ STEM < "champagne" >, SYNSEM [ LKEYS.KEYREL.PRED "_champagne_n_1_rel", PHON.ONSET con ] ]. champion_n1 := n_pp_c-of_le & [ STEM < "champion" >, SYNSEM [ LKEYS.KEYREL.PRED "_champion_n_of_rel", PHON.ONSET con ] ]. championship_n1 := n_-_c_le & [ STEM < "championship" >, SYNSEM [ LKEYS.KEYREL.PRED "_championship_n_1_rel", PHON.ONSET con ] ]. chan_n1 := n_-_pn_le & [ STEM < "Chan" >, SYNSEM [ LKEYS.KEYREL.CARG "Chan", PHON.ONSET con ] ]. chance_n1 := n_pp_mc-of_le & [ STEM < "chance" >, SYNSEM [ LKEYS.KEYREL.PRED "_chance_n_of_rel", PHON.ONSET con ] ]. chance_n2 := n_cp_c-optc_le & [ STEM < "chance" >, SYNSEM [ LKEYS.KEYREL.PRED "_chance_n_of_rel", PHON.ONSET con ] ]. chance_n3 := n_vp_c_le & [ STEM < "chance" >, SYNSEM [ LKEYS.KEYREL.PRED "_chance_n_of_rel", PHON.ONSET con ] ]. chance_upon_v1 := v_pp_e_le & [ STEM < "chance" >, SYNSEM [ LKEYS [ --COMPKEY _upon_p_sel_rel, KEYREL.PRED "_chance_v_upon_rel" ], PHON.ONSET con ] ]. chance_v1 := v_vp_ssr-nimp_le & [ STEM < "chance" >, SYNSEM [ LKEYS.KEYREL.PRED "_chance_v_1_rel", PHON.ONSET con ] ]. chancel_n1 := n_-_c_le & [ STEM < "chancel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chancel_n_1_rel", PHON.ONSET con ] ]. chancellor_n1 := n_pp_c-of_le & [ STEM < "chancellor" >, SYNSEM [ LKEYS.KEYREL.PRED "_chancellor_n_of_rel", PHON.ONSET con ] ]. chandelier_n1 := n_-_c_le & [ STEM < "chandelier" >, SYNSEM [ LKEYS.KEYREL.PRED "_chandelier_n_1_rel", PHON.ONSET con ] ]. chandler_n1 := n_-_pn-city_le & [ STEM < "Chandler" >, SYNSEM [ LKEYS.KEYREL.CARG "Chandler", PHON.ONSET con ] ]. changde_n1 := n_-_pn_le & [ STEM < "Changde" >, SYNSEM [ LKEYS.KEYREL.CARG "Changde", PHON.ONSET con ] ]. change_into_v1 := v_pp_e_le & [ STEM < "change" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_change_v_into_rel" ], PHON.ONSET con ] ]. change_into_v2 := v_np-pp_e_le & [ STEM < "change" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_change_v_into_rel" ], PHON.ONSET con ] ]. change_n1 := n_pp_mc-of_le & [ STEM < "change" >, SYNSEM [ LKEYS.KEYREL.PRED "_change_n_of_rel", PHON.ONSET con ] ]. change_n2 := n_pp_c-of-brn_le & [ STEM < "change" >, SYNSEM [ LKEYS.KEYREL.PRED "_change_n_of_rel", PHON.ONSET con ] ]. change_to_v1 := v_pp_e_le & [ STEM < "change" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_change_v_from-to_rel" ], PHON.ONSET con ] ]. change_v1 := v_np_noger_le & [ STEM < "change" >, SYNSEM [ LKEYS.KEYREL.PRED "_change_v_cause_rel", PHON.ONSET con ] ]. change_v2 := v_-_unacc_le & [ STEM < "change" >, SYNSEM [ LKEYS.KEYREL.PRED "_change_v_1_rel", PHON.ONSET con ] ]. change_v3 := v_np*-pp*-ppto_le & [ STEM < "change" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_change_v_from-to_rel" ], PHON.ONSET con ] ]. change_v4 := v_np-pp_nmod_le & [ STEM < "change" >, SYNSEM [ LKEYS [ --OCOMPKEY _about_p_rel, KEYREL.PRED "_change_v_1_rel" ], PHON.ONSET con ] ]. changeable_isect := aj_-_i_le & [ STEM < "changeable" >, SYNSEM [ LKEYS.KEYREL.PRED "_changeable_a_1_rel", PHON.ONSET con ] ]. changeover_n1 := n_-_mc_le & [ STEM < "changeover" >, SYNSEM [ LKEYS.KEYREL.PRED "_changeover_n_1_rel", PHON.ONSET con ] ]. changjiang_n1 := n_-_pn_le & [ STEM < "Changjiang" >, SYNSEM [ LKEYS.KEYREL.CARG "Changjiang", PHON.ONSET con ] ]. changning_n1 := n_-_pn_le & [ STEM < "Changning" >, SYNSEM [ LKEYS.KEYREL.CARG "Changning", PHON.ONSET con ] ]. changshu_n1 := n_-_pn_le & [ STEM < "Changshu" >, SYNSEM [ LKEYS.KEYREL.CARG "Changshu", PHON.ONSET con ] ]. channel_abb_n1 := n_-_c_le & [ STEM < "ch" >, SYNSEM [ LKEYS.KEYREL.PRED "_channel_n_1_rel", PHON.ONSET con ] ]. channel_abb_n2 := n_-_c_le & [ STEM < "ch." >, SYNSEM [ LKEYS.KEYREL.PRED "_channel_n_1_rel", PHON.ONSET con ] ]. channel_n1 := n_-_c_le & [ STEM < "channel" >, SYNSEM [ LKEYS.KEYREL.PRED "_channel_n_1_rel", PHON.ONSET con ] ]. channel_v1 := v_np_le & [ STEM < "channel" >, SYNSEM [ LKEYS.KEYREL.PRED "_channel_v_1_rel", PHON.ONSET con ] ]. channel_v2 := v_np-pp_prop_le & [ STEM < "channel" >, SYNSEM [ LKEYS.KEYREL.PRED "_channel_v_1_rel", PHON.ONSET con ] ]. channelize_v1 := v_np_le & [ STEM < "channelize" >, SYNSEM [ LKEYS.KEYREL.PRED "_channelize_v_1_rel", PHON.ONSET con ] ]. channing_n1 := n_-_pn_le & [ STEM < "Channing" >, SYNSEM [ LKEYS.KEYREL.CARG "Channing", PHON.ONSET con ] ]. chant_n1 := n_-_mc_le & [ STEM < "chant" >, SYNSEM [ LKEYS.KEYREL.PRED "_chant_n_1_rel", PHON.ONSET con ] ]. chant_v1 := v_np*_le & [ STEM < "chant" >, SYNSEM [ LKEYS.KEYREL.PRED "_chant_v_1_rel", PHON.ONSET con ] ]. chaos_n1 := n_-_m_le & [ STEM < "chaos" >, SYNSEM [ LKEYS.KEYREL.PRED "_chaos_n_1_rel", PHON.ONSET con ] ]. chaotic_a1 := aj_-_i_le & [ STEM < "chaotic" >, SYNSEM [ LKEYS.KEYREL.PRED "_chaotic_a_1_rel", PHON.ONSET con ] ]. chap_n1 := n_-_c_le & [ STEM < "chap" >, SYNSEM [ LKEYS.KEYREL.PRED "_chap_n_1_rel", PHON.ONSET con ] ]. chap_v1 := v_np_noger_le & [ STEM < "chap" >, SYNSEM [ LKEYS.KEYREL.PRED "_chap_v_cause_rel", PHON.ONSET con ] ]. chap_v2 := v_-_unacc_le & [ STEM < "chap" >, SYNSEM [ LKEYS.KEYREL.PRED "_chap_v_1_rel", PHON.ONSET con ] ]. chapbook_n1 := n_-_c_le & [ STEM < "chapbook" >, SYNSEM [ LKEYS.KEYREL.PRED "_chapbook_n_1_rel", PHON.ONSET con ] ]. chapel_n1 := n_-_c_le & [ STEM < "chapel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chapel_n_1_rel", PHON.ONSET con ] ]. chapel_post_ttl := n_-_tt-post_le & [ STEM < "Chapel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chapel_n_1_rel", PHON.ONSET con ] ]. chaplain_n1 := n_-_c_le & [ STEM < "chaplain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chaplain_n_1_rel", PHON.ONSET con ] ]. chapman_n1 := n_-_pn_le & [ STEM < "Chapman" >, SYNSEM [ LKEYS.KEYREL.CARG "Chapman", PHON.ONSET con ] ]. chapter_n1 := n_-_c_le & [ STEM < "chapter" >, SYNSEM [ LKEYS.KEYREL.PRED "_chapter_n_1_rel", PHON.ONSET con ] ]. char_n1 := n_-_m_le & [ STEM < "char" >, SYNSEM [ LKEYS.KEYREL.PRED "_char_n_1_rel", PHON.ONSET con ] ]. char_v1 := v_np_noger_le & [ STEM < "char" >, SYNSEM [ LKEYS.KEYREL.PRED "_char_v_cause_rel", PHON.ONSET con ] ]. char_v2 := v_-_unacc_le & [ STEM < "char" >, SYNSEM [ LKEYS.KEYREL.PRED "_char_v_1_rel", PHON.ONSET con ] ]. character_n1 := n_-_mc_le & [ STEM < "character" >, SYNSEM [ LKEYS.KEYREL.PRED "_character_n_1_rel", PHON.ONSET con ] ]. characterisation_n1 := n_pp_mc-of_le & [ DIALECT br, STEM < "characterisation" >, SYNSEM [ LKEYS.KEYREL.PRED "_characterization_n_of_rel", PHON.ONSET con ] ]. characterise_v1 := v_np*_le & [ DIALECT br, STEM < "characterise" >, SYNSEM [ LKEYS.KEYREL.PRED "_characterize_v_1_rel", PHON.ONSET con ] ]. characteristic_isect := aj_-_i_le & [ STEM < "characteristic" >, SYNSEM [ LKEYS.KEYREL.PRED "_characteristic_a_1_rel", PHON.ONSET con ] ]. characteristic_n1 := n_-_c_le & [ STEM < "characteristic" >, SYNSEM [ LKEYS.KEYREL.PRED "_characteristic_n_1_rel", PHON.ONSET con ] ]. characteristically := av_-_i-vp_le & [ STEM < "characteristically" >, SYNSEM [ LKEYS.KEYREL.PRED "_characteristic_a_1_rel", PHON.ONSET con ] ]. characterization_n1 := n_pp_mc-of_le & [ STEM < "characterization" >, SYNSEM [ LKEYS.KEYREL.PRED "_characterization_n_of_rel", PHON.ONSET con ] ]. characterize_v1 := v_np*_le & [ STEM < "characterize" >, SYNSEM [ LKEYS.KEYREL.PRED "_characterize_v_1_rel", PHON.ONSET con ] ]. characterize_v2 := v_np-pp_oeq-as_le & [ STEM < "characterize" >, SYNSEM [ LKEYS.KEYREL.PRED "_characterize_v_as_rel", PHON.ONSET con ] ]. charcoal_n1 := n_-_mc_le & [ STEM < "charcoal" >, SYNSEM [ LKEYS.KEYREL.PRED "_charcoal_n_1_rel", PHON.ONSET con ] ]. charge_n1 := n_pp_c-of_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_n_of_rel", PHON.ONSET con ] ]. charge_n1_i := n_-_c-br-idm_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_n_i_rel", PHON.ONSET con ] ]. charge_up_v1 := v_p-np_le & [ STEM < "charge" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_charge_v_up_rel" ], PHON.ONSET con ] ]. charge_v1 := v_np-np_only_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_v_to_rel", PHON.ONSET con ] ]. charge_v2 := v_np-pp_e_le & [ STEM < "charge" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_charge_v_with_rel" ], PHON.ONSET con ] ]. charge_v3 := v_np_noger_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_v_1_rel", PHON.ONSET con ] ]. charge_v4 := v_pp*_dir_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_v_1_rel", PHON.ONSET con ] ]. charge_v5 := v_np-pp_to_le & [ STEM < "charge" >, SYNSEM [ LKEYS.KEYREL.PRED "_charge_v_to_rel", PHON.ONSET con ] ]. charger_n1 := n_pp_c-of_le & [ STEM < "charger" >, SYNSEM [ LKEYS.KEYREL.PRED "_charger_n_of_rel", PHON.ONSET con ] ]. charioteer_n1 := n_-_c_le & [ STEM < "charioteer" >, SYNSEM [ LKEYS.KEYREL.PRED "_charioteer_n_1_rel", PHON.ONSET con ] ]. charitable_a1 := aj_-_i_le & [ STEM < "charitable" >, SYNSEM [ LKEYS.KEYREL.PRED "_charitable_a_1_rel", PHON.ONSET con ] ]. charities_n1 := n_-_c-pl-cpd_le & [ STEM < "charities" >, SYNSEM [ LKEYS.KEYREL.PRED "_charity_n_1_rel", PHON.ONSET con ] ]. charity_n1 := n_-_mc_le & [ STEM < "charity" >, SYNSEM [ LKEYS.KEYREL.PRED "_charity_n_1_rel", PHON.ONSET con ] ]. charlatan_n1 := n_-_c_le & [ STEM < "charlatan" >, SYNSEM [ LKEYS.KEYREL.PRED "_charlatan_n_1_rel", PHON.ONSET con ] ]. charles_n1 := n_-_pn_le & [ STEM < "Charles" >, SYNSEM [ LKEYS.KEYREL.CARG "Charles", PHON.ONSET con ] ]. charleston_n1 := n_-_pn-city_le & [ STEM < "Charleston" >, SYNSEM [ LKEYS.KEYREL.CARG "Charleston", PHON.ONSET con ] ]. charlie_n1 := n_-_pn_le & [ STEM < "Charlie" >, SYNSEM [ LKEYS.KEYREL.CARG "Charlie", PHON.ONSET con ] ]. charlotte_n1 := n_-_pn_le & [ STEM < "Charlotte" >, SYNSEM [ LKEYS.KEYREL.CARG "Charlotte", PHON.ONSET con ] ]. charlton_n1 := n_-_pn_le & [ STEM < "Charlton" >, SYNSEM [ LKEYS.KEYREL.CARG "Charlton", PHON.ONSET con ] ]. charm_n1 := n_-_c_le & [ STEM < "charm" >, SYNSEM [ LKEYS.KEYREL.PRED "_charm_n_1_rel", PHON.ONSET con ] ]. charm_v1 := v_np_le & [ STEM < "charm" >, SYNSEM [ LKEYS.KEYREL.PRED "_charm_v_1_rel", PHON.ONSET con ] ]. charming_a1 := aj_-_i_le & [ STEM < "charming" >, SYNSEM [ LKEYS.KEYREL.PRED "_charming_a_1_rel", PHON.ONSET con ] ]. chart_n1 := n_pp_c-of_le & [ STEM < "chart" >, SYNSEM [ LKEYS.KEYREL.PRED "_chart_n_of_rel", PHON.ONSET con ] ]. chart_v1 := v_np*_le & [ STEM < "chart" >, SYNSEM [ LKEYS.KEYREL.PRED "_chart_v_1_rel", PHON.ONSET con ] ]. charter_n1 := n_-_c_le & [ STEM < "charter" >, SYNSEM [ LKEYS.KEYREL.PRED "_charter_n_1_rel", PHON.ONSET con ] ]. charter_v1 := v_np_le & [ STEM < "charter" >, SYNSEM [ LKEYS.KEYREL.PRED "_charter_v_1_rel", PHON.ONSET con ] ]. chartreuse_n1 := n_-_mc-col_le & [ STEM < "chartreuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_chartreuse_n_1_rel", PHON.ONSET con ] ]. chase_after_v1 := v_pp_e_le & [ STEM < "chase" >, SYNSEM [ LKEYS [ --COMPKEY _after_p_sel_rel, KEYREL.PRED "_chase_v_after_rel" ], PHON.ONSET con ] ]. chase_away_v1 := v_p-np_le & [ STEM < "chase" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_chase_v_away_rel" ], PHON.ONSET con ] ]. chase_down_v1 := v_p-np_le & [ STEM < "chase" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_chase_v_down_rel" ], PHON.ONSET con ] ]. chase_n1 := n_-_c_le & [ STEM < "chase" >, SYNSEM [ LKEYS.KEYREL.PRED "_chase_n_1_rel", PHON.ONSET con ] ]. chase_n2 := n_-_pn_le & [ STEM < "Chase" >, SYNSEM [ LKEYS.KEYREL.CARG "Chase", PHON.ONSET con ] ]. chase_up_v1 := v_p-np_le & [ STEM < "chase" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_chase_v_up_rel" ], PHON.ONSET con ] ]. chase_v1 := v_np_le & [ STEM < "chase" >, SYNSEM [ LKEYS.KEYREL.PRED "_chase_v_1_rel", PHON.ONSET con ] ]. chase_v2 := v_np-pp_prop_le & [ STEM < "chase" >, SYNSEM [ LKEYS.KEYREL.PRED "_chase_v_1_rel", PHON.ONSET con ] ]. chasm_n1 := n_-_c_le & [ STEM < "chasm" >, SYNSEM [ LKEYS.KEYREL.PRED "_chasm_n_1_rel", PHON.ONSET con ] ]. chasseur_n1 := n_-_c_le & [ STEM < "chasseur" >, SYNSEM [ LKEYS.KEYREL.PRED "_chasseur_n_1_rel", PHON.ONSET con ] ]. chastisement_n1 := n_-_mc_le & [ STEM < "chastisement" >, SYNSEM [ LKEYS.KEYREL.PRED "_chastisement_n_1_rel", PHON.ONSET con ] ]. chastity_n1 := n_-_m_le & [ STEM < "chastity" >, SYNSEM [ LKEYS.KEYREL.PRED "_chastity_n_1_rel", PHON.ONSET con ] ]. chat_n1 := n_-_mc_le & [ STEM < "chat" >, SYNSEM [ LKEYS.KEYREL.PRED "_chat_n_1_rel", PHON.ONSET con ] ]. chat_up_v1 := v_p-np_le & [ STEM < "chat" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_chat_v_up_rel" ], PHON.ONSET con ] ]. chat_v1 := v_pp*-pp*_le & [ STEM < "chat" >, SYNSEM [ LKEYS [ --COMPKEY to_or_with_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_chat_v_1_rel" ], PHON.ONSET con ] ]. chattel_n1 := n_-_mc_le & [ STEM < "chattel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chattel_n_1_rel", PHON.ONSET con ] ]. chatter_n1 := n_-_m_le & [ STEM < "chatter" >, SYNSEM [ LKEYS.KEYREL.PRED "_chatter_n_1_rel", PHON.ONSET con ] ]. chatter_on_v1 := v_p_le & [ STEM < "chatter" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_chatter_v_on_rel" ], PHON.ONSET con ] ]. chatter_on_v2 := v_p-pp_le & [ STEM < "chatter" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_chatter_v_on_rel" ], PHON.ONSET con ] ]. chatter_v1 := v_-_le & [ STEM < "chatter" >, SYNSEM [ LKEYS.KEYREL.PRED "_chatter_v_1_rel", PHON.ONSET con ] ]. chauncey_n1 := n_-_pn_le & [ STEM < "Chauncey" >, SYNSEM [ LKEYS.KEYREL.CARG "Chauncey", PHON.ONSET con ] ]. cheap := aj_-_i_le & [ STEM < "cheap" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheap_a_1_rel", PHON.ONSET con ] ]. cheaper := aj_pp_i-cmp_le & [ STEM < "cheaper" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheap_a_1_rel", PHON.ONSET con ] ]. cheaper_adv := av_-_i-vp-po_le & [ STEM < "cheaper" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheaper_a_1_rel", PHON.ONSET con ] ]. cheapest := aj_-_i-sup_le & [ STEM < "cheapest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheap_a_1_rel", PHON.ONSET con ] ]. cheaply := av_-_i-vp_le & [ STEM < "cheaply" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheap_a_1_rel", PHON.ONSET con ] ]. cheat_n1 := n_-_c-nocnh_le & [ STEM < "cheat" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheat_n_1_rel", PHON.ONSET con ] ]. cheat_v1 := v_np*_le & [ STEM < "cheat" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheat_v_1_rel", PHON.ONSET con ] ]. cheat_v2 := v_np-pp_e_le & [ STEM < "cheat" >, SYNSEM [ LKEYS [ --OCOMPKEY _out+of_p_sel_rel, KEYREL.PRED "_cheat_v_out+of_rel" ], PHON.ONSET con ] ]. cheat_v3 := v_np-pp_e_le & [ STEM < "cheat" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_cheat_v_out+of_rel" ], PHON.ONSET con ] ]. chechen_a1 := aj_-_i_le & [ STEM < "Chechen" >, SYNSEM [ LKEYS.KEYREL.PRED "_chechen_a_1_rel", PHON.ONSET con ] ]. chechen_n1 := n_-_c-nocnh_le & [ STEM < "Chechen" >, SYNSEM [ LKEYS.KEYREL.PRED "_chechen_n_1_rel", PHON.ONSET con ] ]. chechnia_n1 := n_-_pn_le & [ STEM < "Chechnia" >, SYNSEM [ LKEYS.KEYREL.CARG "Chechnia", PHON.ONSET con ] ]. check-in_n1 := n_-_mc_le & [ STEM < "check", "in" >, SYNSEM [ LKEYS.KEYREL.PRED "_check+in_n_1_rel", PHON.ONSET con ] ]. check_i_n1 := n_-_c-brno_le & [ STEM < "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_n_of_rel", PHON.ONSET con ] ]. check_in_a1 := aj_-_i_le & [ STEM < "check", "in" >, SYNSEM [ LKEYS.KEYREL.PRED "_check+in_a_1_rel", PHON.ONSET con ] ]. check_in_v1 := v_p-np_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_check_v_in_rel" ], PHON.ONSET con ] ]. check_in_v2 := v_p_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_check_v_in_rel" ], PHON.ONSET con ] ]. check_into_v1 := v_pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_check_v_into_rel" ], PHON.ONSET con ] ]. check_into_v2 := v_np-pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_check_v_into_rel" ], PHON.ONSET con ] ]. check_n := n_pp_c-of_le & [ STEM < "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_n_of_rel", PHON.ONSET con ] ]. check_on_v1 := v_pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_check_v_on_rel" ], PHON.ONSET con ] ]. check_out_of_v1 := v_p-pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_check_v_out-of_rel" ], PHON.ONSET con ] ]. check_out_v1 := v_p-np_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_check_v_out_rel" ], PHON.ONSET con ] ]. check_out_v2 := v_p_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_check_v_out_rel" ], PHON.ONSET con ] ]. check_through_v1 := v_pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _through_p_sel_rel, KEYREL.PRED "_check_v_through_rel" ], PHON.ONSET con ] ]. check_up_on_v1 := v_p-pp_e_le & [ STEM < "check" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_check_v_up-on_rel" ], PHON.ONSET con ] ]. check_v1 := v_np*_le & [ STEM < "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_v_1_rel", PHON.ONSET con ] ]. check_v3 := v_cp_fin-inf_le & [ STEM < "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_v_1_rel", PHON.ONSET con ] ]. check_v4 := v_vp_seq_le & [ STEM < "check" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_v_1_rel", PHON.ONSET con ] ]. checking_n1 := n_-_m_le & [ STEM < "checking" >, SYNSEM [ LKEYS.KEYREL.PRED "_checking_n_1_rel", PHON.ONSET con ] ]. checklist_n1 := n_-_c_le & [ STEM < "checklist" >, SYNSEM [ LKEYS.KEYREL.PRED "_checklist_n_1_rel", PHON.ONSET con ] ]. checkout_n1 := n_-_c_le & [ STEM < "checkout" >, SYNSEM [ LKEYS.KEYREL.PRED "_checkout_n_1_rel", PHON.ONSET con ] ]. checkup_n1 := n_-_c_le & [ STEM < "checkup" >, SYNSEM [ LKEYS.KEYREL.PRED "_checkup_n_1_rel", PHON.ONSET con ] ]. cheek_n1 := n_-_mc-ed_le & [ STEM < "cheek" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheek_n_1_rel", PHON.ONSET con ] ]. cheer_n1 := n_-_mc_le & [ STEM < "cheer" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheer_n_1_rel", PHON.ONSET con ] ]. cheer_on_v1 := v_p-np_le & [ STEM < "cheer" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_cheer_v_on_rel" ], PHON.ONSET con ] ]. cheer_up_v1 := v_p-np_le & [ STEM < "cheer" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_cheer_v_up_rel" ], PHON.ONSET con ] ]. cheer_up_v2 := v_p_le & [ STEM < "cheer" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_cheer_v_up_rel" ], PHON.ONSET con ] ]. cheer_v1 := v_np*_le & [ STEM < "cheer" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheer_v_1_rel", PHON.ONSET con ] ]. cheerful_a1 := aj_-_i_le & [ STEM < "cheerful" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheerful_a_1_rel", PHON.ONSET con ] ]. cheerfully_adv1 := av_-_i-vp_le & [ STEM < "cheerfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheerful_a_1_rel", PHON.ONSET con ] ]. cheerfulness_n1 := n_-_m_le & [ STEM < "cheerfulness" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheerfulness_n_1_rel", PHON.ONSET con ] ]. cheerless_a1 := aj_-_i_le & [ STEM < "cheerless" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheerless_a_1_rel", PHON.ONSET con ] ]. cheers_gr_post := av_-_dc-po_le & [ STEM < "cheers" >, SYNSEM [ LKEYS.KEYREL.CARG "cheers", PHON.ONSET con ] ]. cheers_gr_pre := av_-_dc-pr_le & [ STEM < "cheers" >, SYNSEM [ LKEYS.KEYREL.CARG "cheers", PHON.ONSET con ] ]. cheers_v1 := v_-_imp_le & [ STEM < "cheers" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheers_v_1_rel", PHON.ONSET con ] ]. cheese_n1 := n_-_mc_le & [ STEM < "cheese" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheese_n_1_rel", PHON.ONSET con ] ]. cheesecloth_n1 := n_-_mc_le & [ STEM < "cheesecloth" >, SYNSEM [ LKEYS.KEYREL.PRED "_cheesecloth_n_1_rel", PHON.ONSET con ] ]. chef_n1 := n_-_c_le & [ STEM < "chef" >, SYNSEM [ LKEYS.KEYREL.PRED "_chef_n_1_rel", PHON.ONSET con ] ]. chela_n1 := n_-_c_le & [ STEM < "chela" >, SYNSEM [ LKEYS.KEYREL.PRED "_chela_n_1_rel", PHON.ONSET con ] ]. chelmno_n1 := n_-_pn_le & [ STEM < "Chelmno" >, SYNSEM [ LKEYS.KEYREL.CARG "Chelmno", PHON.ONSET con ] ]. chelsea_n1 := n_-_pn_le & [ STEM < "Chelsea" >, SYNSEM [ LKEYS.KEYREL.CARG "Chelsea", PHON.ONSET con ] ]. cheltenham_n1 := n_-_pn-city_le & [ STEM < "Cheltenham" >, SYNSEM [ LKEYS.KEYREL.CARG "Cheltenham", PHON.ONSET con ] ]. chemical_a1 := aj_-_i_le & [ STEM < "chemical" >, SYNSEM [ LKEYS.KEYREL.PRED "_chemical_a_1_rel", PHON.ONSET con ] ]. chemical_n1 := n_-_c_le & [ STEM < "chemical" >, SYNSEM [ LKEYS.KEYREL.PRED "_chemical_n_1_rel", PHON.ONSET con ] ]. chemically := av_-_i-vp_le & [ STEM < "chemically" >, SYNSEM [ LKEYS.KEYREL.PRED "_chemical_a_1_rel", PHON.ONSET con ] ]. chemist_n1 := n_-_c_le & [ STEM < "chemist" >, SYNSEM [ LKEYS.KEYREL.PRED "_chemist_n_1_rel", PHON.ONSET con ] ]. chemistry_n1 := n_-_mc_le & [ STEM < "chemistry" >, SYNSEM [ LKEYS.KEYREL.PRED "_chemistry_n_1_rel", PHON.ONSET con ] ]. chemnitz_n1 := n_-_pn-city_le & [ STEM < "Chemnitz" >, SYNSEM [ LKEYS.KEYREL.CARG "Chemnitz", PHON.ONSET con ] ]. chen_alim_n1 := n_-_pn_le & [ STEM < "Chen", "Alim" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen_Alim", PHON.ONSET con ] ]. chen_huacheng_n1 := n_-_pn_le & [ STEM < "Chen", "Huacheng" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen_Huacheng", PHON.ONSET con ] ]. chen_n1 := n_-_pn_le & [ STEM < "Chen" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen", PHON.ONSET con ] ]. chen_tanqiu_n1 := n_-_pn_le & [ STEM < "Chen", "Tanqiu" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen_Tanqiu", PHON.ONSET con ] ]. chen_wangdao_n1 := n_-_pn_le & [ STEM < "Chen", "Wangdao" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen_Wangdao", PHON.ONSET con ] ]. chen_yi_n1 := n_-_pn_le & [ STEM < "Chen", "Yi" >, SYNSEM [ LKEYS.KEYREL.CARG "Chen_Yi", PHON.ONSET con ] ]. chengxiang_n1 := n_-_pn_le & [ STEM < "Chengxiang" >, SYNSEM [ LKEYS.KEYREL.CARG "Chengxiang", PHON.ONSET con ] ]. chenxiangge_n1 := n_-_pn_le & [ STEM < "Chenxiangge" >, SYNSEM [ LKEYS.KEYREL.CARG "Chenxiangge", PHON.ONSET con ] ]. cheque_n := n_-_c_le & [ STEM < "cheque" >, SYNSEM [ LKEYS.KEYREL.PRED "_check_n_1_rel", PHON.ONSET con ] ]. cherish_v1 := v_np_le & [ STEM < "cherish" >, SYNSEM [ LKEYS.KEYREL.PRED "_cherish_v_1_rel", PHON.ONSET con ] ]. cherish_v2 := v_np-pp_oeq-as_le & [ STEM < "cherish" >, SYNSEM [ LKEYS.KEYREL.PRED "_cherish_v_as_rel", PHON.ONSET con ] ]. chernobyl_n1 := n_-_pn-city_le & [ STEM < "Chernobyl" >, SYNSEM [ LKEYS.KEYREL.CARG "Chernobyl", PHON.ONSET con ] ]. cherry_n1 := n_-_mc_le & [ STEM < "cherry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cherry_n_1_rel", PHON.ONSET con ] ]. cheshire_n1 := n_-_pn_le & [ STEM < "Cheshire" >, SYNSEM [ LKEYS.KEYREL.CARG "Cheshire", PHON.ONSET con ] ]. chess_n1 := n_-_m_le & [ STEM < "chess" >, SYNSEM [ LKEYS.KEYREL.PRED "_chess_n_1_rel", PHON.ONSET con ] ]. chessboard_n1 := n_-_c_le & [ STEM < "chessboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_chessboard_n_1_rel", PHON.ONSET con ] ]. chesstree_n1 := n_-_c_le & [ STEM < "chesstree" >, SYNSEM [ LKEYS.KEYREL.PRED "_chesstree_n_1_rel", PHON.ONSET con ] ]. chest_n1 := n_-_c-ed_le & [ STEM < "chest" >, SYNSEM [ LKEYS.KEYREL.PRED "_chest_n_1_rel", PHON.ONSET con ] ]. chester_n1 := n_-_pn_le & [ STEM < "Chester" >, SYNSEM [ LKEYS.KEYREL.CARG "Chester", PHON.ONSET con ] ]. chestnut_a1 := n_-_mc_le & [ STEM < "chestnut" >, SYNSEM [ LKEYS.KEYREL.PRED "_chestnut_a_1_rel", PHON.ONSET con ] ]. chestnut_n2 := n_-_pn_le & [ STEM < "Chestnut" >, SYNSEM [ LKEYS.KEYREL.CARG "Chestnut", PHON.ONSET con ] ]. chevron_n1 := n_-_c_le & [ STEM < "chevron" >, SYNSEM [ LKEYS.KEYREL.PRED "_chevron_n_1_rel", PHON.ONSET con ] ]. chevron_n2 := n_-_pn_le & [ STEM < "Chevron" >, SYNSEM [ LKEYS.KEYREL.CARG "Chevron", PHON.ONSET con ] ]. chew_off_v1 := v_p-np_le & [ STEM < "chew" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_chew_v_off_rel" ], PHON.ONSET con ] ]. chew_out_v1 := v_p-np_le & [ STEM < "chew" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_chew_v_out_rel" ], PHON.ONSET con ] ]. chew_v1 := v_np*_le & [ STEM < "chew" >, SYNSEM [ LKEYS.KEYREL.PRED "_chew_v_1_rel", PHON.ONSET con ] ]. chez_panisse_n1 := n_-_pn_le & [ STEM < "Chez", "Panisse" >, SYNSEM [ LKEYS.KEYREL.CARG "Chez+Panisse", PHON.ONSET con ] ]. chi-chi_a1 := aj_-_i_le & [ STEM < "chi-", "chi" >, SYNSEM [ LKEYS.KEYREL.PRED "_chi-chi_a_1_rel", PHON.ONSET con ] ]. chi-chi_a2 := aj_-_i_le & [ STEM < "chi", "chi" >, SYNSEM [ LKEYS.KEYREL.PRED "_chi-chi_a_1_rel", PHON.ONSET con ] ]. chi_chi_n1 := n_-_pn_le & [ STEM < "Chi-", "Chi" >, SYNSEM [ LKEYS.KEYREL.CARG "Chi-Chi", PHON.ONSET con ] ]. chiang := n_-_pn_le & [ STEM < "Chiang" >, SYNSEM [ LKEYS.KEYREL.CARG "Chiang", PHON.ONSET con ] ]. chiaroscuro_n1 := n_-_m_le & [ STEM < "chiaroscuro" >, SYNSEM [ LKEYS.KEYREL.PRED "_chiaroscuro_n_1_rel", PHON.ONSET con ] ]. chicago_n1 := n_-_pn-city_le & [ STEM < "Chicago" >, SYNSEM [ LKEYS.KEYREL.CARG "Chicago", PHON.ONSET con ] ]. chicano_n1 := n_-_mc_le & [ STEM < "Chicano" >, SYNSEM [ LKEYS.KEYREL.PRED "_Chicano_n_1_rel", PHON.ONSET con ] ]. chick_n1 := n_-_c_le & [ STEM < "chick" >, SYNSEM [ LKEYS.KEYREL.PRED "_chick_n_1_rel", PHON.ONSET con ] ]. chickadee_n1 := n_-_c_le & [ STEM < "chickadee" >, SYNSEM [ LKEYS.KEYREL.PRED "_chickadee_n_1_rel", PHON.ONSET con ] ]. chicken_n1 := n_-_c_le & [ STEM < "chicken" >, SYNSEM [ LKEYS.KEYREL.PRED "_chicken_n_1_rel", PHON.ONSET con ] ]. chide_v1 := v_np_le & [ STEM < "chide" >, SYNSEM [ LKEYS.KEYREL.PRED "_chide_v_1_rel", PHON.ONSET con ] ]. chief_n1 := n_-_c_le & [ STEM < "chief" >, SYNSEM [ LKEYS.KEYREL.PRED "_chief_n_1_rel", PHON.ONSET con ] ]. chiefly := av_-_i-vp_le & [ STEM < "chiefly" >, SYNSEM [ LKEYS.KEYREL.PRED "_chief_a_1_rel", PHON.ONSET con ] ]. chiefly_deg := av_-_dg-jom_le & [ STEM < "chiefly" >, SYNSEM [ LKEYS.KEYREL.PRED "_chiefly_x_deg_rel", PHON.ONSET con ] ]. chiefly_deg2 := av_-_dg-jo_le & [ STEM < "chiefly" >, SYNSEM [ LKEYS.KEYREL.PRED "_chiefly_x_deg_rel", PHON.ONSET con ] ]. chieftain_n1 := n_-_c_le & [ STEM < "chieftain" >, SYNSEM [ LKEYS.KEYREL.PRED "_chieftain_n_1_rel", PHON.ONSET con ] ]. chignon_n1 := n_-_c_le & [ STEM < "chignon" >, SYNSEM [ LKEYS.KEYREL.PRED "_chignon_n_1_rel", PHON.ONSET con ] ]. child_friendly_a1 := aj_-_i_le & [ STEM < "child-", "friendly" >, SYNSEM [ LKEYS.KEYREL.PRED "_child-friendly_a_1_rel", PHON.ONSET con ] ]. child_n1 := n_-_c_le & [ STEM < "child" >, SYNSEM [ LKEYS.KEYREL.PRED "_child_n_1_rel", PHON.ONSET con ] ]. childbirth_n1 := n_-_m_le & [ STEM < "childbirth" >, SYNSEM [ LKEYS.KEYREL.PRED "_childbirth_n_1_rel", PHON.ONSET con ] ]. childhood_n1 := n_-_mc_le & [ STEM < "childhood" >, SYNSEM [ LKEYS.KEYREL.PRED "_childhood_n_1_rel", PHON.ONSET con ] ]. childish_a1 := aj_-_i_le & [ STEM < "childish" >, SYNSEM [ LKEYS.KEYREL.PRED "_childish_a_1_rel", PHON.ONSET con ] ]. childlike_a1 := aj_-_i_le & [ STEM < "childlike" >, SYNSEM [ LKEYS.KEYREL.PRED "_childlike_a_1_rel", PHON.ONSET con ] ]. childrens_technoland_n1 := n_-_pn_le & [ STEM < "Children", "'s", "Technoland" >, SYNSEM [ LKEYS.KEYREL.CARG "Childrens_Technoland", PHON.ONSET con ] ]. chile_n1 := n_-_pn_le & [ STEM < "Chile" >, SYNSEM [ LKEYS.KEYREL.CARG "Chile", PHON.ONSET con ] ]. chilean_a1 := aj_-_i_le & [ STEM < "Chilean" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilean_a_1_rel", PHON.ONSET con ] ]. chilean_n1 := n_-_c-nocnh_le & [ STEM < "Chilean" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilean_n_1_rel", PHON.ONSET con ] ]. chili_n1 := n_-_m_le & [ STEM < "chili" >, SYNSEM [ LKEYS.KEYREL.PRED "_chili_n_1_rel", PHON.ONSET con ] ]. chill_n1 := n_-_c_le & [ STEM < "chill" >, SYNSEM [ LKEYS.KEYREL.PRED "_chill_n_1_rel", PHON.ONSET con ] ]. chill_out_v1 := v_p_le & [ STEM < "chill" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_chill_v_out_rel" ], PHON.ONSET con ] ]. chill_v1 := v_np*_le & [ STEM < "chill" >, SYNSEM [ LKEYS.KEYREL.PRED "_chill_v_1_rel", PHON.ONSET con ] ]. chillier_a1 := aj_pp_i-cmp_le & [ STEM < "chillier" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chillier_a2 := aj_pp_i-cmp-wthr_le & [ STEM < "chillier" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chilliest_a1 := aj_-_i-sup_le & [ STEM < "chilliest" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chilliest_a2 := aj_-_i-sup-it_le & [ STEM < "chilliest" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chilly_a1 := aj_-_i_le & [ STEM < "chilly" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chilly_a2 := aj_-_i-wthr_le & [ STEM < "chilly" >, SYNSEM [ LKEYS.KEYREL.PRED "_chilly_a_1_rel", PHON.ONSET con ] ]. chime_in_v1 := v_p_le & [ STEM < "chime" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_chime_v_in_rel" ], PHON.ONSET con ] ]. chime_n1 := n_-_c_le & [ STEM < "chime" >, SYNSEM [ LKEYS.KEYREL.PRED "_chime_n_1_rel", PHON.ONSET con ] ]. chime_v1 := v_np*_le & [ STEM < "chime" >, SYNSEM [ LKEYS.KEYREL.PRED "_chime_v_1_rel", PHON.ONSET con ] ]. chimney_n1 := n_-_c_le & [ STEM < "chimney" >, SYNSEM [ LKEYS.KEYREL.PRED "_chimney_n_1_rel", PHON.ONSET con ] ]. chin_n1 := n_-_c_le & [ STEM < "chin" >, SYNSEM [ LKEYS.KEYREL.PRED "_chin_n_1_rel", PHON.ONSET con ] ]. chin_v1 := v_np*_le & [ STEM < "chin" >, SYNSEM [ LKEYS.KEYREL.PRED "_chin_v_1_rel", PHON.ONSET con ] ]. china_airlines_n1 := n_-_pn_le & [ STEM < "China", "Airlines" >, SYNSEM [ LKEYS.KEYREL.CARG "China_Airlines", PHON.ONSET con ] ]. china_n1 := n_-_pn_le & [ STEM < "China" >, SYNSEM [ LKEYS.KEYREL.CARG "China", PHON.ONSET con ] ]. chinese_a1 := aj_-_i_le & [ STEM < "Chinese" >, SYNSEM [ LKEYS.KEYREL.PRED "_chinese_a_1_rel", PHON.ONSET con ] ]. chinese_n1 := n_-_pn_le & [ STEM < "Chinese" >, SYNSEM [ LKEYS.KEYREL.CARG "Chinese", PHON.ONSET con ] ]. chinese_n2 := n_-_c-pl-nocnh_le & [ STEM < "Chinese" >, SYNSEM [ LKEYS.KEYREL.PRED "_chinese_n_1_rel", PHON.ONSET con ] ]. ching_n1 := n_-_pn_le & [ STEM < "Ching" >, SYNSEM [ LKEYS.KEYREL.CARG "Ching", PHON.ONSET con ] ]. ching_n2 := n_-_mc_le & [ STEM < "ching" >, SYNSEM [ LKEYS.KEYREL.PRED "_ching_n_1_rel", PHON.ONSET con ] ]. chink_n1 := n_-_mc_le & [ STEM < "chink" >, SYNSEM [ LKEYS.KEYREL.PRED "_chink_n_1_rel", PHON.ONSET con ] ]. chink_v1 := v_np_le & [ STEM < "chink" >, SYNSEM [ LKEYS.KEYREL.PRED "_chink_v_1_rel", PHON.ONSET con ] ]. chinless_a1 := aj_-_i_le & [ STEM < "chinless" >, SYNSEM [ LKEYS.KEYREL.PRED "_chinless_a_1_rel", PHON.ONSET con ] ]. chip_away_v1 := v_p-pp_le & [ STEM < "chip" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, --OCOMPKEY _at_p_rel, KEYREL.PRED "_chip_v_away_rel" ], PHON.ONSET con ] ]. chip_in_v1 := v_p-np_le & [ STEM < "chip" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_chip_v_in_rel" ], PHON.ONSET con ] ]. chip_n1 := n_-_c_le & [ STEM < "chip" >, SYNSEM [ LKEYS.KEYREL.PRED "_chip_n_1_rel", PHON.ONSET con ] ]. chip_v1 := v_np_noger_le & [ STEM < "chip" >, SYNSEM [ LKEYS.KEYREL.PRED "_chip_v_cause_rel", PHON.ONSET con ] ]. chip_v2 := v_-_unacc_le & [ STEM < "chip" >, SYNSEM [ LKEYS.KEYREL.PRED "_chip_v_1_rel", PHON.ONSET con ] ]. chipping_n1 := n_-_c-nocnh_le & [ STEM < "chipping" >, SYNSEM [ LKEYS.KEYREL.PRED "_chipping_n_1_rel", PHON.ONSET con ] ]. chiricahua_n1 := n_-_pn-city_le & [ STEM < "Chiricahua" >, SYNSEM [ LKEYS.KEYREL.CARG "Chiricahua", PHON.ONSET con ] ]. chiropractor_n1 := n_-_c_le & [ STEM < "chiropractor" >, SYNSEM [ LKEYS.KEYREL.PRED "_chiropractor_n_1_rel", PHON.ONSET con ] ]. chirp_n1 := n_-_c_le & [ STEM < "chirp" >, SYNSEM [ LKEYS.KEYREL.PRED "_chirp_n_1_rel", PHON.ONSET con ] ]. chirp_v1 := v_-_le & [ STEM < "chirp" >, SYNSEM [ LKEYS.KEYREL.PRED "_chirp_v_1_rel", PHON.ONSET con ] ]. chisel_n1 := n_-_c_le & [ STEM < "chisel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chisel_n_1_rel", PHON.ONSET con ] ]. chisel_v1 := v_np_le & [ STEM < "chisel" >, SYNSEM [ LKEYS.KEYREL.PRED "_chisel_v_1_rel", PHON.ONSET con ] ]. chivas_n1 := n_-_pn_le & [ STEM < "Chivas" >, SYNSEM [ LKEYS.KEYREL.CARG "Chivas", PHON.ONSET con ] ]. chivas_regal_n1 := n_-_pn_le & [ STEM < "Chivas", "Regal" >, SYNSEM [ LKEYS.KEYREL.CARG "Chivas+Regal", PHON.ONSET con ] ]. chivy_v1 := v_np_le & [ STEM < "chivy" >, SYNSEM [ LKEYS.KEYREL.PRED "_chivy_v_1_rel", PHON.ONSET con ] ]. chiwu_n1 := n_-_pn_le & [ STEM < "Chiwu" >, SYNSEM [ LKEYS.KEYREL.CARG "Chiwu", PHON.ONSET con ] ]. chloride_n1 := n_-_m_le & [ STEM < "chloride" >, SYNSEM [ LKEYS.KEYREL.PRED "_chloride_n_1_rel", PHON.ONSET con ] ]. chlorine_n1 := n_-_m_le & [ STEM < "chlorine" >, SYNSEM [ LKEYS.KEYREL.PRED "_chlorine_n_1_rel", PHON.ONSET con ] ]. chloroplast_n1 := n_-_c_le & [ STEM < "chloroplast" >, SYNSEM [ LKEYS.KEYREL.PRED "_chloroplast_n_1_rel", PHON.ONSET con ] ]. chock+full_a1 := aj_pp_i_le & [ STEM < "chock", "full" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_chock+full_a_of_rel" ], PHON.ONSET con ] ]. chock+full_a2 := aj_pp_i_le & [ STEM < "chock-", "full" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_chock+full_a_of_rel" ], PHON.ONSET con ] ]. chock+full_a3 := aj_pp_i_le & [ STEM < "chockfull" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_chock+full_a_of_rel" ], PHON.ONSET con ] ]. chock_n1 := n_-_c_le & [ STEM < "chock" >, SYNSEM [ LKEYS.KEYREL.PRED "_chock_n_1_rel", PHON.ONSET con ] ]. chockful_a1 := aj_-_i_le & [ STEM < "chockful" >, SYNSEM [ LKEYS.KEYREL.PRED "_chockful_a_1_rel", PHON.ONSET con ] ]. chockstone_n1 := n_-_c_le & [ STEM < "chockstone" >, SYNSEM [ LKEYS.KEYREL.PRED "_chockstone_n_1_rel", PHON.ONSET con ] ]. chocolate_n1 := n_-_mc-col_le & [ STEM < "chocolate" >, SYNSEM [ LKEYS.KEYREL.PRED "_chocolate_n_1_rel", PHON.ONSET con ] ]. choice_a1 := aj_-_i_le & [ STEM < "choice" >, SYNSEM [ LKEYS.KEYREL.PRED "_choice_a_1_rel", PHON.ONSET con ] ]. choice_n1 := n_pp_mc-of_le & [ STEM < "choice" >, SYNSEM [ LKEYS.KEYREL.PRED "_choice_n_of_rel", PHON.ONSET con ] ]. choicer := aj_pp_i-cmp_le & [ STEM < "choicer" >, SYNSEM [ LKEYS.KEYREL.PRED "_choice_a_1_rel", PHON.ONSET con ] ]. choicest_a1 := aj_-_i-sup_le & [ STEM < "choicest" >, SYNSEM [ LKEYS.KEYREL.PRED "_choice_a_1_rel", PHON.ONSET con ] ]. choir_n1 := n_-_c_le & [ STEM < "choir" >, SYNSEM [ LKEYS.KEYREL.PRED "_choir_n_1_rel", PHON.ONSET con ] ]. choke_n1 := n_-_c_le & [ STEM < "choke" >, SYNSEM [ LKEYS.KEYREL.PRED "_choke_n_1_rel", PHON.ONSET con ] ]. choke_off_v1 := v_p-np_le & [ STEM < "choke" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_choke_v_off_rel" ], PHON.ONSET con ] ]. choke_up_v1 := v_p-np_le & [ STEM < "choke" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_choke_v_up_rel" ], PHON.ONSET con ] ]. choke_up_v2 := v_p_le & [ STEM < "choke" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_choke_v_up_rel" ], PHON.ONSET con ] ]. choke_v1 := v_np_noger_le & [ STEM < "choke" >, SYNSEM [ LKEYS.KEYREL.PRED "_choke_v_cause_rel", PHON.ONSET con ] ]. choke_v2 := v_-_unacc_le & [ STEM < "choke" >, SYNSEM [ LKEYS.KEYREL.PRED "_choke_v_1_rel", PHON.ONSET con ] ]. chokecherry_n1 := n_-_c_le & [ STEM < "chokecherry" >, SYNSEM [ LKEYS.KEYREL.PRED "_chokecherry_n_1_rel", PHON.ONSET con ] ]. cholera_n1 := n_-_m_le & [ STEM < "cholera" >, SYNSEM [ LKEYS.KEYREL.PRED "_cholera_n_1_rel", PHON.ONSET con ] ]. cholesterol_n1 := n_-_m_le & [ STEM < "cholesterol" >, SYNSEM [ LKEYS.KEYREL.PRED "_cholesterol_n_1_rel", PHON.ONSET con ] ]. chong_sheng_n1 := n_-_pn_le & [ STEM < "Chong", "Sheng" >, SYNSEM [ LKEYS.KEYREL.CARG "Chong_Sheng", PHON.ONSET con ] ]. chongen_n1 := n_-_pn_le & [ STEM < "Chongen" >, SYNSEM [ LKEYS.KEYREL.CARG "Chongen", PHON.ONSET con ] ]. chongming_n1 := n_-_pn_le & [ STEM < "Chongming" >, SYNSEM [ LKEYS.KEYREL.CARG "Chongming", PHON.ONSET con ] ]. choose_v1 := v_np*_le & [ STEM < "choose" >, SYNSEM [ LKEYS.KEYREL.PRED "_choose_v_from_rel", PHON.ONSET con ] ]. choose_v2 := v_np*-pp_e_le & [ STEM < "choose" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_choose_v_from_rel" ], PHON.ONSET con ] ]. choose_v3 := v_vp_seq_le & [ STEM < "choose" >, SYNSEM [ LKEYS.KEYREL.PRED "_choose_v_from_rel", PHON.ONSET con ] ]. choose_v4 := v_np-vp_oeq_le & [ STEM < "choose" >, SYNSEM [ LKEYS.KEYREL.PRED "_choose_v_from_rel", PHON.ONSET con ] ]. choose_v5 := v_np-pp_oeq-as_le & [ STEM < "choose" >, SYNSEM [ LKEYS.KEYREL.PRED "_choose_v_as_rel", PHON.ONSET con ] ]. choose_v6 := v_cp_fin-inf-q_le & [ STEM < "choose" >, SYNSEM [ LKEYS.KEYREL.PRED "_choose_v_from_rel", PHON.ONSET con ] ]. chop_down_v1 := v_p-np_le & [ STEM < "chop" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_chop_v_down_rel" ], PHON.ONSET con ] ]. chop_n1 := n_-_c_le & [ STEM < "chop" >, SYNSEM [ LKEYS.KEYREL.PRED "_chop_n_1_rel", PHON.ONSET con ] ]. chop_off_v1 := v_p-np_le & [ STEM < "chop" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_chop_v_off_rel" ], PHON.ONSET con ] ]. chop_up_v1 := v_p-np_le & [ STEM < "chop" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_chop_v_up_rel" ], PHON.ONSET con ] ]. chop_v1 := v_np*_le & [ STEM < "chop" >, SYNSEM [ LKEYS.KEYREL.PRED "_chop_v_1_rel", PHON.ONSET con ] ]. choragus_n1 := n_-_c_le & [ STEM < "choragus" >, SYNSEM [ LKEYS.KEYREL.PRED "_choragus_n_1_rel", PHON.ONSET con ] ]. choral_a1 := aj_-_i_le & [ STEM < "choral" >, SYNSEM [ LKEYS.KEYREL.PRED "_choral_a_1_rel", PHON.ONSET con ] ]. choral_n1 := n_-_c_le & [ STEM < "choral" >, SYNSEM [ LKEYS.KEYREL.PRED "_choral_n_1_rel", PHON.ONSET con ] ]. chord_n1 := n_-_c_le & [ STEM < "chord" >, SYNSEM [ LKEYS.KEYREL.PRED "_chord_n_1_rel", PHON.ONSET con ] ]. chore_n1 := n_-_c_le & [ STEM < "chore" >, SYNSEM [ LKEYS.KEYREL.PRED "_chore_n_1_rel", PHON.ONSET con ] ]. chore_n2 := n_vp_c-it_le & [ STEM < "chore" >, SYNSEM [ LKEYS.KEYREL.PRED "_chore_n_1_rel", PHON.ONSET con ] ]. chorister_n1 := n_-_c_le & [ STEM < "chorister" >, SYNSEM [ LKEYS.KEYREL.PRED "_chorister_n_1_rel", PHON.ONSET con ] ]. chortle_n1 := n_-_c_le & [ STEM < "chortle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chortle_n_1_rel", PHON.ONSET con ] ]. chortle_v1 := v_-_le & [ STEM < "chortle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chortle_v_1_rel", PHON.ONSET con ] ]. chortle_v2 := v_cp_le & [ STEM < "chortle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chortle_v_1_rel", PHON.ONSET con ] ]. chorus_n1 := n_-_c_le & [ STEM < "chorus" >, SYNSEM [ LKEYS.KEYREL.PRED "_chorus_n_1_rel", PHON.ONSET con ] ]. chris_n1 := n_-_pn_le & [ STEM < "Chris" >, SYNSEM [ LKEYS.KEYREL.CARG "Chris", PHON.ONSET con ] ]. christ_n1 := n_-_pn_le & [ STEM < "Christ" >, SYNSEM [ LKEYS.KEYREL.CARG "Christ", PHON.ONSET con ] ]. christa_n1 := n_-_pn_le & [ STEM < "Christa" >, SYNSEM [ LKEYS.KEYREL.CARG "Christa", PHON.ONSET con ] ]. christen_v1 := v_np_le & [ STEM < "christen" >, SYNSEM [ LKEYS.KEYREL.PRED "_christen_v_1_rel", PHON.ONSET con ] ]. christen_v2 := v_np-np_only_le & [ STEM < "christen" >, SYNSEM [ LKEYS.KEYREL.PRED "_christen_v_1_rel", PHON.ONSET con ] ]. christi_n1 := n_-_pn_le & [ STEM < "Christi" >, SYNSEM [ LKEYS.KEYREL.CARG "Christi", PHON.ONSET con ] ]. christian_a1 := aj_-_i_le & [ STEM < "Christian" >, SYNSEM [ LKEYS.KEYREL.PRED "_christian_a_1_rel", PHON.ONSET con ] ]. christian_n1 := n_-_c-nocnh_le & [ STEM < "Christian" >, SYNSEM [ LKEYS.KEYREL.PRED "_christian_n_1_rel", PHON.ONSET con ] ]. christiania_n1 := n_-_pn_le & [ STEM < "Christiania" >, SYNSEM [ LKEYS.KEYREL.CARG "Christiania", PHON.ONSET con ] ]. christianity := n_-_pn_le & [ STEM < "Christianity" >, SYNSEM [ LKEYS.KEYREL.CARG "Christianity", PHON.ONSET con ] ]. christiansen_n1 := n_-_pn_le & [ STEM < "Christiansen" >, SYNSEM [ LKEYS.KEYREL.CARG "Christiansen", PHON.ONSET con ] ]. christie_n1 := n_-_pn_le & [ STEM < "Christie" >, SYNSEM [ LKEYS.KEYREL.CARG "Christie", PHON.ONSET con ] ]. christina_n1 := n_-_pn_le & [ STEM < "Christina" >, SYNSEM [ LKEYS.KEYREL.CARG "Christina", PHON.ONSET con ] ]. christine_n1 := n_-_pn_le & [ STEM < "Christine" >, SYNSEM [ LKEYS.KEYREL.CARG "Christine", PHON.ONSET con ] ]. christmas_day := n_np_pn-hol_le & [ STEM < "Christmas", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas_Day", PHON.ONSET con ] ]. christmas_eve := n_np_pn-hol_le & [ STEM < "Christmas", "Eve" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas_Eve", PHON.ONSET con ] ]. christmas_n1 := n_-_m-hldy_le & [ STEM < "Christmas" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas", PHON.ONSET con ] ]. christmas_n2 := n_-_m-ssn-spr_le & [ STEM < "Christmas" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas", PHON.ONSET con ] ]. christmas_n3 := n_np_m-ssn_le & [ STEM < "Christmas" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas", PHON.ONSET con ] ]. christmas_time_n1 := n_-_m-hldy_le & [ STEM < "Christmas", "time" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas+time", PHON.ONSET con ] ]. christmas_time_n2 := n_-_m-hldy_le & [ STEM < "Christmastime" >, SYNSEM [ LKEYS.KEYREL.CARG "Christmas+time", PHON.ONSET con ] ]. christmassy_a1 := aj_-_i_le & [ STEM < "Christmassy" >, SYNSEM [ LKEYS.KEYREL.PRED "_christmassy_a_1_rel", PHON.ONSET con ] ]. christopher_n1 := n_-_pn_le & [ STEM < "Christopher" >, SYNSEM [ LKEYS.KEYREL.CARG "Christopher", PHON.ONSET con ] ]. chromatogram_n1 := n_-_c_le & [ STEM < "chromatogram" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromatogram_n_1_rel", PHON.ONSET con ] ]. chromatograph_n1 := n_-_c_le & [ STEM < "chromatograph" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromatograph_n_1_rel", PHON.ONSET con ] ]. chromatographic_a1 := aj_-_i_le & [ STEM < "chromatographic" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromatographic_a_1_rel", PHON.ONSET con ] ]. chromatography_n1 := n_-_m_le & [ STEM < "chromatography" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromatography_n_1_rel", PHON.ONSET con ] ]. chrome_n1 := n_-_m_le & [ STEM < "chrome" >, SYNSEM [ LKEYS.KEYREL.PRED "_chrome_n_1_rel", PHON.ONSET con ] ]. chromium_n1 := n_-_m_le & [ STEM < "chromium" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromium_n_1_rel", PHON.ONSET con ] ]. chromophore_n1 := n_-_mc_le & [ STEM < "chromophore" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromophore_n_1_rel", PHON.ONSET con ] ]. chromosome_n1 := n_-_c_le & [ STEM < "chromosome" >, SYNSEM [ LKEYS.KEYREL.PRED "_chromosome_n_1_rel", PHON.ONSET con ] ]. chronic_a1 := aj_-_i_le & [ STEM < "chronic" >, SYNSEM [ LKEYS.KEYREL.PRED "_chronic_a_1_rel", PHON.ONSET con ] ]. chronicle_n1 := n_-_c_le & [ STEM < "chronicle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chronicle_n_1_rel", PHON.ONSET con ] ]. chronological_a1 := aj_-_i_le & [ STEM < "chronological" >, SYNSEM [ LKEYS.KEYREL.PRED "_chronological_a_1_rel", PHON.ONSET con ] ]. chrysanthemum_n1 := n_-_c_le & [ STEM < "chrysanthemum" >, SYNSEM [ LKEYS.KEYREL.PRED "_chrysanthemum_n_1_rel", PHON.ONSET con ] ]. chuansha_n1 := n_-_pn_le & [ STEM < "Chuansha" >, SYNSEM [ LKEYS.KEYREL.CARG "Chuansha", PHON.ONSET con ] ]. chuanyang_n1 := n_-_pn_le & [ STEM < "Chuanyang" >, SYNSEM [ LKEYS.KEYREL.CARG "Chuanyang", PHON.ONSET con ] ]. chuck_v1 := v_np_le & [ STEM < "chuck" >, SYNSEM [ LKEYS.KEYREL.PRED "_chuck_v_1_rel", PHON.ONSET con ] ]. chuckle_n1 := n_-_c_le & [ STEM < "chuckle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chuckle_n_1_rel", PHON.ONSET con ] ]. chuckle_v1 := v_-_le & [ STEM < "chuckle" >, SYNSEM [ LKEYS.KEYREL.PRED "_chuckle_v_1_rel", PHON.ONSET con ] ]. chug_v1 := v_np*_le & [ STEM < "chug" >, SYNSEM [ LKEYS.KEYREL.PRED "_chug_v_1_rel", PHON.ONSET con ] ]. chump_n1 := n_-_c_le & [ STEM < "chump" >, SYNSEM [ LKEYS.KEYREL.PRED "_chump_n_1_rel", PHON.ONSET con ] ]. chunk_n1 := n_pp_c-of_le & [ STEM < "chunk" >, SYNSEM [ LKEYS.KEYREL.PRED "_chunk_n_of_rel", PHON.ONSET con ] ]. church-goer_n1 := n_-_c_le & [ STEM < "church-", "goer" >, SYNSEM [ LKEYS.KEYREL.PRED "_church-goer_n_1_rel", PHON.ONSET con ] ]. church-goer_n2 := n_-_c_le & [ STEM < "churchgoer" >, SYNSEM [ LKEYS.KEYREL.PRED "_church-goer_n_1_rel", PHON.ONSET con ] ]. church_n1 := n_-_mc_le & [ STEM < "church" >, SYNSEM [ LKEYS.KEYREL.PRED "_church_n_1_rel", PHON.ONSET con ] ]. church_post_ttl := n_-_tt-post_le & [ STEM < "Church" >, SYNSEM [ LKEYS.KEYREL.PRED "_church_n_1_rel", PHON.ONSET con ] ]. churchill_n1 := n_-_pn_le & [ STEM < "Churchill" >, SYNSEM [ LKEYS.KEYREL.CARG "Churchill", PHON.ONSET con ] ]. churn_n1 := n_-_c_le & [ STEM < "churn" >, SYNSEM [ LKEYS.KEYREL.PRED "_churn_n_1_rel", PHON.ONSET con ] ]. churn_v1 := v_-_le & [ STEM < "churn" >, SYNSEM [ LKEYS.KEYREL.PRED "_churn_v_1_rel", PHON.ONSET con ] ]. churn_v2 := v_np_noger_le & [ STEM < "churn" >, SYNSEM [ LKEYS.KEYREL.PRED "_churn_v_cause_rel", PHON.ONSET con ] ]. chute_n1 := n_-_c_le & [ STEM < "chute" >, SYNSEM [ LKEYS.KEYREL.PRED "_chute_n_1_rel", PHON.ONSET con ] ]. cicada_n1 := n_-_c_le & [ STEM < "cicada" >, SYNSEM [ LKEYS.KEYREL.PRED "_cicada_n_1_rel", PHON.ONSET con ] ]. cicero_n1 := n_-_pn_le & [ STEM < "Cicero" >, SYNSEM [ LKEYS.KEYREL.CARG "Cicero", PHON.ONSET con ] ]. cider_n1 := n_-_mc_le & [ STEM < "cider" >, SYNSEM [ LKEYS.KEYREL.PRED "_cider_n_1_rel", PHON.ONSET con ] ]. cigar_n1 := n_-_c_le & [ STEM < "cigar" >, SYNSEM [ LKEYS.KEYREL.PRED "_cigar_n_1_rel", PHON.ONSET con ] ]. cigarette_n1 := n_-_c_le & [ STEM < "cigarette" >, SYNSEM [ LKEYS.KEYREL.PRED "_cigarette_n_1_rel", PHON.ONSET con ] ]. cincinnati_n1 := n_-_pn-city_le & [ STEM < "Cincinnati" >, SYNSEM [ LKEYS.KEYREL.CARG "Cincinnati", PHON.ONSET con ] ]. cinder_n1 := n_-_c_le & [ STEM < "cinder" >, SYNSEM [ LKEYS.KEYREL.PRED "_cinder_n_1_rel", PHON.ONSET con ] ]. cindy_n1 := n_-_pn_le & [ STEM < "Cindy" >, SYNSEM [ LKEYS.KEYREL.CARG "Cindy", PHON.ONSET con ] ]. cineast_n1 := n_-_c_le & [ STEM < "cineast" >, SYNSEM [ LKEYS.KEYREL.PRED "_cineast_n_1_rel", PHON.ONSET con ] ]. cineaste_n1 := n_-_c_le & [ STEM < "cineaste" >, SYNSEM [ LKEYS.KEYREL.PRED "_cineaste_n_1_rel", PHON.ONSET con ] ]. cineaste_n2 := n_-_c_le & [ STEM < "cinéaste" >, SYNSEM [ LKEYS.KEYREL.PRED "_cineaste_n_1_rel", PHON.ONSET con ] ]. cinema_n1 := n_-_c_le & [ STEM < "cinema" >, SYNSEM [ LKEYS.KEYREL.PRED "_cinema_n_1_rel", PHON.ONSET con ] ]. cinephile_n1 := n_-_c_le & [ STEM < "cinephile" >, SYNSEM [ LKEYS.KEYREL.PRED "_cinephile_n_1_rel", PHON.ONSET con ] ]. cinzano_n1 := n_-_pn_le & [ STEM < "Cinzano" >, SYNSEM [ LKEYS.KEYREL.CARG "Cinzano", PHON.ONSET con ] ]. circa := p_np_i_le & [ STEM < "circa" >, SYNSEM [ LKEYS.KEYREL.PRED _circa_p_rel, PHON.ONSET con ] ]. circle_n1 := n_pp_c-of_le & [ STEM < "circle" >, SYNSEM [ LKEYS.KEYREL.PRED "_circle_n_of_rel", PHON.ONSET con ] ]. circle_v1 := v_np_noger_le & [ STEM < "circle" >, SYNSEM [ LKEYS.KEYREL.PRED "_circle_v_1_rel", PHON.ONSET con ] ]. circle_v2 := v_pp*_dir_le & [ STEM < "circle" >, SYNSEM [ LKEYS.KEYREL.PRED "_circle_v_1_rel", PHON.ONSET con ] ]. circuit_city_n1 := n_-_pn_le & [ STEM < "Circuit", "City" >, SYNSEM [ LKEYS.KEYREL.CARG "Circuit_City", PHON.ONSET con ] ]. circuit_n1 := n_-_c_le & [ STEM < "circuit" >, SYNSEM [ LKEYS.KEYREL.PRED "_circuit_n_1_rel", PHON.ONSET con ] ]. circuitous_a1 := aj_-_i_le & [ STEM < "circuitous" >, SYNSEM [ LKEYS.KEYREL.PRED "_circuitous_a_1_rel", PHON.ONSET con ] ]. circuitry_n1 := n_-_mc_le & [ STEM < "circuitry" >, SYNSEM [ LKEYS.KEYREL.PRED "_circuitry_n_1_rel", PHON.ONSET con ] ]. circular_n1 := n_-_c_le & [ STEM < "circular" >, SYNSEM [ LKEYS.KEYREL.PRED "_circular_n_1_rel", PHON.ONSET con ] ]. circularly_adv := av_-_i-vp_le & [ STEM < "circularly" >, SYNSEM [ LKEYS.KEYREL.PRED "_circular_a_1_rel", PHON.ONSET con ] ]. circulate_v1 := v_np_noger_le & [ STEM < "circulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_circulate_v_cause_rel", PHON.ONSET con ] ]. circulate_v2 := v_-_unacc_le & [ STEM < "circulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_circulate_v_1_rel", PHON.ONSET con ] ]. circulate_v3 := v_cp_le & [ STEM < "circulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_circulate_v_1_rel", PHON.ONSET con ] ]. circulation_n1 := n_pp_mc-of_le & [ STEM < "circulation" >, SYNSEM [ LKEYS.KEYREL.PRED "_circulation_n_of_rel", PHON.ONSET con ] ]. circumference_n1 := n_-_c_le & [ STEM < "circumference" >, SYNSEM [ LKEYS.KEYREL.PRED "_circumference_n_1_rel", PHON.ONSET con ] ]. circumnavigate_v1 := v_np_le & [ STEM < "circumnavigate" >, SYNSEM [ LKEYS.KEYREL.PRED "_circumnavigate_v_1_rel", PHON.ONSET con ] ]. circumscribe_v1 := v_np_le & [ STEM < "circumscribe" >, SYNSEM [ LKEYS.KEYREL.PRED "_circumscribe_v_1_rel", PHON.ONSET con ] ]. circumstance_n1 := n_-_mc_le & [ STEM < "circumstance" >, SYNSEM [ LKEYS.KEYREL.PRED "_circumstance_n_1_rel", PHON.ONSET con ] ]. circumvent_v1 := v_np_le & [ STEM < "circumvent" >, SYNSEM [ LKEYS.KEYREL.PRED "_circumvent_v_1_rel", PHON.ONSET con ] ]. circus_n1 := n_-_c_le & [ STEM < "circus" >, SYNSEM [ LKEYS.KEYREL.PRED "_circus_n_1_rel", PHON.ONSET con ] ]. cirque_n1 := n_-_c_le & [ STEM < "cirque" >, SYNSEM [ LKEYS.KEYREL.PRED "_cirque_n_1_rel", PHON.ONSET con ] ]. cishu_n1 := n_-_pn_le & [ STEM < "Cishu" >, SYNSEM [ LKEYS.KEYREL.CARG "Cishu", PHON.ONSET con ] ]. cistern_n1 := n_-_c_le & [ STEM < "cistern" >, SYNSEM [ LKEYS.KEYREL.PRED "_cistern_n_1_rel", PHON.ONSET con ] ]. citation_n1 := n_-_mc_le & [ STEM < "citation" >, SYNSEM [ LKEYS.KEYREL.PRED "_citation_n_1_rel", PHON.ONSET con ] ]. cite_v1 := v_np-pp_e_le & [ STEM < "cite" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_cite_v_for_rel" ], PHON.ONSET con ] ]. cite_v2 := v_np-pp_oeq-as_le & [ STEM < "cite" >, SYNSEM [ LKEYS.KEYREL.PRED "_cite_v_as_rel", PHON.ONSET con ] ]. cite_v3 := v_cp_le & [ STEM < "cite" >, SYNSEM [ LKEYS.KEYREL.PRED "_cite_v_1_rel", PHON.ONSET con ] ]. cite_v4 := v_np_le & [ STEM < "cite" >, SYNSEM [ LKEYS.KEYREL.PRED "_cite_v_for_rel", PHON.ONSET con ] ]. citibank_n1 := n_-_pn_le & [ STEM < "Citibank" >, SYNSEM [ LKEYS.KEYREL.CARG "Citibank", PHON.ONSET con ] ]. citizen_n1 := n_-_c_le & [ STEM < "citizen" >, SYNSEM [ LKEYS.KEYREL.PRED "_citizen_n_1_rel", PHON.ONSET con ] ]. citizenship_n1 := n_-_m_le & [ STEM < "citizenship" >, SYNSEM [ LKEYS.KEYREL.PRED "_citizenship_n_1_rel", PHON.ONSET con ] ]. city_n2 := n_-_c_le & [ STEM < "city" >, SYNSEM [ LKEYS.KEYREL.PRED "_city_n_1_rel", PHON.ONSET con ] ]. city_post_ttl := n_-_tt-post_le & [ STEM < "City" >, SYNSEM [ LKEYS.KEYREL.PRED "_city_n_1_rel", PHON.ONSET con ] ]. civic_a1 := aj_-_i_le & [ STEM < "civic" >, SYNSEM [ LKEYS.KEYREL.PRED "_civic_a_1_rel", PHON.ONSET con ] ]. civic_n1 := n_-_c-nm_le & [ STEM < "Civic" >, SYNSEM [ LKEYS.KEYREL.CARG "Civic", PHON.ONSET con ] ]. civil_a1 := aj_-_i_le & [ STEM < "civil" >, SYNSEM [ LKEYS.KEYREL.PRED "_civil_a_1_rel", PHON.ONSET con ] ]. civilian_a1 := aj_-_i_le & [ STEM < "civilian" >, SYNSEM [ LKEYS.KEYREL.PRED "_civilian_a_1_rel", PHON.ONSET con ] ]. civilian_n1 := n_-_c-nocnh_le & [ STEM < "civilian" >, SYNSEM [ LKEYS.KEYREL.PRED "_civilian_n_1_rel", PHON.ONSET con ] ]. civility_n1 := n_-_mc_le & [ STEM < "civility" >, SYNSEM [ LKEYS.KEYREL.PRED "_civility_n_1_rel", PHON.ONSET con ] ]. civilization_n1 := n_-_mc_le & [ STEM < "civilization" >, SYNSEM [ LKEYS.KEYREL.PRED "_civilization_n_1_rel", PHON.ONSET con ] ]. civilization_n1_br := n_-_mc_le & [ DIALECT br, STEM < "civilisation" >, SYNSEM [ LKEYS.KEYREL.PRED "_civilization_n_1_rel", PHON.ONSET con ] ]. cjss_n1 := n_-_pn-abb_le & [ STEM < "CJSS" >, SYNSEM [ LKEYS.KEYREL.CARG "CJSS", PHON.ONSET con ] ]. clad_a1 := aj_pp_i_le & [ STEM < "clad" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_clad_a_in_rel" ], PHON.ONSET con ] ]. claim_n1 := n_pp_c-ns-of_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_n_of_rel", PHON.ONSET con ] ]. claim_n2 := n_cp_c-fin_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_n_of_rel", PHON.ONSET con ] ]. claim_v1 := v_np_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_v_1_rel", PHON.ONSET con ] ]. claim_v2 := v_cp_prop_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_v_1_rel", PHON.ONSET con ] ]. claim_v3 := v_vp_seq_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_v_1_rel", PHON.ONSET con ] ]. claim_v4 := v_np-pp_oeq-as_le & [ STEM < "claim" >, SYNSEM [ LKEYS.KEYREL.PRED "_claim_v_as_rel", PHON.ONSET con ] ]. claimant_n1 := n_-_c_le & [ STEM < "claimant" >, SYNSEM [ LKEYS.KEYREL.PRED "_claimant_n_1_rel", PHON.ONSET con ] ]. claire_n1 := n_-_pn_le & [ STEM < "Claire" >, SYNSEM [ LKEYS.KEYREL.CARG "Claire", PHON.ONSET con ] ]. clairvoyance_n1 := n_-_mc_le & [ STEM < "clairvoyance" >, SYNSEM [ LKEYS.KEYREL.PRED "_clairvoyance_n_1_rel", PHON.ONSET con ] ]. clam_n1 := n_-_mc_le & [ STEM < "clam" >, SYNSEM [ LKEYS.KEYREL.PRED "_clam_n_1_rel", PHON.ONSET con ] ]. clam_up_v1 := v_p_le & [ STEM < "clam" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clam_v_up_rel" ], PHON.ONSET con ] ]. clamber_v1 := v_pp*_dir_le & [ STEM < "clamber" >, SYNSEM [ LKEYS.KEYREL.PRED "_clamber_v_1_rel", PHON.ONSET con ] ]. clammy_a1 := aj_-_i_le & [ STEM < "clammy" >, SYNSEM [ LKEYS.KEYREL.PRED "_clammy_a_1_rel", PHON.ONSET con ] ]. clamor_for_v1 := v_pp_e_le & [ STEM < "clamor" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_clamor_v_for_rel" ], PHON.ONSET con ] ]. clamor_n1 := n_-_mc_le & [ STEM < "clamor" >, SYNSEM [ LKEYS.KEYREL.PRED "_clamor_n_1_rel", PHON.ONSET con ] ]. clamour_for_v1 := v_pp_e_le & [ DIALECT br, STEM < "clamour" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_clamor_v_for_rel" ], PHON.ONSET con ] ]. clamour_n1 := n_-_mc_le & [ DIALECT br, STEM < "clamour" >, SYNSEM [ LKEYS.KEYREL.PRED "_clamor_n_1_rel", PHON.ONSET con ] ]. clamp_down_on_v1 := v_p-pp_le & [ STEM < "clamp" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, --OCOMPKEY _on_p_rel, KEYREL.PRED "_clamp_v_down_rel" ], PHON.ONSET con ] ]. clamp_down_v1 := v_p_le & [ STEM < "clamp" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_clamp_v_down_rel" ], PHON.ONSET con ] ]. clamp_n1 := n_-_c_le & [ STEM < "clamp" >, SYNSEM [ LKEYS.KEYREL.PRED "_clamp_n_1_rel", PHON.ONSET con ] ]. clamp_v1 := v_np*_le & [ STEM < "clamp" >, SYNSEM [ LKEYS.KEYREL.PRED "_clamp_v_1_rel", PHON.ONSET con ] ]. clan_n1 := n_-_c_le & [ STEM < "clan" >, SYNSEM [ LKEYS.KEYREL.PRED "_clan_n_1_rel", PHON.ONSET con ] ]. clang_n1 := n_-_c_le & [ STEM < "clang" >, SYNSEM [ LKEYS.KEYREL.PRED "_clang_n_1_rel", PHON.ONSET con ] ]. clap_in_v1 := v_np-pp_e_le & [ STEM < "clap" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_sel_rel, KEYREL.PRED "_clap_v_in_rel" ], PHON.ONSET con ] ]. clap_n1 := n_-_c_le & [ STEM < "clap" >, SYNSEM [ LKEYS.KEYREL.PRED "_clap_n_1_rel", PHON.ONSET con ] ]. clap_v1 := v_np*_le & [ STEM < "clap" >, SYNSEM [ LKEYS.KEYREL.PRED "_clap_v_1_rel", PHON.ONSET con ] ]. clare_n1 := n_-_pn_le & [ STEM < "Clare" >, SYNSEM [ LKEYS.KEYREL.CARG "Clare", PHON.ONSET con ] ]. clarification_n1 := n_pp_mc-of_le & [ STEM < "clarification" >, SYNSEM [ LKEYS.KEYREL.PRED "_clarification_n_of_rel", PHON.ONSET con ] ]. clarify_v1 := v_np*_le & [ STEM < "clarify" >, SYNSEM [ LKEYS.KEYREL.PRED "_clarify_v_1_rel", PHON.ONSET con ] ]. clarify_v2 := v_cp_le & [ STEM < "clarify" >, SYNSEM [ LKEYS.KEYREL.PRED "_clarify_v_1_rel", PHON.ONSET con ] ]. clarinet_n1 := n_-_c_le & [ STEM < "clarinet" >, SYNSEM [ LKEYS.KEYREL.PRED "_clarinet_n_1_rel", PHON.ONSET con ] ]. clarity_n1 := n_-_mc_le & [ STEM < "clarity" >, SYNSEM [ LKEYS.KEYREL.PRED "_clarity_n_1_rel", PHON.ONSET con ] ]. clark_n1 := n_-_pn_le & [ STEM < "Clark" >, SYNSEM [ LKEYS.KEYREL.CARG "Clark", PHON.ONSET con ] ]. clarke_n1 := n_-_pn_le & [ STEM < "Clarke" >, SYNSEM [ LKEYS.KEYREL.CARG "Clarke", PHON.ONSET con ] ]. clash_n1 := n_-_mc_le & [ STEM < "clash" >, SYNSEM [ LKEYS.KEYREL.PRED "_clash_n_1_rel", PHON.ONSET con ] ]. clash_v1 := v_-_le & [ STEM < "clash" >, SYNSEM [ LKEYS.KEYREL.PRED "_clash_v_with_rel", PHON.ONSET con ] ]. clash_with_v1 := v_pp_e_le & [ STEM < "clash" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_clash_v_with_rel" ], PHON.ONSET con ] ]. clasp_n1 := n_-_c_le & [ STEM < "clasp" >, SYNSEM [ LKEYS.KEYREL.PRED "_clasp_n_1_rel", PHON.ONSET con ] ]. clasp_v1 := v_np_le & [ STEM < "clasp" >, SYNSEM [ LKEYS.KEYREL.PRED "_clasp_v_1_rel", PHON.ONSET con ] ]. class_among_v1 := v_np-pp_e_le & [ STEM < "class" >, SYNSEM [ LKEYS [ --OCOMPKEY _among_p_sel_rel, KEYREL.PRED "_class_v_among_rel" ], PHON.ONSET con ] ]. class_n1 := n_pp_mc-of_le & [ STEM < "class" >, SYNSEM [ LKEYS.KEYREL.PRED "_class_n_of_rel", PHON.ONSET con ] ]. class_n2 := n_nb_c-qt_le & [ STEM < "class" >, SYNSEM [ LKEYS.KEYREL.PRED "_class_n_of_rel", PHON.ONSET con ] ]. class_v1 := v_np-pp_oeq-as_le & [ STEM < "class" >, SYNSEM [ LKEYS.KEYREL.PRED "_class_v_as_rel", PHON.ONSET con ] ]. class_with_v1 := v_np-pp_e_le & [ STEM < "class" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_class_v_with_rel" ], PHON.ONSET con ] ]. classic_a1 := aj_-_i_le & [ STEM < "classic" >, SYNSEM [ LKEYS.KEYREL.PRED "_classic_a_1_rel", PHON.ONSET con ] ]. classic_n1 := n_-_c-nocnh_le & [ STEM < "classic" >, SYNSEM [ LKEYS.KEYREL.PRED "_classic_n_1_rel", PHON.ONSET con ] ]. classical_isect := aj_-_i_le & [ STEM < "classical" >, SYNSEM [ LKEYS.KEYREL.PRED "_classical_a_1_rel", PHON.ONSET con ] ]. classically := av_-_i-vp_le & [ STEM < "classically" >, SYNSEM [ LKEYS.KEYREL.PRED "_classical_a_1_rel", PHON.ONSET con ] ]. classicism_n1 := n_-_m_le & [ STEM < "classicism" >, SYNSEM [ LKEYS.KEYREL.PRED "_classicism_n_1_rel", PHON.ONSET con ] ]. classification_n1 := n_pp_mc-of_le & [ STEM < "classification" >, SYNSEM [ LKEYS.KEYREL.PRED "_classification_n_of_rel", PHON.ONSET con ] ]. classify_v1 := v_np*_le & [ STEM < "classify" >, SYNSEM [ LKEYS.KEYREL.PRED "_classify_v_1_rel", PHON.ONSET con ] ]. classify_v2 := v_np-pp_oeq-as_le & [ STEM < "classify" >, SYNSEM [ LKEYS.KEYREL.PRED "_classify_v_as_rel", PHON.ONSET con ] ]. classroom_n1 := n_-_c_le & [ STEM < "classroom" >, SYNSEM [ LKEYS.KEYREL.PRED "_classroom_n_1_rel", PHON.ONSET con ] ]. clatter_n1 := n_-_m_le & [ STEM < "clatter" >, SYNSEM [ LKEYS.KEYREL.PRED "_clatter_n_1_rel", PHON.ONSET con ] ]. clatter_v1 := v_pp*_dir_le & [ STEM < "clatter" >, SYNSEM [ LKEYS.KEYREL.PRED "_clatter_v_1_rel", PHON.ONSET con ] ]. claude_n1 := n_-_pn_le & [ STEM < "Claude" >, SYNSEM [ LKEYS.KEYREL.CARG "Claude", PHON.ONSET con ] ]. claudian_n1 := n_-_pn_le & [ STEM < "Claudian" >, SYNSEM [ LKEYS.KEYREL.CARG "Claudian", PHON.ONSET con ] ]. claudication_n1 := n_-_m_le & [ STEM < "claudication" >, SYNSEM [ LKEYS.KEYREL.PRED "_claudication_n_1_rel", PHON.ONSET con ] ]. claudio_n1 := n_-_pn_le & [ STEM < "Claudio" >, SYNSEM [ LKEYS.KEYREL.CARG "Claudio", PHON.ONSET con ] ]. clause_n1 := n_-_c_le & [ STEM < "clause" >, SYNSEM [ LKEYS.KEYREL.PRED "_clause_n_1_rel", PHON.ONSET con ] ]. claustrophobia_n1 := n_-_m_le & [ STEM < "claustrophobia" >, SYNSEM [ LKEYS.KEYREL.PRED "_claustrophobia_n_1_rel", PHON.ONSET con ] ]. claw_n1 := n_-_c_le & [ STEM < "claw" >, SYNSEM [ LKEYS.KEYREL.PRED "_claw_n_1_rel", PHON.ONSET con ] ]. claw_v1 := v_pp*_dir_le & [ STEM < "claw" >, SYNSEM [ LKEYS.KEYREL.PRED "_claw_v_1_rel", PHON.ONSET con ] ]. claw_v2 := v_np_noger_le & [ STEM < "claw" >, SYNSEM [ LKEYS.KEYREL.PRED "_claw_v_1_rel", PHON.ONSET con ] ]. clay_n1 := n_-_pn_le & [ STEM < "Clay" >, SYNSEM [ LKEYS.KEYREL.CARG "Clay", PHON.ONSET con ] ]. clean_isect := aj_pp_i_le & [ STEM < "clean" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_clean_a_1_rel" ], PHON.ONSET con ] ]. clean_of_v1 := v_np-pp_e_le & [ STEM < "clean" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_clean_v_of_rel" ], PHON.ONSET con ] ]. clean_out_v1 := v_p-np_le & [ STEM < "clean" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_clean_v_out_rel" ], PHON.ONSET con ] ]. clean_up_v1 := v_p-np_le & [ STEM < "clean" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clean_v_up_rel" ], PHON.ONSET con ] ]. clean_up_v2 := v_p_le & [ STEM < "clean" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clean_v_up_rel" ], PHON.ONSET con ] ]. clean_v1 := v_np*_le & [ STEM < "clean" >, SYNSEM [ LKEYS.KEYREL.PRED "_clean_v_1_rel", PHON.ONSET con ] ]. cleaner_n1 := n_pp_c-of_le & [ STEM < "cleaner" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleaner_n_of_rel", PHON.ONSET con ] ]. cleanliness_n1 := n_-_m_le & [ STEM < "cleanliness" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleanliness_n_1_rel", PHON.ONSET con ] ]. cleanly := av_-_i-vp_le & [ STEM < "cleanly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clean_a_1_rel", PHON.ONSET con ] ]. cleanse_of_v1 := v_np-pp_e_le & [ STEM < "cleanse" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_cleanse_v_of_rel" ], PHON.ONSET con ] ]. cleanse_v1 := v_np_le & [ STEM < "cleanse" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleanse_v_of_rel", PHON.ONSET con ] ]. cleanup_n1 := n_-_mc_le & [ STEM < "cleanup" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleanup_n_1_rel", PHON.ONSET con ] ]. cleanup_n2 := n_-_mc_le & [ STEM < "clean-", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleanup_n_1_rel", PHON.ONSET con ] ]. clear_a1 := aj_pp_i_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_clear_a_of_rel" ], PHON.ONSET con ] ]. clear_a2 := aj_pp-cp_i-it_le & [ STEM < "clear" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_of_rel", PHON.ONSET con ] ]. clear_away_v1 := v_p-np_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_clear_v_away_rel" ], PHON.ONSET con ] ]. clear_from_v1 := v_np-pp_e_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_clear_v_from_rel" ], PHON.ONSET con ] ]. clear_of_v1 := v_np-pp_e_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_clear_v_of_rel" ], PHON.ONSET con ] ]. clear_off_v1 := v_p-np_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_clear_v_off_rel" ], PHON.ONSET con ] ]. clear_off_v2 := v_p_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_clear_v_off_rel" ], PHON.ONSET con ] ]. clear_out_v1 := v_p-np_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_clear_v_out_rel" ], PHON.ONSET con ] ]. clear_out_v2 := v_p_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_clear_v_out_rel" ], PHON.ONSET con ] ]. clear_up_v1 := v_p-np_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clear_v_up_rel" ], PHON.ONSET con ] ]. clear_up_v2 := v_p_le & [ STEM < "clear" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clear_v_up_rel" ], PHON.ONSET con ] ]. clear_v1 := v_np*_le & [ STEM < "clear" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_v_1_rel", PHON.ONSET con ] ]. clear_v2 := v_np-vp_oeq_le & [ STEM < "clear" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_v_1_rel", PHON.ONSET con ] ]. clearance_n1 := n_-_mc_le & [ STEM < "clearance" >, SYNSEM [ LKEYS.KEYREL.PRED "_clearance_n_1_rel", PHON.ONSET con ] ]. clearance_n2 := n_vp_mc_le & [ STEM < "clearance" >, SYNSEM [ LKEYS.KEYREL.PRED "_clearance_n_1_rel", PHON.ONSET con ] ]. clearer := aj_pp_i-cmp_le & [ STEM < "clearer" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_of_rel", PHON.ONSET con ] ]. clearest_a1 := aj_-_i-sup_le & [ STEM < "clearest" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_of_rel", PHON.ONSET con ] ]. clearing_n1 := n_-_c-nocnh_le & [ STEM < "clearing" >, SYNSEM [ LKEYS.KEYREL.PRED "_clearing_n_1_rel", PHON.ONSET con ] ]. clearly_adv1 := av_-_i-vp-x_le & [ STEM < "clearly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_of_rel", PHON.ONSET con ] ]. clearly_adv2 := av_-_s-cp-pr_le & [ STEM < "clearly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_1_rel", PHON.ONSET con ] ]. clearly_adv3 := av_-_i-vp-po_le & [ STEM < "clearly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_1_rel", PHON.ONSET con ] ]. clearly_adv4 := av_-_i-ap-pp_le & [ STEM < "clearly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clear_a_of_rel", PHON.ONSET con ] ]. clearness_n1 := n_-_m_le & [ STEM < "clearness" >, SYNSEM [ LKEYS.KEYREL.PRED "_clearness_n_1_rel", PHON.ONSET con ] ]. cleat_n1 := n_-_c_le & [ STEM < "cleat" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleat_n_1_rel", PHON.ONSET con ] ]. cleavage_n1 := n_-_mc_le & [ STEM < "cleavage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleavage_n_1_rel", PHON.ONSET con ] ]. cleave_to_v1 := v_pp_e_le & [ STEM < "cleave" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_cleave_v_to_rel" ], PHON.ONSET con ] ]. cleave_v1 := v_np_le & [ STEM < "cleave" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleave_v_1_rel", PHON.ONSET con ] ]. cleft_n1 := n_-_c_le & [ STEM < "cleft" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleft_n_1_rel", PHON.ONSET con ] ]. clemens_n1 := n_-_pn_le & [ STEM < "Clemens" >, SYNSEM [ LKEYS.KEYREL.CARG "Clemens", PHON.ONSET con ] ]. clench_n1 := n_-_c_le & [ STEM < "clench" >, SYNSEM [ LKEYS.KEYREL.PRED "_clench_n_1_rel", PHON.ONSET con ] ]. clench_v1 := v_np_le & [ STEM < "clench" >, SYNSEM [ LKEYS.KEYREL.PRED "_clench_v_1_rel", PHON.ONSET con ] ]. cleo_n1 := n_-_pn_le & [ STEM < "Cleo" >, SYNSEM [ LKEYS.KEYREL.CARG "Cleo", PHON.ONSET con ] ]. cleota_n1 := n_-_pn_le & [ STEM < "Cleota" >, SYNSEM [ LKEYS.KEYREL.CARG "Cleota", PHON.ONSET con ] ]. clergy_n1 := n_-_c-pl_le & [ STEM < "clergy" >, SYNSEM [ LKEYS.KEYREL.PRED "_clergy_n_1_rel", PHON.ONSET con ] ]. clergyman_n1 := n_-_c_le & [ STEM < "clergyman" >, SYNSEM [ LKEYS.KEYREL.PRED "_clergyman_n_1_rel", PHON.ONSET con ] ]. cleric_n1 := n_-_c_le & [ STEM < "cleric" >, SYNSEM [ LKEYS.KEYREL.PRED "_cleric_n_1_rel", PHON.ONSET con ] ]. clerical_a1 := aj_-_i_le & [ STEM < "clerical" >, SYNSEM [ LKEYS.KEYREL.PRED "_clerical_a_1_rel", PHON.ONSET con ] ]. clerk_n1 := n_-_c_le & [ STEM < "clerk" >, SYNSEM [ LKEYS.KEYREL.PRED "_clerk_n_1_rel", PHON.ONSET con ] ]. clerk_v1 := v_-_le & [ STEM < "clerk" >, SYNSEM [ LKEYS.KEYREL.PRED "_clerk_v_1_rel", PHON.ONSET con ] ]. cleveland_n1 := n_-_pn-city_le & [ STEM < "Cleveland" >, SYNSEM [ LKEYS.KEYREL.CARG "Cleveland", PHON.ONSET con ] ]. clever_a1 := aj_-_i_le & [ STEM < "clever" >, SYNSEM [ LKEYS.KEYREL.PRED "_clever_a_1_rel", PHON.ONSET con ] ]. cleverer := aj_pp_i-cmp_le & [ STEM < "cleverer" >, SYNSEM [ LKEYS.KEYREL.PRED "_clever_a_1_rel", PHON.ONSET con ] ]. cleverest_a1 := aj_-_i-sup_le & [ STEM < "cleverest" >, SYNSEM [ LKEYS.KEYREL.PRED "_clever_a_1_rel", PHON.ONSET con ] ]. cleverly_adv1 := av_-_i-vp_le & [ STEM < "cleverly" >, SYNSEM [ LKEYS.KEYREL.PRED "_clever_a_1_rel", PHON.ONSET con ] ]. click_n1 := n_-_c_le & [ STEM < "click" >, SYNSEM [ LKEYS.KEYREL.PRED "_click_n_1_rel", PHON.ONSET con ] ]. click_on_v1 := v_pp_e_le & [ STEM < "click" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_click_v_on_rel" ], PHON.ONSET con ] ]. click_v1 := v_np_noger_le & [ STEM < "click" >, SYNSEM [ LKEYS.KEYREL.PRED "_click_v_cause_rel", PHON.ONSET con ] ]. click_v2 := v_-_unacc_le & [ STEM < "click" >, SYNSEM [ LKEYS.KEYREL.PRED "_click_v_1_rel", PHON.ONSET con ] ]. clie_n1 := n_-_c_le & [ STEM < "clie" >, SYNSEM [ LKEYS.KEYREL.PRED "_clie_n_1_rel", PHON.ONSET con ] ]. client-independent_a1 := aj_-_i_le & [ STEM < "client-", "independent" >, SYNSEM [ LKEYS.KEYREL.PRED "_client-independent_a_1_rel", PHON.ONSET con ] ]. client-specific_a1 := aj_-_i_le & [ STEM < "client-", "specific" >, SYNSEM [ LKEYS.KEYREL.PRED "_client-specific_a_1_rel", PHON.ONSET con ] ]. client_n1 := n_-_c_le & [ STEM < "client" >, SYNSEM [ LKEYS.KEYREL.PRED "_client_n_1_rel", PHON.ONSET con ] ]. cliff_n1 := n_-_c_le & [ STEM < "cliff" >, SYNSEM [ LKEYS.KEYREL.PRED "_cliff_n_1_rel", PHON.ONSET con ] ]. cliff_top_a1 := aj_-_i_le & [ STEM < "clifftop" >, SYNSEM [ LKEYS.KEYREL.PRED "_clifftop_a_1_rel", PHON.ONSET con ] ]. cliff_top_a2 := aj_-_i_le & [ STEM < "cliff-", "top" >, SYNSEM [ LKEYS.KEYREL.PRED "_clifftop_a_1_rel", PHON.ONSET con ] ]. cliffside_n1 := n_-_pn_le & [ STEM < "Cliffside" >, SYNSEM [ LKEYS.KEYREL.CARG "Cliffside", PHON.ONSET con ] ]. climate_n1 := n_-_mc-ns_le & [ STEM < "climate" >, SYNSEM [ LKEYS.KEYREL.PRED "_climate_n_1_rel", PHON.ONSET con ] ]. climatic_a1 := aj_-_i_le & [ STEM < "climatic" >, SYNSEM [ LKEYS.KEYREL.PRED "_climatic_a_1_rel", PHON.ONSET con ] ]. climax_n1 := n_-_c_le & [ STEM < "climax" >, SYNSEM [ LKEYS.KEYREL.PRED "_climax_n_1_rel", PHON.ONSET con ] ]. climax_v1 := v_np*_le & [ STEM < "climax" >, SYNSEM [ LKEYS.KEYREL.PRED "_climax_v_1_rel", PHON.ONSET con ] ]. climb_n1 := n_-_c_le & [ STEM < "climb" >, SYNSEM [ LKEYS.KEYREL.PRED "_climb_n_1_rel", PHON.ONSET con ] ]. climb_v1 := v_np_noger_le & [ STEM < "climb" >, SYNSEM [ LKEYS.KEYREL.PRED "_climb_v_1_rel", PHON.ONSET con ] ]. climb_v2 := v_pp*_dir_le & [ STEM < "climb" >, SYNSEM [ LKEYS.KEYREL.PRED "_climb_v_1_rel", PHON.ONSET con ] ]. climbable_a1 := aj_-_i_le & [ STEM < "climbable" >, SYNSEM [ LKEYS.KEYREL.PRED "_climbable_a_1_rel", PHON.ONSET con ] ]. climber_n1 := n_pp_c-of_le & [ STEM < "climber" >, SYNSEM [ LKEYS.KEYREL.PRED "_climber_n_of_rel", PHON.ONSET con ] ]. climes_n1 := n_-_c-pl_le & [ STEM < "clime" >, SYNSEM [ LKEYS.KEYREL.PRED "_climes_n_1_rel", PHON.ONSET con ] ]. clinch_n1 := n_-_c_le & [ STEM < "clinch" >, SYNSEM [ LKEYS.KEYREL.PRED "_clinch_n_1_rel", PHON.ONSET con ] ]. clinch_v1 := v_np*_le & [ STEM < "clinch" >, SYNSEM [ LKEYS.KEYREL.PRED "_clinch_v_1_rel", PHON.ONSET con ] ]. cling_on_v1 := v_p_le & [ STEM < "cling" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_cling_v_on_rel" ], PHON.ONSET con ] ]. cling_to_v1 := v_pp_le & [ STEM < "cling" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, KEYREL.PRED "_cling_v_1_rel" ], PHON.ONSET con ] ]. cling_v1 := v_-_le & [ STEM < "cling" >, SYNSEM [ LKEYS.KEYREL.PRED "_cling_v_to_rel", PHON.ONSET con ] ]. clinic_n1 := n_-_c_le & [ STEM < "clinic" >, SYNSEM [ LKEYS.KEYREL.PRED "_clinic_n_1_rel", PHON.ONSET con ] ]. clinical_a1 := aj_-_i_le & [ STEM < "clinical" >, SYNSEM [ LKEYS.KEYREL.PRED "_clinical_a_1_rel", PHON.ONSET con ] ]. clinker_n1 := n_-_c_le & [ STEM < "clinker" >, SYNSEM [ LKEYS.KEYREL.PRED "_clinker_n_1_rel", PHON.ONSET con ] ]. clinton_n1 := n_-_pn_le & [ STEM < "Clinton" >, SYNSEM [ LKEYS.KEYREL.CARG "Clinton", PHON.ONSET con ] ]. clip_n1 := n_-_c_le & [ STEM < "clip" >, SYNSEM [ LKEYS.KEYREL.PRED "_clip_n_1_rel", PHON.ONSET con ] ]. clip_v1 := v_np_le & [ STEM < "clip" >, SYNSEM [ LKEYS.KEYREL.PRED "_clip_v_1_rel", PHON.ONSET con ] ]. clip_v2 := v_np-pp_prop_le & [ STEM < "clip" >, SYNSEM [ LKEYS.KEYREL.PRED "_clip_v_1_rel", PHON.ONSET con ] ]. clipboard_n1 := n_-_c_le & [ STEM < "clipboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_clipboard_n_1_rel", PHON.ONSET con ] ]. clipping_n1 := n_-_c-nocnh_le & [ STEM < "clipping" >, SYNSEM [ LKEYS.KEYREL.PRED "_clipping_n_1_rel", PHON.ONSET con ] ]. clique_n1 := n_-_c_le & [ STEM < "clique" >, SYNSEM [ LKEYS.KEYREL.PRED "_clique_n_1_rel", PHON.ONSET con ] ]. clive_n1 := n_-_pn_le & [ STEM < "Clive" >, SYNSEM [ LKEYS.KEYREL.CARG "Clive", PHON.ONSET con ] ]. cloak_in_v1 := v_np-pp_e_le & [ STEM < "cloak" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_sel_rel, KEYREL.PRED "_cloak_v_in_rel" ], PHON.ONSET con ] ]. cloak_n1 := n_-_c_le & [ STEM < "cloak" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloak_n_1_rel", PHON.ONSET con ] ]. cloak_v1 := v_np_le & [ STEM < "cloak" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloak_v_in_rel", PHON.ONSET con ] ]. clock_at_v1 := v_np-pp_e_le & [ STEM < "clock" >, SYNSEM [ LKEYS [ --OCOMPKEY _at_p_sel_rel, KEYREL.PRED "_clock_v_at_rel" ], PHON.ONSET con ] ]. clock_in_v1 := v_p_le & [ STEM < "clock" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_clock_v_in_rel" ], PHON.ONSET con ] ]. clock_n1 := n_-_c_le & [ STEM < "clock" >, SYNSEM [ LKEYS.KEYREL.PRED "_clock_n_1_rel", PHON.ONSET con ] ]. clock_v1 := v_np_le & [ STEM < "clock" >, SYNSEM [ LKEYS.KEYREL.PRED "_clock_v_1_rel", PHON.ONSET con ] ]. clocktime-ersatz := n_np_pn-hour_le & [ STEM < "clocktimeersatz" >, SYNSEM.PHON.ONSET onset ]. clocktime-ersatz_2 := n_np_pn-hour_le & [ STEM < "clockordecimalersatz" >, SYNSEM.PHON.ONSET onset ]. clockwise_a1 := aj_-_i-att_le & [ STEM < "clockwise" >, SYNSEM [ LKEYS.KEYREL.PRED "_clockwise_a_1_rel", PHON.ONSET con ] ]. clockwise_pp := pp_-_i-dir_le & [ STEM < "clockwise" >, SYNSEM [ LKEYS.KEYREL.PRED _clockwise_p_rel, PHON.ONSET con ] ]. clog_n1 := n_-_c_le & [ STEM < "clog" >, SYNSEM [ LKEYS.KEYREL.PRED "_clog_n_1_rel", PHON.ONSET con ] ]. clog_up_v1 := v_p-np_le & [ STEM < "clog" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clog_v_up_rel" ], PHON.ONSET con ] ]. clog_up_v2 := v_p_le & [ STEM < "clog" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_clog_v_up_rel" ], PHON.ONSET con ] ]. clog_v1 := v_-_unacc_le & [ STEM < "clog" >, SYNSEM [ LKEYS.KEYREL.PRED "_clog_v_1_rel", PHON.ONSET con ] ]. clog_v2 := v_np_noger_le & [ STEM < "clog" >, SYNSEM [ LKEYS.KEYREL.PRED "_clog_v_cause_rel", PHON.ONSET con ] ]. cloister_n1 := n_-_c_le & [ STEM < "cloister" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloister_n_1_rel", PHON.ONSET con ] ]. cloister_v1 := v_np_le & [ STEM < "cloister" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloister_v_1_rel", PHON.ONSET con ] ]. close+by_p1 := p_np_i-reg_le & [ STEM < "close", "by" >, SYNSEM [ LKEYS.KEYREL.PRED _close+by_p_rel, PHON.ONSET con ] ]. close_a1 := aj_pp_i_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_close_a_to_rel" ], PHON.ONSET con ] ]. close_by_adv1 := pp_-_i_le & [ STEM < "close", "by" >, SYNSEM [ LKEYS.KEYREL.PRED _close+by_p_rel, PHON.ONSET con ] ]. close_down_v1 := v_p-np_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_close_v_down_rel" ], PHON.ONSET con ] ]. close_down_v2 := v_p_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_close_v_down_rel" ], PHON.ONSET con ] ]. close_in_v1 := v_p-np_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_close_v_in_rel" ], PHON.ONSET con ] ]. close_in_v2 := v_p_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_close_v_in_rel" ], PHON.ONSET con ] ]. close_n1 := n_pp_c-of_le & [ STEM < "close" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_n_of_rel", PHON.ONSET con ] ]. close_off_v1 := v_p-np_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_close_v_off_rel" ], PHON.ONSET con ] ]. close_off_v2 := v_p_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_close_v_off_rel" ], PHON.ONSET con ] ]. close_out_v1 := v_p-np_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_close_v_out_rel" ], PHON.ONSET con ] ]. close_out_v2 := v_p_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_close_v_out_rel" ], PHON.ONSET con ] ]. close_post_ttl := n_-_tt-post_le & [ STEM < "Close" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_n_of_rel", PHON.ONSET con ] ]. close_to_p := p_np_i_le & [ STEM < "close", "to" >, SYNSEM [ LKEYS.KEYREL.PRED _close+to_p_rel, PHON.ONSET con ] ]. close_up_v1 := v_p-np_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_close_v_up_rel" ], PHON.ONSET con ] ]. close_up_v2 := v_p_le & [ STEM < "close" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_close_v_up_rel" ], PHON.ONSET con ] ]. close_v1 := v_np_noger_le & [ STEM < "close" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_v_cause_rel", PHON.ONSET con ] ]. close_v2 := v_-_unacc_le & [ STEM < "close" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_v_1_rel", PHON.ONSET con ] ]. closed_isect := aj_-_i_le & [ STEM < "closed" >, SYNSEM [ LKEYS.KEYREL.PRED "_closed_a_1_rel", PHON.ONSET con ] ]. closely := av_-_i-vp_le & [ STEM < "closely" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_a_to_rel", PHON.ONSET con ] ]. closer_a1 := aj_pp_i-cmp-oth_le & [ STEM < "closer" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_close_a_to_rel" ], PHON.ONSET con ] ]. closest_a1 := aj_-_i-sup_le & [ STEM < "closest" >, SYNSEM [ LKEYS.KEYREL.PRED "_close_a_to_rel", PHON.ONSET con ] ]. closet_n1 := n_-_c_le & [ STEM < "closet" >, SYNSEM [ LKEYS.KEYREL.PRED "_closet_n_1_rel", PHON.ONSET con ] ]. closure_n1 := n_pp_mc-of_le & [ STEM < "closure" >, SYNSEM [ LKEYS.KEYREL.PRED "_closure_n_of_rel", PHON.ONSET con ] ]. clot_n1 := n_-_c_le & [ STEM < "clot" >, SYNSEM [ LKEYS.KEYREL.PRED "_clot_n_1_rel", PHON.ONSET con ] ]. clot_v1 := v_-_unacc_le & [ STEM < "clot" >, SYNSEM [ LKEYS.KEYREL.PRED "_clot_v_1_rel", PHON.ONSET con ] ]. clot_v2 := v_np_noger_le & [ STEM < "clot" >, SYNSEM [ LKEYS.KEYREL.PRED "_clot_v_cause_rel", PHON.ONSET con ] ]. cloth_n1 := n_-_mc_le & [ STEM < "cloth" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloth_n_1_rel", PHON.ONSET con ] ]. clothe_v1 := v_np-pp_e_le & [ STEM < "clothe" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_sel_rel, KEYREL.PRED "_clothe_v_in_rel" ], PHON.ONSET con ] ]. clothe_v2 := v_np_le & [ STEM < "clothe" >, SYNSEM [ LKEYS.KEYREL.PRED "_clothe_v_in_rel", PHON.ONSET con ] ]. clothes_n1 := n_-_c-pl-nocnh_le & [ STEM < "clothe" >, SYNSEM [ LKEYS.KEYREL.PRED "_clothes_n_1_rel", PHON.ONSET con ] ]. clotheshorse_n1 := n_-_c_le & [ STEM < "clotheshorse" >, SYNSEM [ LKEYS.KEYREL.PRED "_clotheshorse_n_1_rel", PHON.ONSET con ] ]. clothesline_n1 := n_-_mc_le & [ STEM < "clothesline" >, SYNSEM [ LKEYS.KEYREL.PRED "_clothesline_n_1_rel", PHON.ONSET con ] ]. clothing_n1 := n_-_m_le & [ STEM < "clothing" >, SYNSEM [ LKEYS.KEYREL.PRED "_clothing_n_1_rel", PHON.ONSET con ] ]. cloud_free_a1 := aj_-_i_le & [ STEM < "cloud-", "free" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloud+free_a_1_rel", PHON.ONSET con ] ]. cloud_n1 := n_pp_c-of_le & [ STEM < "cloud" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloud_n_of_rel", PHON.ONSET con ] ]. cloud_v1 := v_np_le & [ STEM < "cloud" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloud_v_1_rel", PHON.ONSET con ] ]. cloudberry_n1 := n_-_c_le & [ STEM < "cloudberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudberry_n_1_rel", PHON.ONSET con ] ]. cloudburst_n1 := n_-_c_le & [ STEM < "cloudburst" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudburst_n_1_rel", PHON.ONSET con ] ]. cloudier_a1 := aj_pp_i-cmp_le & [ STEM < "cloudier" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. cloudier_a2 := aj_pp_i-cmp-wthr_le & [ STEM < "cloudier" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. cloudiest_a1 := aj_-_i-sup_le & [ STEM < "cloudiest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. cloudiest_a2 := aj_-_i-sup-it_le & [ STEM < "cloudiest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. cloudiness_n1 := n_-_mc_le & [ STEM < "cloudiness" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudiness_n_1_rel", PHON.ONSET con ] ]. cloudless_a1 := aj_-_i_le & [ STEM < "cloudless" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudless_a_1_rel", PHON.ONSET con ] ]. cloudy_a1 := aj_-_i_le & [ STEM < "cloudy" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. cloudy_a2 := aj_-_i-wthr_le & [ STEM < "cloudy" >, SYNSEM [ LKEYS.KEYREL.PRED "_cloudy_a_1_rel", PHON.ONSET con ] ]. clough_n1 := n_-_pn_le & [ STEM < "Clough" >, SYNSEM [ LKEYS.KEYREL.CARG "Clough", PHON.ONSET con ] ]. clout_n1 := n_-_mc_le & [ STEM < "clout" >, SYNSEM [ LKEYS.KEYREL.PRED "_clout_n_1_rel", PHON.ONSET con ] ]. clout_v1 := v_np_le & [ STEM < "clout" >, SYNSEM [ LKEYS.KEYREL.PRED "_clout_v_1_rel", PHON.ONSET con ] ]. clover_n1 := n_-_m_le & [ STEM < "clover" >, SYNSEM [ LKEYS.KEYREL.PRED "_clover_n_1_rel", PHON.ONSET con ] ]. clover_n2 := n_-_pn_le & [ STEM < "Clover" >, SYNSEM [ LKEYS.KEYREL.CARG "Clover", PHON.ONSET con ] ]. clown_around_v1 := v_p_le & [ STEM < "clown" >, SYNSEM [ LKEYS [ --COMPKEY _around_p_sel_rel, KEYREL.PRED "_clown_v_around_rel" ], PHON.ONSET con ] ]. clown_n1 := n_-_c_le & [ STEM < "clown" >, SYNSEM [ LKEYS.KEYREL.PRED "_clown_n_1_rel", PHON.ONSET con ] ]. clown_v1 := v_-_le & [ STEM < "clown" >, SYNSEM [ LKEYS.KEYREL.PRED "_clown_v_1_rel", PHON.ONSET con ] ]. club_n1 := n_-_c_le & [ STEM < "club" >, SYNSEM [ LKEYS.KEYREL.PRED "_club_n_1_rel", PHON.ONSET con ] ]. club_post_ttl := n_-_tt-post_le & [ STEM < "Club" >, SYNSEM [ LKEYS.KEYREL.PRED "_club_n_1_rel", PHON.ONSET con ] ]. club_v1 := v_np*_le & [ STEM < "club" >, SYNSEM [ LKEYS.KEYREL.PRED "_club_v_1_rel", PHON.ONSET con ] ]. clue_n1 := n_-_c_le & [ STEM < "clue" >, SYNSEM [ LKEYS.KEYREL.PRED "_clue_n_1_rel", PHON.ONSET con ] ]. clueless_a1 := aj_-_i_le & [ STEM < "clueless" >, SYNSEM [ LKEYS.KEYREL.PRED "_clueless_a_1_rel", PHON.ONSET con ] ]. cluff_n1 := n_-_pn_le & [ STEM < "Cluff" >, SYNSEM [ LKEYS.KEYREL.CARG "Cluff", PHON.ONSET con ] ]. clump_n1 := n_pp_c-ns-of_le & [ STEM < "clump" >, SYNSEM [ LKEYS.KEYREL.PRED "_clump_n_of_rel", PHON.ONSET con ] ]. clump_v1 := v_-_le & [ STEM < "clump" >, SYNSEM [ LKEYS.KEYREL.PRED "_clump_v_1_rel", PHON.ONSET con ] ]. clumsily := av_-_i-vp_le & [ STEM < "clumsily" >, SYNSEM [ LKEYS.KEYREL.PRED "_clumsy_a_1_rel", PHON.ONSET con ] ]. clumsy_a1 := aj_-_i_le & [ STEM < "clumsy" >, SYNSEM [ LKEYS.KEYREL.PRED "_clumsy_a_1_rel", PHON.ONSET con ] ]. cluster_n1 := n_pp_c-of_le & [ STEM < "cluster" >, SYNSEM [ LKEYS.KEYREL.PRED "_cluster_n_of_rel", PHON.ONSET con ] ]. cluster_v1 := v_pp*_dir_le & [ STEM < "cluster" >, SYNSEM [ LKEYS.KEYREL.PRED "_cluster_v_1_rel", PHON.ONSET con ] ]. clutch_at_v1 := v_pp_e_le & [ STEM < "clutch" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_clutch_v_at_rel" ], PHON.ONSET con ] ]. clutch_n1 := n_pp_c-of_le & [ STEM < "clutch" >, SYNSEM [ LKEYS.KEYREL.PRED "_clutch_n_of_rel", PHON.ONSET con ] ]. clutch_v1 := v_np_le & [ STEM < "clutch" >, SYNSEM [ LKEYS.KEYREL.PRED "_clutch_v_1_rel", PHON.ONSET con ] ]. clutterbuck_n1 := n_-_pn_le & [ STEM < "Clutterbuck" >, SYNSEM [ LKEYS.KEYREL.CARG "Clutterbuck", PHON.ONSET con ] ]. cluttered_a1 := aj_-_i_le & [ STEM < "cluttered" >, SYNSEM [ LKEYS.KEYREL.PRED "_cluttered_a_1_rel", PHON.ONSET con ] ]. cnn_n1 := n_-_pn_le & [ STEM < "CNN" >, SYNSEM [ LKEYS.KEYREL.CARG "CNN", PHON.ONSET con ] ]. co-author_n1 := n_-_c_le & [ STEM < "co", "author" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-author_n_1_rel", PHON.ONSET con ] ]. co-author_n2 := n_-_c_le & [ STEM < "co-", "author" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-author_n_1_rel", PHON.ONSET con ] ]. co-author_v1 := v_np*_le & [ STEM < "co-", "author" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-author_v_1_rel", PHON.ONSET con ] ]. co-edit_v1 := v_np*_le & [ STEM < "co-", "edit" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-edit_v_1_rel", PHON.ONSET con ] ]. co-op_n1 := n_-_c_le & [ STEM < "co", "op" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-op_n_1_rel", PHON.ONSET con ] ]. co-op_n2 := n_-_c_le & [ STEM < "co-", "op" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-op_n_1_rel", PHON.ONSET con ] ]. co-owner_n1 := n_-_c_le & [ STEM < "co", "owner" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-owner_n_1_rel", PHON.ONSET con ] ]. co-owner_n2 := n_-_c_le & [ STEM < "co-", "owner" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-owner_n_1_rel", PHON.ONSET con ] ]. co-ownership_n1 := n_-_m_le & [ STEM < "co", "ownership" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-ownership_n_1_rel", PHON.ONSET con ] ]. co-ownership_n2 := n_-_m_le & [ STEM < "co-", "ownership" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-ownership_n_1_rel", PHON.ONSET con ] ]. co-worker_n1 := n_-_c_le & [ STEM < "co", "worker" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-worker_n_1_rel", PHON.ONSET con ] ]. co-worker_n2 := n_-_c_le & [ STEM < "co-", "worker" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-worker_n_1_rel", PHON.ONSET con ] ]. co-worker_n3 := n_-_c_le & [ STEM < "coworker" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-worker_n_1_rel", PHON.ONSET con ] ]. co_ed_n1 := n_-_c_le & [ STEM < "coed" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-ed_n_1_rel", PHON.ONSET con ] ]. co_ed_n2 := n_-_c_le & [ STEM < "co-", "ed" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-ed_n_1_rel", PHON.ONSET con ] ]. co_educational_a1 := aj_-_i_le & [ STEM < "co-", "educational" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-educational_a_1_rel", PHON.ONSET con ] ]. co_n2 := n_-_c_le & [ STEM < "_CO" >, SYNSEM [ LKEYS.KEYREL.PRED "_CO_n_1_rel", PHON.ONSET con ] ]. co_post_ttl := n_-_tt-post_le & [ STEM < "Co" >, SYNSEM [ LKEYS.KEYREL.PRED "_company_n_1_rel", PHON.ONSET con ] ]. co_post_ttl_2 := n_-_tt-post_le & [ STEM < "co." >, SYNSEM [ LKEYS.KEYREL.PRED "_company_n_1_rel", PHON.ONSET con ] ]. coach_n1 := n_-_c_le & [ STEM < "coach" >, SYNSEM [ LKEYS.KEYREL.PRED "_coach_n_1_rel", PHON.ONSET con ] ]. coach_v1 := v_np_le & [ STEM < "coach" >, SYNSEM [ LKEYS.KEYREL.PRED "_coach_v_1_rel", PHON.ONSET con ] ]. coachman_n1 := n_-_c_le & [ STEM < "coachman" >, SYNSEM [ LKEYS.KEYREL.PRED "_coachman_n_1_rel", PHON.ONSET con ] ]. coahse_n1 := n_-_pn_le & [ STEM < "Coahse" >, SYNSEM [ LKEYS.KEYREL.CARG "Coahse", PHON.ONSET con ] ]. coal_n1 := n_-_mc_le & [ STEM < "coal" >, SYNSEM [ LKEYS.KEYREL.PRED "_coal_n_1_rel", PHON.ONSET con ] ]. coalescence_n1 := n_-_mc_le & [ STEM < "coalescence" >, SYNSEM [ LKEYS.KEYREL.PRED "_coalescence_n_1_rel", PHON.ONSET con ] ]. coalition_n1 := n_-_c_le & [ STEM < "coalition" >, SYNSEM [ LKEYS.KEYREL.PRED "_coalition_n_1_rel", PHON.ONSET con ] ]. coarse_a1 := aj_-_i_le & [ STEM < "coarse" >, SYNSEM [ LKEYS.KEYREL.PRED "_coarse_a_1_rel", PHON.ONSET con ] ]. coast_n1 := n_-_c_le & [ STEM < "coast" >, SYNSEM [ LKEYS.KEYREL.PRED "_coast_n_1_rel", PHON.ONSET con ] ]. coast_v1 := v_pp*_dir_le & [ STEM < "coast" >, SYNSEM [ LKEYS.KEYREL.PRED "_coast_v_1_rel", PHON.ONSET con ] ]. coastal_a1 := aj_-_i_le & [ STEM < "coastal" >, SYNSEM [ LKEYS.KEYREL.PRED "_coastal_a_1_rel", PHON.ONSET con ] ]. coastline_n1 := n_-_c_le & [ STEM < "coastline" >, SYNSEM [ LKEYS.KEYREL.PRED "_coastline_n_1_rel", PHON.ONSET con ] ]. coat_n1 := n_pp_c-of_le & [ STEM < "coat" >, SYNSEM [ LKEYS.KEYREL.PRED "_coat_n_of_rel", PHON.ONSET con ] ]. coat_v1 := v_np_le & [ STEM < "coat" >, SYNSEM [ LKEYS.KEYREL.PRED "_coat_v_1_rel", PHON.ONSET con ] ]. coati_n1 := n_-_c_le & [ STEM < "coati" >, SYNSEM [ LKEYS.KEYREL.PRED "_coati_n_1_rel", PHON.ONSET con ] ]. coatimundi_n1 := n_-_c_le & [ STEM < "coatimundi" >, SYNSEM [ LKEYS.KEYREL.PRED "_coatimundi_n_1_rel", PHON.ONSET con ] ]. coating_n1 := n_pp_c-of_le & [ STEM < "coating" >, SYNSEM [ LKEYS.KEYREL.PRED "_coating_n_of_rel", PHON.ONSET con ] ]. cobalt_a1 := aj_-_i_le & [ STEM < "cobalt" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobalt_a_1_rel", PHON.ONSET con ] ]. cobalt_n1 := n_-_m_le & [ STEM < "cobalt" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobalt_n_1_rel", PHON.ONSET con ] ]. cobb_n1 := n_-_pn_le & [ STEM < "Cobb" >, SYNSEM [ LKEYS.KEYREL.CARG "Cobb", PHON.ONSET con ] ]. cobble_n1 := n_-_c_le & [ STEM < "cobble" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobble_n_1_rel", PHON.ONSET con ] ]. cobbled_a1 := aj_-_i_le & [ STEM < "cobbled" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobbled_a_1_rel", PHON.ONSET con ] ]. cobbler_n1 := n_-_c_le & [ STEM < "cobbler" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobbler_n_1_rel", PHON.ONSET con ] ]. cobblestone_n1 := n_-_c_le & [ STEM < "cobblestone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobblestone_n_1_rel", PHON.ONSET con ] ]. cobblestone_n2 := n_-_c_le & [ STEM < "cobble", "stone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobblestone_n_1_rel", PHON.ONSET con ] ]. cobra_n1 := n_-_c_le & [ STEM < "cobra" >, SYNSEM [ LKEYS.KEYREL.PRED "_cobra_n_1_rel", PHON.ONSET con ] ]. coburg_n1 := n_-_pn_le & [ STEM < "Coburg" >, SYNSEM [ LKEYS.KEYREL.CARG "Coburg", PHON.ONSET con ] ]. coca_cola_n1 := n_-_pn_le & [ STEM < "Coca", "Cola" >, SYNSEM [ LKEYS.KEYREL.CARG "Coca_Cola", PHON.ONSET con ] ]. coca_cola_n2 := n_-_pn_le & [ STEM < "Coca-", "Cola" >, SYNSEM [ LKEYS.KEYREL.CARG "Coca_Cola", PHON.ONSET con ] ]. cocaine_n1 := n_-_m_le & [ STEM < "cocaine" >, SYNSEM [ LKEYS.KEYREL.PRED "_cocaine_n_1_rel", PHON.ONSET con ] ]. cock_n1 := n_-_c_le & [ STEM < "cock" >, SYNSEM [ LKEYS.KEYREL.PRED "_cock_n_1_rel", PHON.ONSET con ] ]. cock_v1 := v_np_le & [ STEM < "cock" >, SYNSEM [ LKEYS.KEYREL.PRED "_cock_v_1_rel", PHON.ONSET con ] ]. cockpit_n1 := n_-_c_le & [ STEM < "cockpit" >, SYNSEM [ LKEYS.KEYREL.PRED "_cockpit_n_1_rel", PHON.ONSET con ] ]. cockroach_n1 := n_-_c_le & [ STEM < "cockroach" >, SYNSEM [ LKEYS.KEYREL.PRED "_cockroach_n_1_rel", PHON.ONSET con ] ]. cocktail_n1 := n_-_c_le & [ STEM < "cocktail" >, SYNSEM [ LKEYS.KEYREL.PRED "_cocktail_n_1_rel", PHON.ONSET con ] ]. cocky_a1 := aj_-_i_le & [ STEM < "cocky" >, SYNSEM [ LKEYS.KEYREL.PRED "_cocky_a_1_rel", PHON.ONSET con ] ]. coconut_n1 := n_-_mc_le & [ STEM < "coconut" >, SYNSEM [ LKEYS.KEYREL.PRED "_coconut_n_1_rel", PHON.ONSET con ] ]. cod_n1 := n_-_mc_le & [ STEM < "cod" >, SYNSEM [ LKEYS.KEYREL.PRED "_cod_n_1_rel", PHON.ONSET con ] ]. code_n1 := n_-_mc_le & [ STEM < "code" >, SYNSEM [ LKEYS.KEYREL.PRED "_code_n_1_rel", PHON.ONSET con ] ]. code_up_v1 := v_p-np_le & [ STEM < "code" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_code_v_up_rel" ], PHON.ONSET con ] ]. code_v1 := v_np*_le & [ STEM < "code" >, SYNSEM [ LKEYS.KEYREL.PRED "_code_v_1_rel", PHON.ONSET con ] ]. coder_n1 := n_-_c_le & [ STEM < "coder" >, SYNSEM [ LKEYS.KEYREL.PRED "_coder_n_1_rel", PHON.ONSET con ] ]. coefficient_n1 := n_-_c_le & [ STEM < "coefficient" >, SYNSEM [ LKEYS.KEYREL.PRED "_coefficient_n_1_rel", PHON.ONSET con ] ]. coerce_v1 := v_np-vp_oeq_le & [ STEM < "coerce" >, SYNSEM [ LKEYS.KEYREL.PRED "_coerce_v_1_rel", PHON.ONSET con ] ]. coerce_v2 := v_np_le & [ STEM < "coerce" >, SYNSEM [ LKEYS.KEYREL.PRED "_coerce_v_1_rel", PHON.ONSET con ] ]. coercion_n1 := n_-_m_le & [ STEM < "coercion" >, SYNSEM [ LKEYS.KEYREL.PRED "_coercion_n_1_rel", PHON.ONSET con ] ]. coexist_v1 := v_-_le & [ STEM < "coexist" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-exist_v_1_rel", PHON.ONSET con ] ]. coexist_v2 := v_-_le & [ STEM < "co-", "exist" >, SYNSEM [ LKEYS.KEYREL.PRED "_co-exist_v_1_rel", PHON.ONSET con ] ]. coexistence_n1 := n_-_mc_le & [ STEM < "coexistence" >, SYNSEM [ LKEYS.KEYREL.PRED "_coexistence_n_1_rel", PHON.ONSET con ] ]. coexistent_a1 := aj_-_i_le & [ STEM < "coexistent" >, SYNSEM [ LKEYS.KEYREL.PRED "_coexistent_a_1_rel", PHON.ONSET con ] ]. coffee_n1 := n_-_mc_le & [ STEM < "coffee" >, SYNSEM [ LKEYS.KEYREL.PRED "_coffee_n_1_rel", PHON.ONSET con ] ]. coffin_n1 := n_-_c_le & [ STEM < "coffin" >, SYNSEM [ LKEYS.KEYREL.PRED "_coffin_n_1_rel", PHON.ONSET con ] ]. coffin_n2 := n_-_pn_le & [ STEM < "Coffin" >, SYNSEM [ LKEYS.KEYREL.CARG "Coffin", PHON.ONSET con ] ]. cog_n1 := n_-_c-ed_le & [ STEM < "cog" >, SYNSEM [ LKEYS.KEYREL.PRED "_cog_n_1_rel", PHON.ONSET con ] ]. cognac_n1 := n_-_mc_le & [ STEM < "cognac" >, SYNSEM [ LKEYS.KEYREL.PRED "_cognac_n_1_rel", PHON.ONSET con ] ]. cognate_a1 := aj_pp_i_le & [ STEM < "cognate" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_cognate_a_with_rel" ], PHON.ONSET con ] ]. cognitive_a1 := aj_-_i_le & [ STEM < "cognitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_cognitive_a_1_rel", PHON.ONSET con ] ]. cognizance_n1 := n_-_m_le & [ STEM < "cognizance" >, SYNSEM [ LKEYS.KEYREL.PRED "_cognizance_n_1_rel", PHON.ONSET con ] ]. cohabitant_n1 := n_-_c_le & [ STEM < "cohabitant" >, SYNSEM [ LKEYS.KEYREL.PRED "_cohabitant_n_1_rel", PHON.ONSET con ] ]. coherent_a1 := aj_-_i_le & [ STEM < "coherent" >, SYNSEM [ LKEYS.KEYREL.PRED "_coherent_a_1_rel", PHON.ONSET con ] ]. coherently := av_-_i-vp_le & [ STEM < "coherently" >, SYNSEM [ LKEYS.KEYREL.PRED "_coherent_a_1_rel", PHON.ONSET con ] ]. cohesive_a1 := aj_-_i_le & [ STEM < "cohesive" >, SYNSEM [ LKEYS.KEYREL.PRED "_cohesive_a_1_rel", PHON.ONSET con ] ]. coil_n1 := n_-_c_le & [ STEM < "coil" >, SYNSEM [ LKEYS.KEYREL.PRED "_coil_n_1_rel", PHON.ONSET con ] ]. coil_up_v1 := v_p-np_le & [ STEM < "coil" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_coil_v_up_rel" ], PHON.ONSET con ] ]. coil_up_v2 := v_p_le & [ STEM < "coil" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_coil_v_up_rel" ], PHON.ONSET con ] ]. coil_v1 := v_-_le & [ STEM < "coil" >, SYNSEM [ LKEYS.KEYREL.PRED "_coil_v_1_rel", PHON.ONSET con ] ]. coil_v2 := v_np_noger_le & [ STEM < "coil" >, SYNSEM [ LKEYS.KEYREL.PRED "_coil_v_cause_rel", PHON.ONSET con ] ]. coin_n1 := n_-_c_le & [ STEM < "coin" >, SYNSEM [ LKEYS.KEYREL.PRED "_coin_n_1_rel", PHON.ONSET con ] ]. coin_v1 := v_np_le & [ STEM < "coin" >, SYNSEM [ LKEYS.KEYREL.PRED "_coin_v_1_rel", PHON.ONSET con ] ]. coincide_v1 := v_-_le & [ STEM < "coincide" >, SYNSEM [ LKEYS.KEYREL.PRED "_coincide_v_1_rel", PHON.ONSET con ] ]. coincide_with_v1 := v_pp_e_le & [ STEM < "coincide" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_coincide_v_with_rel" ], PHON.ONSET con ] ]. coincidence_n1 := n_-_c_le & [ STEM < "coincidence" >, SYNSEM [ LKEYS.KEYREL.PRED "_coincidence_n_1_rel", PHON.ONSET con ] ]. coincident_a1 := aj_-_i_le & [ STEM < "coincident" >, SYNSEM [ LKEYS.KEYREL.PRED "_coincident_a_1_rel", PHON.ONSET con ] ]. coinciding_isect := aj_-_i-att_le & [ STEM < "coinciding" >, SYNSEM [ LKEYS.KEYREL.PRED "_coinciding_a_1_rel", PHON.ONSET con ] ]. coincidingly := av_-_i-vp_le & [ STEM < "coincidingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_coinciding_a_1_rel", PHON.ONSET con ] ]. coke_n1 := n_-_mc_le & [ STEM < "coke" >, SYNSEM [ LKEYS.KEYREL.PRED "_coke_n_1_rel", PHON.ONSET con ] ]. col_n1 := n_-_c_le & [ STEM < "col" >, SYNSEM [ LKEYS.KEYREL.PRED "_col_n_1_rel", PHON.ONSET con ] ]. cola_n1 := n_-_c_le & [ STEM < "cola" >, SYNSEM [ LKEYS.KEYREL.PRED "_cola_n_1_rel", PHON.ONSET con ] ]. colander_n1 := n_-_c_le & [ STEM < "colander" >, SYNSEM [ LKEYS.KEYREL.PRED "_colander_n_1_rel", PHON.ONSET con ] ]. cold_a1 := aj_-_i_le & [ STEM < "cold" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. cold_a2 := aj_-_i-wthr_le & [ STEM < "cold" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. cold_n := n_-_mc_le & [ STEM < "cold" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_n_1_rel", PHON.ONSET con ] ]. cold_sober_a1 := aj_-_i_le & [ STEM < "cold", "sober" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold+sober_a_1_rel", PHON.ONSET con ] ]. colder_a1 := aj_pp_i-cmp_le & [ STEM < "colder" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. colder_a2 := aj_pp_i-cmp-wthr_le & [ STEM < "colder" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. coldest_a1 := aj_-_i-sup_le & [ STEM < "coldest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. coldest_a2 := aj_-_i-sup-it_le & [ STEM < "coldest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. coldly := av_-_i-vp_le & [ STEM < "coldly" >, SYNSEM [ LKEYS.KEYREL.PRED "_cold_a_1_rel", PHON.ONSET con ] ]. coldness_n1 := n_-_mc_le & [ STEM < "coldness" >, SYNSEM [ LKEYS.KEYREL.PRED "_coldness_n_1_rel", PHON.ONSET con ] ]. coleman_n1 := n_-_pn_le & [ STEM < "Coleman" >, SYNSEM [ LKEYS.KEYREL.CARG "Coleman", PHON.ONSET con ] ]. coleoptera_n1 := n_-_pn_le & [ STEM < "Coleoptera" >, SYNSEM [ LKEYS.KEYREL.CARG "Coleoptera", PHON.ONSET con ] ]. coleridge_n1 := n_-_pn_le & [ STEM < "Coleridge" >, SYNSEM [ LKEYS.KEYREL.CARG "Coleridge", PHON.ONSET con ] ]. colgate := n_-_pn_le & [ STEM < "Colgate" >, SYNSEM [ LKEYS.KEYREL.CARG "Colgate", PHON.ONSET con ] ]. colin_n1 := n_-_pn_le & [ STEM < "Colin" >, SYNSEM [ LKEYS.KEYREL.CARG "Colin", PHON.ONSET con ] ]. colitis_n1 := n_-_m_le & [ STEM < "colitis" >, SYNSEM [ LKEYS.KEYREL.PRED "_colitis_n_1_rel", PHON.ONSET con ] ]. collaborate_v1 := v_-_le & [ STEM < "collaborate" >, SYNSEM [ LKEYS.KEYREL.PRED "_collaborate_v_1_rel", PHON.ONSET con ] ]. collaboration_n1 := n_pp_mc_le & [ STEM < "collaboration" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_collaboration_n_with_rel" ], PHON.ONSET con ] ]. collaborator_n1 := n_-_c_le & [ STEM < "collaborator" >, SYNSEM [ LKEYS.KEYREL.PRED "_collaborator_n_1_rel", PHON.ONSET con ] ]. collapse_n1 := n_-_mc_le & [ STEM < "collapse" >, SYNSEM [ LKEYS.KEYREL.PRED "_collapse_n_1_rel", PHON.ONSET con ] ]. collapse_v1 := v_np_noger_le & [ STEM < "collapse" >, SYNSEM [ LKEYS.KEYREL.PRED "_collapse_v_cause_rel", PHON.ONSET con ] ]. collapse_v2 := v_pp_unacc_le & [ STEM < "collapse" >, SYNSEM [ LKEYS.KEYREL.PRED "_collapse_v_1_rel", PHON.ONSET con ] ]. collar_n1 := n_-_c_le & [ STEM < "collar" >, SYNSEM [ LKEYS.KEYREL.PRED "_collar_n_1_rel", PHON.ONSET con ] ]. collar_v1 := v_np_le & [ STEM < "collar" >, SYNSEM [ LKEYS.KEYREL.PRED "_collar_v_1_rel", PHON.ONSET con ] ]. collateral_a1 := aj_-_i_le & [ STEM < "collateral" >, SYNSEM [ LKEYS.KEYREL.PRED "_collateral_a_1_rel", PHON.ONSET con ] ]. collateral_n1 := n_-_m_le & [ STEM < "collateral" >, SYNSEM [ LKEYS.KEYREL.PRED "_collateral_n_1_rel", PHON.ONSET con ] ]. colleague_n1 := n_-_c_le & [ STEM < "colleague" >, SYNSEM [ LKEYS.KEYREL.PRED "_colleague_n_1_rel", PHON.ONSET con ] ]. collect_v1 := v_np_le & [ STEM < "collect" >, SYNSEM [ LKEYS.KEYREL.PRED "_collect_v_1_rel", PHON.ONSET con ] ]. collection_n := n_pp_c-of_le & [ STEM < "collection" >, SYNSEM [ LKEYS.KEYREL.PRED "_collection_n_of_rel", PHON.ONSET con ] ]. collective_a1 := aj_-_i_le & [ STEM < "collective" >, SYNSEM [ LKEYS.KEYREL.PRED "_collective_a_1_rel", PHON.ONSET con ] ]. collective_n1 := n_-_c-nocnh_le & [ STEM < "collective" >, SYNSEM [ LKEYS.KEYREL.PRED "_collective_n_1_rel", PHON.ONSET con ] ]. collectively_adv := av_-_i-vp_le & [ STEM < "collectively" >, SYNSEM [ LKEYS.KEYREL.PRED "_collective_a_1_rel", PHON.ONSET con ] ]. collector_n1 := n_-_c_le & [ STEM < "collector" >, SYNSEM [ LKEYS.KEYREL.PRED "_collector_n_1_rel", PHON.ONSET con ] ]. college_n1 := n_pp_mc-of_le & [ STEM < "college" >, SYNSEM [ LKEYS.KEYREL.PRED "_college_n_of_rel", PHON.ONSET con ] ]. collins_n1 := n_-_pn_le & [ STEM < "Collins" >, SYNSEM [ LKEYS.KEYREL.CARG "Collins", PHON.ONSET con ] ]. collision_n1 := n_-_mc_le & [ STEM < "collision" >, SYNSEM [ LKEYS.KEYREL.PRED "_collision_n_1_rel", PHON.ONSET con ] ]. collisional_a1 := aj_-_i_le & [ STEM < "collisional" >, SYNSEM [ LKEYS.KEYREL.PRED "_collisional_a_1_rel", PHON.ONSET con ] ]. colloquially := av_-_i-vp_le & [ STEM < "colloquially" >, SYNSEM [ LKEYS.KEYREL.PRED "_colloquial_a_1_rel", PHON.ONSET con ] ]. colloquium_n1 := n_-_c_le & [ STEM < "colloquium" >, SYNSEM [ LKEYS.KEYREL.PRED "_colloquium_n_1_rel", PHON.ONSET con ] ]. cologne_n1 := n_-_pn-city_le & [ STEM < "Cologne" >, SYNSEM [ LKEYS.KEYREL.CARG "Cologne", PHON.ONSET con ] ]. colombia_n1 := n_-_pn_le & [ STEM < "Colombia" >, SYNSEM [ LKEYS.KEYREL.CARG "Colombia", PHON.ONSET con ] ]. colombian_a1 := aj_-_i_le & [ STEM < "Colombian" >, SYNSEM [ LKEYS.KEYREL.PRED "_colombian_a_1_rel", PHON.ONSET con ] ]. colombian_n1 := n_-_c-nocnh_le & [ STEM < "Colombian" >, SYNSEM [ LKEYS.KEYREL.PRED "_colombian_n_1_rel", PHON.ONSET con ] ]. colon_copula_v := v_np_colon_le & [ STEM < ":" >, SYNSEM.PHON.ONSET onset ]. colon_copula_v2 := v_np_colon-nb_le & [ STEM < ":" >, SYNSEM.PHON.ONSET onset ]. colon_copula_v3 := v_nb_colon-nb_le & [ STEM < ":" >, SYNSEM.PHON.ONSET onset ]. colon_n1 := n_-_c_le & [ STEM < "colon" >, SYNSEM [ LKEYS.KEYREL.PRED "_colon_n_1_rel", PHON.ONSET con ] ]. colon_namely := p_np_i-nnm-ngap_le & [ STEM < ":" >, SYNSEM [ LKEYS.KEYREL.PRED _colon_p_namely_rel, PHON.ONSET con ] ]. colon_namely_pp := pp_-_i_le & [ STEM < ":" >, SYNSEM [ LKEYS.KEYREL.PRED _colon_p_namely_rel, PHON.ONSET con ] ]. colon_root_pre := av_-_s-cp-nsp-pr_le & [ STEM < ":" >, SYNSEM [ LKEYS.KEYREL.PRED _colon_p_namely_rel, PHON.ONSET onset ] ]. colon_subord := p_cp_s-cln_le & [ STEM < ":" >, SYNSEM [ LKEYS.KEYREL.PRED _colon_p_namely_rel, PHON.ONSET con ] ]. colonel_n1 := n_-_c_le & [ STEM < "colonel" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonel_n_1_rel", PHON.ONSET con ] ]. colonial_a1 := aj_-_i_le & [ STEM < "colonial" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonial_a_1_rel", PHON.ONSET con ] ]. colonial_n1 := n_-_c_le & [ STEM < "colonial" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonial_n_1_rel", PHON.ONSET con ] ]. colonic_a1 := aj_-_i_le & [ STEM < "colonic" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonic_a_1_rel", PHON.ONSET con ] ]. colonization_n1 := n_-_mc_le & [ STEM < "colonization" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonization_n_1_rel", PHON.ONSET con ] ]. colonization_n1_br := n_-_mc_le & [ STEM < "colonisation" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonization_n_1_rel", PHON.ONSET con ] ]. colonize_v1 := v_np_le & [ STEM < "colonize" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonize_v_1_rel", PHON.ONSET con ] ]. colonnade_n1 := n_-_c_le & [ STEM < "colonnade" >, SYNSEM [ LKEYS.KEYREL.PRED "_colonnade_n_1_rel", PHON.ONSET con ] ]. colony_n1 := n_-_c_le & [ STEM < "colony" >, SYNSEM [ LKEYS.KEYREL.PRED "_colony_n_1_rel", PHON.ONSET con ] ]. color_n1 := n_-_mc-ed_le & [ STEM < "color" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_n_1_rel", PHON.ONSET con ] ]. color_v1 := v_np*_le & [ STEM < "color" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_v_1_rel", PHON.ONSET con ] ]. color_v1_br := v_np*_le & [ DIALECT br, STEM < "colour" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_v_1_rel", PHON.ONSET con ] ]. color_v2 := v_np-prd_oeq_le & [ STEM < "color" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_v_1_rel", PHON.ONSET con ] ]. color_v2_br := v_np-prd_oeq_le & [ DIALECT br, STEM < "colour" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_v_1_rel", PHON.ONSET con ] ]. colorado_n1 := n_-_pn_le & [ STEM < "Colorado" >, SYNSEM [ LKEYS.KEYREL.CARG "Colorado", PHON.ONSET con ] ]. colorado_n2 := n_-_pn-abb_le & [ STEM < "_CO" >, SYNSEM [ LKEYS.KEYREL.CARG "Colorado", PHON.ONSET con ] ]. coloration_n1 := n_-_mc_le & [ STEM < "coloration" >, SYNSEM [ LKEYS.KEYREL.PRED "_coloration_n_1_rel", PHON.ONSET con ] ]. coloration_n1_br := n_-_mc_le & [ DIALECT br, STEM < "colouration" >, SYNSEM [ LKEYS.KEYREL.PRED "_coloration_n_1_rel", PHON.ONSET con ] ]. colorful_isect := aj_-_i_le & [ STEM < "colorful" >, SYNSEM [ LKEYS.KEYREL.PRED "_colorful_a_1_rel", PHON.ONSET con ] ]. colorfully := av_-_i-vp_le & [ STEM < "colorfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_colorful_a_1_rel", PHON.ONSET con ] ]. coloring_n1 := n_-_mc_le & [ STEM < "coloring" >, SYNSEM [ LKEYS.KEYREL.PRED "_coloring_n_1_rel", PHON.ONSET con ] ]. coloring_n1_br := n_-_mc_le & [ STEM < "colouring" >, SYNSEM [ LKEYS.KEYREL.PRED "_coloring_n_1_rel", PHON.ONSET con ] ]. colorline_n1 := n_-_c_le & [ STEM < "colorline" >, SYNSEM [ LKEYS.KEYREL.PRED "_colorline_n_1_rel", PHON.ONSET con ] ]. colour_n1 := n_-_mc-ed_le & [ DIALECT br, STEM < "colour" >, SYNSEM [ LKEYS.KEYREL.PRED "_color_n_1_rel", PHON.ONSET con ] ]. colourful_a1 := aj_-_i_le & [ STEM < "colourful" >, SYNSEM [ LKEYS.KEYREL.PRED "_colourful_a_1_rel", PHON.ONSET con ] ]. colt_n1 := n_-_c_le & [ STEM < "colt" >, SYNSEM [ LKEYS.KEYREL.PRED "_colt_n_1_rel", PHON.ONSET con ] ]. colt_n2 := n_-_pn_le & [ STEM < "Colt" >, SYNSEM [ LKEYS.KEYREL.CARG "Colt", PHON.ONSET con ] ]. columbia_n1 := n_-_pn-city_le & [ STEM < "Columbia" >, SYNSEM [ LKEYS.KEYREL.CARG "Columbia", PHON.ONSET con ] ]. columbian_a1 := aj_-_i_le & [ STEM < "Columbian" >, SYNSEM [ LKEYS.KEYREL.PRED "_columbian_a_1_rel", PHON.ONSET con ] ]. columbus_day_hd := n_np_pn-hol_le & [ STEM < "Columbus", "Day" >, SYNSEM [ LKEYS.KEYREL.CARG "Columbus_Day", PHON.ONSET con ] ]. columbus_n1 := n_-_pn_le & [ STEM < "Columbus" >, SYNSEM [ LKEYS.KEYREL.CARG "Columbus", PHON.ONSET con ] ]. column_n1 := n_pp_c-of_le & [ STEM < "column" >, SYNSEM [ LKEYS.KEYREL.PRED "_column_n_of_rel", PHON.ONSET con ] ]. columnar_a1 := aj_-_i_le & [ STEM < "columnar" >, SYNSEM [ LKEYS.KEYREL.PRED "_columnar_a_1_rel", PHON.ONSET con ] ]. columnist_n1 := n_-_c_le & [ STEM < "columnist" >, SYNSEM [ LKEYS.KEYREL.PRED "_columnist_n_1_rel", PHON.ONSET con ] ]. comb_n1 := n_-_c_le & [ STEM < "comb" >, SYNSEM [ LKEYS.KEYREL.PRED "_comb_n_1_rel", PHON.ONSET con ] ]. comb_out_v1 := v_p-np_le & [ STEM < "comb" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_comb_v_out_rel" ], PHON.ONSET con ] ]. comb_v1 := v_np_le & [ STEM < "comb" >, SYNSEM [ LKEYS.KEYREL.PRED "_comb_v_2_rel", PHON.ONSET con ] ]. combat_n1 := n_-_m_le & [ STEM < "combat" >, SYNSEM [ LKEYS.KEYREL.PRED "_combat_n_1_rel", PHON.ONSET con ] ]. combat_v1 := v_np_le & [ STEM < "combat" >, SYNSEM [ LKEYS.KEYREL.PRED "_combat_v_1_rel", PHON.ONSET con ] ]. combatant_n1 := n_-_c_le & [ STEM < "combatant" >, SYNSEM [ LKEYS.KEYREL.PRED "_combatant_n_1_rel", PHON.ONSET con ] ]. combination_n1 := n_pp_mc-of_le & [ STEM < "combination" >, SYNSEM [ LKEYS.KEYREL.PRED "_combination_n_of_rel", PHON.ONSET con ] ]. combine_n1 := n_-_c_le & [ STEM < "combine" >, SYNSEM [ LKEYS.KEYREL.PRED "_combine_n_1_rel", PHON.ONSET con ] ]. combine_v1 := v_pp*_le & [ STEM < "combine" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, KEYREL.PRED "_combine_v_1_rel" ], PHON.ONSET con ] ]. combine_v2 := v_np_noger_le & [ STEM < "combine" >, SYNSEM [ LKEYS.KEYREL.PRED "_combine_v_cause_rel", PHON.ONSET con ] ]. combine_v3 := v_np-pp_le & [ STEM < "combine" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_rel, KEYREL.PRED "_combine_v_cause_rel" ], PHON.ONSET con ] ]. come_about_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_come_v_about_rel" ], PHON.ONSET con ] ]. come_across_as_v1 := v_p-pp_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _across_p_sel_rel, --OCOMPKEY _as_p_rel, KEYREL.PRED "_come_v_across_rel" ], PHON.ONSET con ] ]. come_across_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _across_p_sel_rel, KEYREL.PRED "_come_v_across_rel" ], PHON.ONSET con ] ]. come_across_v2 := v_pp_e_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _across_p_sel_rel, KEYREL.PRED "_come_v_across_rel" ], PHON.ONSET con ] ]. come_along_v1 := v_p-pp_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _along_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_come_v_along_rel" ], PHON.ONSET con ] ]. come_along_v2 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _along_p_sel_rel, KEYREL.PRED "_come_v_along_rel" ], PHON.ONSET con ] ]. come_around_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _around_p_sel_rel, KEYREL.PRED "_come_v_around_rel" ], PHON.ONSET con ] ]. come_back_v1 := v_p-pp_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_come_v_back_rel" ], PHON.ONSET con ] ]. come_back_v2 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_come_v_back_rel" ], PHON.ONSET con ] ]. come_in_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_come_v_in_rel" ], PHON.ONSET con ] ]. come_into_being_v1_i := v_pp_e-idm_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_come_v_i_rel" ], PHON.ONSET con ] ]. come_of_v1 := v_pp_e_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_come_v_of_rel" ], PHON.ONSET con ] ]. come_on_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_come_v_on_rel" ], PHON.ONSET con ] ]. come_out_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_come_v_out_rel" ], PHON.ONSET con ] ]. come_out_with_v1 := v_p-pp_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, --OCOMPKEY _with_p_rel, KEYREL.PRED "_come_v_out_rel" ], PHON.ONSET con ] ]. come_over_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _over_p_sel_rel, KEYREL.PRED "_come_v_over_rel" ], PHON.ONSET con ] ]. come_together_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _together_p_sel_rel, KEYREL.PRED "_come_v_together_rel" ], PHON.ONSET con ] ]. come_up_v1 := v_p_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_come_v_up_rel" ], PHON.ONSET con ] ]. come_up_with_v1 := v_p-pp_le & [ STEM < "come" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, --OCOMPKEY _with_p_rel, KEYREL.PRED "_come_v_up_rel" ], PHON.ONSET con ] ]. come_v1 := v_pp*_dir_le & [ STEM < "come" >, SYNSEM [ LKEYS.KEYREL.PRED "_come_v_1_rel", PHON.ONSET con ] ]. come_v2 := v_vp_seq_le & [ STEM < "come" >, SYNSEM [ LKEYS.KEYREL.PRED "_come_v_1_rel", PHON.ONSET con ] ]. come_v3 := v_np_locinv_mv_le & [ STEM < "come" >, SYNSEM [ LKEYS.KEYREL.PRED "_come_v_1_rel", PHON.ONSET con ] ]. comedy_n := n_-_c_le & [ STEM < "comedy" >, SYNSEM [ LKEYS.KEYREL.PRED "_comedy_n_1_rel", PHON.ONSET con ] ]. comeliness_n1 := n_-_m_le & [ STEM < "comeliness" >, SYNSEM [ LKEYS.KEYREL.PRED "_comeliness_n_1_rel", PHON.ONSET con ] ]. comely_a1 := aj_-_i_le & [ STEM < "comely" >, SYNSEM [ LKEYS.KEYREL.PRED "_comely_a_1_rel", PHON.ONSET con ] ]. comfort_n := n_-_mc_le & [ STEM < "comfort" >, SYNSEM [ LKEYS.KEYREL.PRED "_comfort_n_1_rel", PHON.ONSET con ] ]. comfort_v1 := v_np_le & [ STEM < "comfort" >, SYNSEM [ LKEYS.KEYREL.PRED "_comfort_v_1_rel", PHON.ONSET con ] ]. comfortable_a1 := aj_-_i_le & [ STEM < "comfortable" >, SYNSEM [ LKEYS.KEYREL.PRED "_comfortable_a_1_rel", PHON.ONSET con ] ]. comfortably := av_-_i-vp_le & [ STEM < "comfortably" >, SYNSEM [ LKEYS.KEYREL.PRED "_comfortable_a_1_rel", PHON.ONSET con ] ]. comforter_n1 := n_-_c_le & [ STEM < "comforter" >, SYNSEM [ LKEYS.KEYREL.PRED "_comforter_n_1_rel", PHON.ONSET con ] ]. comforting_a1 := aj_-_i_le & [ STEM < "comforting" >, SYNSEM [ LKEYS.KEYREL.PRED "_comforting_a_1_rel", PHON.ONSET con ] ]. comic_n := n_-_c_le & [ STEM < "comic" >, SYNSEM [ LKEYS.KEYREL.PRED "_comic_n_1_rel", PHON.ONSET con ] ]. comings_and_goings_n1 := n_-_c-pl-nocnh_le & [ STEM < "comings", "and", "going" >, SYNSEM [ LKEYS.KEYREL.PRED "_comings+and+goings_n_1_rel", PHON.ONSET con ] ]. comma_n := n_-_c_le & [ STEM < "comma" >, SYNSEM [ LKEYS.KEYREL.PRED "_comma_n_1_rel", PHON.ONSET con ] ]. command_n1 := n_-_mc_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_n_1_rel", PHON.ONSET con ] ]. command_n2 := n_vp_c_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_n_1_rel", PHON.ONSET con ] ]. command_n3 := n_cp_c-bse_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_n_1_rel", PHON.ONSET con ] ]. command_v1 := v_np-vp_oeq_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_v_1_rel", PHON.ONSET con ] ]. command_v2 := v_np_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_v_1_rel", PHON.ONSET con ] ]. command_v3 := v_cp_prop_le & [ STEM < "command" >, SYNSEM [ LKEYS.KEYREL.PRED "_command_v_1_rel", PHON.ONSET con ] ]. commander_n1 := n_pp_c-of_le & [ STEM < "commander" >, SYNSEM [ LKEYS.KEYREL.PRED "_commander_n_of_rel", PHON.ONSET con ] ]. commandment_n1 := n_-_c_le & [ STEM < "commandment" >, SYNSEM [ LKEYS.KEYREL.PRED "_commandment_n_1_rel", PHON.ONSET con ] ]. commandment_n2 := n_vp_c_le & [ STEM < "commandment" >, SYNSEM [ LKEYS.KEYREL.PRED "_commandment_n_1_rel", PHON.ONSET con ] ]. commemorate_v1 := v_np_le & [ STEM < "commemorate" >, SYNSEM [ LKEYS.KEYREL.PRED "_commemorate_v_1_rel", PHON.ONSET con ] ]. commemoration_n1 := n_-_mc_le & [ STEM < "commemoration" >, SYNSEM [ LKEYS.KEYREL.PRED "_commemoration_n_1_rel", PHON.ONSET con ] ]. commemorative_a1 := aj_-_i_le & [ STEM < "commemorative" >, SYNSEM [ LKEYS.KEYREL.PRED "_commemorative_a_1_rel", PHON.ONSET con ] ]. commence_v1 := v_np*_le & [ STEM < "commence" >, SYNSEM [ LKEYS.KEYREL.PRED "_commence_v_1_rel", PHON.ONSET con ] ]. commence_v2 := v_vp_ssr-prp_le & [ STEM < "commence" >, SYNSEM [ LKEYS.KEYREL.PRED "_commence_v_1_rel", PHON.ONSET con ] ]. commencement_n1 := n_pp_c-of_le & [ STEM < "commencement" >, SYNSEM [ LKEYS.KEYREL.PRED "_commencement_n_of_rel", PHON.ONSET con ] ]. commend_v1 := v_np-pp_e_le & [ STEM < "commend" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_commend_v_on_rel" ], PHON.ONSET con ] ]. commend_v2 := v_np-pp_e_le & [ STEM < "commend" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_commend_v_for_rel" ], PHON.ONSET con ] ]. commend_v3 := v_np-pp_to_le & [ STEM < "commend" >, SYNSEM [ LKEYS.KEYREL.PRED "_commend_v_to_rel", PHON.ONSET con ] ]. commend_v4 := v_np_le & [ STEM < "commend" >, SYNSEM [ LKEYS.KEYREL.PRED "_commend_v_on_rel", PHON.ONSET con ] ]. commendable_a1 := aj_-_i_le & [ STEM < "commendable" >, SYNSEM [ LKEYS.KEYREL.PRED "_commendable_a_1_rel", PHON.ONSET con ] ]. commensality_n1 := n_-_mc_le & [ STEM < "commensality" >, SYNSEM [ LKEYS.KEYREL.PRED "_commensality_n_1_rel", PHON.ONSET con ] ]. comment_n1 := n_-_c_le & [ STEM < "comment" >, SYNSEM [ LKEYS.KEYREL.PRED "_comment_n_1_rel", PHON.ONSET con ] ]. comment_v1 := v_pp_e_le & [ STEM < "comment" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_comment_v_on_rel" ], PHON.ONSET con ] ]. comment_v2 := v_-_le & [ STEM < "comment" >, SYNSEM [ LKEYS.KEYREL.PRED "_comment_v_1_rel", PHON.ONSET con ] ]. comment_v3 := v_cp_le & [ STEM < "comment" >, SYNSEM [ LKEYS.KEYREL.PRED "_comment_v_1_rel", PHON.ONSET con ] ]. commentary_n1 := n_-_mc_le & [ STEM < "commentary" >, SYNSEM [ LKEYS.KEYREL.PRED "_commentary_n_1_rel", PHON.ONSET con ] ]. commentator_n1 := n_-_c_le & [ STEM < "commentator" >, SYNSEM [ LKEYS.KEYREL.PRED "_commentator_n_1_rel", PHON.ONSET con ] ]. commerce_n1 := n_-_m_le & [ STEM < "commerce" >, SYNSEM [ LKEYS.KEYREL.PRED "_commerce_n_1_rel", PHON.ONSET con ] ]. commercial_a1 := aj_-_i_le & [ STEM < "commercial" >, SYNSEM [ LKEYS.KEYREL.PRED "_commercial_a_1_rel", PHON.ONSET con ] ]. commercial_n1 := n_-_c_le & [ STEM < "commercial" >, SYNSEM [ LKEYS.KEYREL.PRED "_commercial_n_1_rel", PHON.ONSET con ] ]. commercially_adv1 := av_-_i-vp_le & [ STEM < "commercially" >, SYNSEM [ LKEYS.KEYREL.PRED "_commercial_a_1_rel", PHON.ONSET con ] ]. commission_n1 := n_pp_mc-of_le & [ STEM < "commission" >, SYNSEM [ LKEYS.KEYREL.PRED "_commission_n_of_rel", PHON.ONSET con ] ]. commission_v1 := v_np_le & [ STEM < "commission" >, SYNSEM [ LKEYS.KEYREL.PRED "_commission_v_1_rel", PHON.ONSET con ] ]. commission_v2 := v_np-vp_oeq_le & [ STEM < "commission" >, SYNSEM [ LKEYS.KEYREL.PRED "_commission_v_1_rel", PHON.ONSET con ] ]. commissioner_n1 := n_-_c_le & [ STEM < "commissioner" >, SYNSEM [ LKEYS.KEYREL.PRED "_commissioner_n_1_rel", PHON.ONSET con ] ]. commit_n1 := n_-_mc_le & [ STEM < "commit" >, SYNSEM [ LKEYS.KEYREL.PRED "_commit_n_1_rel", PHON.ONSET con ] ]. commit_v1 := v_np-pp*_to_le & [ STEM < "commit" >, SYNSEM [ LKEYS.KEYREL.PRED "_commit_v_to_rel", PHON.ONSET con ] ]. commitment_n1 := n_pp_c_le & [ STEM < "commitment" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_commitment_n_to_rel" ], PHON.ONSET con ] ]. committee_i_n1 := n_-_c-brno_le & [ STEM < "committee" >, SYNSEM [ LKEYS.KEYREL.PRED "_committee_n_of_rel", PHON.ONSET con ] ]. committee_n1 := n_pp_c-of_le & [ STEM < "committee" >, SYNSEM [ LKEYS.KEYREL.PRED "_committee_n_of_rel", PHON.ONSET con ] ]. committeeman_n1 := n_-_c_le & [ STEM < "committeeman" >, SYNSEM [ LKEYS.KEYREL.PRED "_committeeman_n_1_rel", PHON.ONSET con ] ]. commodity_n1 := n_-_c_le & [ STEM < "commodity" >, SYNSEM [ LKEYS.KEYREL.PRED "_commodity_n_1_rel", PHON.ONSET con ] ]. common_a1 := aj_-_i_le & [ STEM < "common" >, SYNSEM [ LKEYS.KEYREL.PRED "_common_a_1_rel", PHON.ONSET con ] ]. common_i_n1 := n_-_c-brno_le & [ STEM < "common" >, SYNSEM [ LKEYS.KEYREL.PRED "_common_n_1_rel", PHON.ONSET con ] ]. commoner := aj_pp_i-cmp_le & [ STEM < "commoner" >, SYNSEM [ LKEYS.KEYREL.PRED "_common_a_1_rel", PHON.ONSET con ] ]. commoner_n1 := n_-_c_le & [ STEM < "commoner" >, SYNSEM [ LKEYS.KEYREL.PRED "_commoner_n_1_rel", PHON.ONSET con ] ]. commonest_a1 := aj_-_i-sup_le & [ STEM < "commonest" >, SYNSEM [ LKEYS.KEYREL.PRED "_common_a_1_rel", PHON.ONSET con ] ]. commonly := av_-_i-vp_le & [ STEM < "commonly" >, SYNSEM [ LKEYS.KEYREL.PRED "_common_a_1_rel", PHON.ONSET con ] ]. commonplace_a1 := aj_-_i_le & [ STEM < "commonplace" >, SYNSEM [ LKEYS.KEYREL.PRED "_commonplace_a_1_rel", PHON.ONSET con ] ]. commonwealth_n1 := n_-_c_le & [ STEM < "commonwealth" >, SYNSEM [ LKEYS.KEYREL.PRED "_commonwealth_n_1_rel", PHON.ONSET con ] ]. commotion_n1 := n_-_mc_le & [ STEM < "commotion" >, SYNSEM [ LKEYS.KEYREL.PRED "_commotion_n_1_rel", PHON.ONSET con ] ]. communal_a1 := aj_-_i_le & [ STEM < "communal" >, SYNSEM [ LKEYS.KEYREL.PRED "_communal_a_1_rel", PHON.ONSET con ] ]. communally := av_-_i-vp_le & [ STEM < "communally" >, SYNSEM [ LKEYS.KEYREL.PRED "_communal_a_1_rel", PHON.ONSET con ] ]. commune_n1 := n_-_c_le & [ STEM < "commune" >, SYNSEM [ LKEYS.KEYREL.PRED "_commune_n_1_rel", PHON.ONSET con ] ]. commune_with_v1 := v_pp_e_le & [ STEM < "commune" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_commune_v_with_rel" ], PHON.ONSET con ] ]. communicate_v1 := v_-_le & [ STEM < "communicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_communicate_v_1_rel", PHON.ONSET con ] ]. communicate_v2 := v_np-pp*_to_le & [ STEM < "communicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_communicate_v_to_rel", PHON.ONSET con ] ]. communicate_v3 := v_pp-cp_fin_le & [ STEM < "communicate" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_communicate_v_to_rel" ], PHON.ONSET con ] ]. communicate_with_v1 := v_pp_e_le & [ STEM < "communicate" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_communicate_v_with_rel" ], PHON.ONSET con ] ]. communication_n1 := n_pp_mc-of_le & [ STEM < "communication" >, SYNSEM [ LKEYS.KEYREL.PRED "_communication_n_of_rel", PHON.ONSET con ] ]. communications_n1 := n_-_c-pl-cpd_le & [ STEM < "communications" >, SYNSEM [ LKEYS.KEYREL.PRED "_communication_n_of_rel", PHON.ONSET con ] ]. communicative_a1 := aj_-_i_le & [ STEM < "communicative" >, SYNSEM [ LKEYS.KEYREL.PRED "_communicative_a_1_rel", PHON.ONSET con ] ]. communion_n1 := n_-_mc_le & [ STEM < "communion" >, SYNSEM [ LKEYS.KEYREL.PRED "_communion_n_1_rel", PHON.ONSET con ] ]. communique_n1 := n_-_c_le & [ STEM < "communique" >, SYNSEM [ LKEYS.KEYREL.PRED "_communique_n_1_rel", PHON.ONSET con ] ]. communism_n1 := n_-_m_le & [ STEM < "communism" >, SYNSEM [ LKEYS.KEYREL.PRED "_communism_n_1_rel", PHON.ONSET con ] ]. communist_a1 := aj_-_i_le & [ STEM < "communist" >, SYNSEM [ LKEYS.KEYREL.PRED "_communist_a_1_rel", PHON.ONSET con ] ]. communist_international_n1 := n_-_pn_le & [ STEM < "Communist", "International" >, SYNSEM [ LKEYS.KEYREL.CARG "Communist_International", PHON.ONSET con ] ]. communist_n1 := n_-_c_le & [ STEM < "communist" >, SYNSEM [ LKEYS.KEYREL.PRED "_communist_n_1_rel", PHON.ONSET con ] ]. community_n1 := n_pp_c-of_le & [ STEM < "community" >, SYNSEM [ LKEYS.KEYREL.PRED "_community_n_of_rel", PHON.ONSET con ] ]. commute_v1 := v_np*_le & [ STEM < "commute" >, SYNSEM [ LKEYS.KEYREL.PRED "_commute_v_1_rel", PHON.ONSET con ] ]. commuter_n1 := n_-_c_le & [ STEM < "commuter" >, SYNSEM [ LKEYS.KEYREL.PRED "_commuter_n_1_rel", PHON.ONSET con ] ]. compact_isect := aj_-_i_le & [ STEM < "compact" >, SYNSEM [ LKEYS.KEYREL.PRED "_compact_a_1_rel", PHON.ONSET con ] ]. compact_n1 := n_-_c_le & [ STEM < "compact" >, SYNSEM [ LKEYS.KEYREL.PRED "_compact_n_1_rel", PHON.ONSET con ] ]. compact_v1 := v_np_noger_le & [ STEM < "compact" >, SYNSEM [ LKEYS.KEYREL.PRED "_compact_v_cause_rel", PHON.ONSET con ] ]. compact_v2 := v_-_unacc_le & [ STEM < "compact" >, SYNSEM [ LKEYS.KEYREL.PRED "_compact_v_1_rel", PHON.ONSET con ] ]. compaction_n1 := n_-_m_le & [ STEM < "compaction" >, SYNSEM [ LKEYS.KEYREL.PRED "_compaction_n_1_rel", PHON.ONSET con ] ]. companies_act_n1 := n_-_c-nm_le & [ STEM < "Companies", "Act" >, SYNSEM [ LKEYS.KEYREL.CARG "Companies+Act", PHON.ONSET con ] ]. companion_n1 := n_-_c_le & [ STEM < "companion" >, SYNSEM [ LKEYS.KEYREL.PRED "_companion_n_1_rel", PHON.ONSET con ] ]. company_n1 := n_pp_mc-of_le & [ STEM < "company" >, SYNSEM [ LKEYS.KEYREL.PRED "_company_n_of_rel", PHON.ONSET con ] ]. company_specific_a1 := aj_-_i_le & [ STEM < "company", "specific" >, SYNSEM [ LKEYS.KEYREL.PRED "_company-specific_a_1_rel", PHON.ONSET con ] ]. company_specific_a2 := aj_-_i_le & [ STEM < "company-", "specific" >, SYNSEM [ LKEYS.KEYREL.PRED "_company-specific_a_1_rel", PHON.ONSET con ] ]. compaq_n1 := n_-_pn_le & [ STEM < "Compaq" >, SYNSEM [ LKEYS.KEYREL.CARG "Compaq", PHON.ONSET con ] ]. comparability_n1 := n_-_m_le & [ STEM < "comparability" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparability_n_1_rel", PHON.ONSET con ] ]. comparable_a1 := aj_-_i_le & [ STEM < "comparable" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparable_a_1_rel", PHON.ONSET con ] ]. comparably_a1 := av_-_i-vp-po_le & [ STEM < "comparably" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparable_a_1_rel", PHON.ONSET con ] ]. comparably_deg := av_-_dg-v_le & [ STEM < "comparably" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparably_x_deg_rel", PHON.ONSET con ] ]. comparative_abb_n1 := n_-_c_le & [ STEM < "compar." >, SYNSEM [ LKEYS.KEYREL.PRED "_comparative_n_1_rel", PHON.ONSET con ] ]. comparative_isect := aj_-_i_le & [ STEM < "comparative" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparative_a_1_rel", PHON.ONSET con ] ]. comparatively := av_-_i-vp_le & [ STEM < "comparatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparative_a_1_rel", PHON.ONSET con ] ]. compare_to_v1 := v_np-pp_e_le & [ STEM < "compare" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_sel_rel, KEYREL.PRED "_compare_v_to_rel" ], PHON.ONSET con ] ]. compare_v1 := v_np_le & [ STEM < "compare" >, SYNSEM [ LKEYS.KEYREL.PRED "_compare_v_1_rel", PHON.ONSET con ] ]. compare_with_v1 := v_np-pp_e_le & [ STEM < "compare" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_compare_v_with_rel" ], PHON.ONSET con ] ]. compare_with_v2 := v_pp_e_le & [ STEM < "compare" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_compare_v_with_rel" ], PHON.ONSET con ] ]. comparison_n1 := n_-_mc_le & [ STEM < "comparison" >, SYNSEM [ LKEYS.KEYREL.PRED "_comparison_n_1_rel", PHON.ONSET con ] ]. compartment_n1 := n_-_c_le & [ STEM < "compartment" >, SYNSEM [ LKEYS.KEYREL.PRED "_compartment_n_1_rel", PHON.ONSET con ] ]. compass_n1 := n_-_c_le & [ STEM < "compass" >, SYNSEM [ LKEYS.KEYREL.PRED "_compass_n_1_rel", PHON.ONSET con ] ]. compassion_n1 := n_pp_m_le & [ STEM < "compassion" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_compassion_n_for_rel" ], PHON.ONSET con ] ]. compatible_isect := aj_pp_i_le & [ STEM < "compatible" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_compatible_a_with_rel" ], PHON.ONSET con ] ]. compatibly := av_-_i-vp_le & [ STEM < "compatibly" >, SYNSEM [ LKEYS.KEYREL.PRED "_compatible_a_with_rel", PHON.ONSET con ] ]. compatriot_n1 := n_-_c_le & [ STEM < "compatriot" >, SYNSEM [ LKEYS.KEYREL.PRED "_compatriot_n_1_rel", PHON.ONSET con ] ]. compel_v1 := v_np-vp_oeq_le & [ STEM < "compel" >, SYNSEM [ LKEYS.KEYREL.PRED "_compel_v_1_rel", PHON.ONSET con ] ]. compel_v2 := v_np_le & [ STEM < "compel" >, SYNSEM [ LKEYS.KEYREL.PRED "_compel_v_1_rel", PHON.ONSET con ] ]. compelling_a1 := aj_-_i_le & [ STEM < "compelling" >, SYNSEM [ LKEYS.KEYREL.PRED "_compelling_a_1_rel", PHON.ONSET con ] ]. compendium_n1 := n_-_c_le & [ STEM < "compendium" >, SYNSEM [ LKEYS.KEYREL.PRED "_compendium_n_1_rel", PHON.ONSET con ] ]. compensate_v1 := v_np*_le & [ STEM < "compensate" >, SYNSEM [ LKEYS.KEYREL.PRED "_compensate_v_1_rel", PHON.ONSET con ] ]. compensate_v2 := v_pp_e_le & [ STEM < "compensate" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_compensate_v_for_rel" ], PHON.ONSET con ] ]. compensation_n1 := n_-_mc_le & [ STEM < "compensation" >, SYNSEM [ LKEYS.KEYREL.PRED "_compensation_n_1_rel", PHON.ONSET con ] ]. compete_v1 := v_-_le & [ STEM < "compete" >, SYNSEM [ LKEYS.KEYREL.PRED "_compete_v_1_rel", PHON.ONSET con ] ]. competence_n1 := n_-_mc_le & [ STEM < "competence" >, SYNSEM [ LKEYS.KEYREL.PRED "_competence_n_1_rel", PHON.ONSET con ] ]. competency_n1 := n_-_mc_le & [ STEM < "competency" >, SYNSEM [ LKEYS.KEYREL.PRED "_competency_n_1_rel", PHON.ONSET con ] ]. competent_a1 := aj_-_i_le & [ STEM < "competent" >, SYNSEM [ LKEYS.KEYREL.PRED "_competent_a_1_rel", PHON.ONSET con ] ]. competent_a2 := aj_vp_i-seq_le & [ STEM < "competent" >, SYNSEM [ LKEYS.KEYREL.PRED "_competent_a_1_rel", PHON.ONSET con ] ]. competently_adv1 := av_-_i-vp_le & [ STEM < "competently" >, SYNSEM [ LKEYS.KEYREL.PRED "_competent_a_1_rel", PHON.ONSET con ] ]. competition_n1 := n_-_mc_le & [ STEM < "competition" >, SYNSEM [ LKEYS.KEYREL.PRED "_competition_n_1_rel", PHON.ONSET con ] ]. competitive_a1 := aj_-_i_le & [ STEM < "competitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_competitive_a_1_rel", PHON.ONSET con ] ]. competitor_n1 := n_-_c_le & [ STEM < "competitor" >, SYNSEM [ LKEYS.KEYREL.PRED "_competitor_n_1_rel", PHON.ONSET con ] ]. compilation_n := n_pp_c-of_le & [ STEM < "compilation" >, SYNSEM [ LKEYS.KEYREL.PRED "_compilation_n_of_rel", PHON.ONSET con ] ]. compile_v1 := v_np*_le & [ STEM < "compile" >, SYNSEM [ LKEYS.KEYREL.PRED "_compile_v_1_rel", PHON.ONSET con ] ]. complain_v1 := v_-_le & [ STEM < "complain" >, SYNSEM [ LKEYS.KEYREL.PRED "_complain_v_1_rel", PHON.ONSET con ] ]. complain_v2 := v_cp_le & [ STEM < "complain" >, SYNSEM [ LKEYS.KEYREL.PRED "_complain_v_1_rel", PHON.ONSET con ] ]. complain_v3 := v_pp*-pp*_le & [ STEM < "complain" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_complain_v_about_rel" ], PHON.ONSET con ] ]. complain_v4 := v_pp_e_le & [ STEM < "complain" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_complain_v_of_rel" ], PHON.ONSET con ] ]. complaint_n1 := n_-_mc_le & [ STEM < "complaint" >, SYNSEM [ LKEYS.KEYREL.PRED "_complaint_n_1_rel", PHON.ONSET con ] ]. complement_n1 := n_-_c_le & [ STEM < "complement" >, SYNSEM [ LKEYS.KEYREL.PRED "_complement_n_1_rel", PHON.ONSET con ] ]. complement_v1 := v_np*_le & [ STEM < "complement" >, SYNSEM [ LKEYS.KEYREL.PRED "_complement_v_1_rel", PHON.ONSET con ] ]. complementary_a1 := aj_-_i_le & [ STEM < "complementary" >, SYNSEM [ LKEYS.KEYREL.PRED "_complementary_a_1_rel", PHON.ONSET con ] ]. complete_a1 := aj_-_i_le & [ STEM < "complete" >, SYNSEM [ LKEYS.KEYREL.PRED "_complete_a_1_rel", PHON.ONSET con ] ]. complete_v1 := v_np_le & [ STEM < "complete" >, SYNSEM [ LKEYS.KEYREL.PRED "_complete_v_2_rel", PHON.ONSET con ] ]. complete_v2 := v_-_unacc_le & [ STEM < "complete" >, SYNSEM [ LKEYS.KEYREL.PRED "_complete_v_1_rel", PHON.ONSET con ] ]. completely := av_-_i-vp_le & [ STEM < "completely" >, SYNSEM [ LKEYS.KEYREL.PRED "_complete_a_1_rel", PHON.ONSET con ] ]. completely_deg := av_-_dg-jov_le & [ STEM < "completely" >, SYNSEM [ LKEYS.KEYREL.PRED "_completely_x_deg_rel", PHON.ONSET con ] ]. completeness_n1 := n_-_m_le & [ STEM < "completeness" >, SYNSEM [ LKEYS.KEYREL.PRED "_completeness_n_1_rel", PHON.ONSET con ] ]. completion_n1 := n_pp_mc-of_le & [ STEM < "completion" >, SYNSEM [ LKEYS.KEYREL.PRED "_completion_n_of_rel", PHON.ONSET con ] ]. complex_a1 := aj_-_i_le & [ STEM < "complex" >, SYNSEM [ LKEYS.KEYREL.PRED "_complex_a_1_rel", PHON.ONSET con ] ]. complex_n1 := n_pp_c-of_le & [ STEM < "complex" >, SYNSEM [ LKEYS.KEYREL.PRED "_complex_n_of_rel", PHON.ONSET con ] ]. complexing_n1 := n_-_m_le & [ STEM < "complexing" >, SYNSEM [ LKEYS.KEYREL.PRED "_complexing_n_1_rel", PHON.ONSET con ] ]. complexion_n1 := n_-_mc_le & [ STEM < "complexion" >, SYNSEM [ LKEYS.KEYREL.PRED "_complexion_n_1_rel", PHON.ONSET con ] ]. complexity_n1 := n_-_mc_le & [ STEM < "complexity" >, SYNSEM [ LKEYS.KEYREL.PRED "_complexity_n_1_rel", PHON.ONSET con ] ]. compliance_n1 := n_-_m_le & [ STEM < "compliance" >, SYNSEM [ LKEYS.KEYREL.PRED "_compliance_n_1_rel", PHON.ONSET con ] ]. complicate_v1 := v_np_le & [ STEM < "complicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_complicate_v_1_rel", PHON.ONSET con ] ]. complicated_a1 := aj_pp_i_le & [ STEM < "complicated" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_complicated_a_for_rel" ], PHON.ONSET con ] ]. complicated_a2 := aj_pp-vp_i-it_le & [ STEM < "complicated" >, SYNSEM [ LKEYS.KEYREL.PRED "_complicated_a_for_rel", PHON.ONSET con ] ]. complication_n1 := n_-_c_le & [ STEM < "complication" >, SYNSEM [ LKEYS.KEYREL.PRED "_complication_n_1_rel", PHON.ONSET con ] ]. compliment_n1 := n_-_c_le & [ STEM < "compliment" >, SYNSEM [ LKEYS.KEYREL.PRED "_compliment_n_1_rel", PHON.ONSET con ] ]. compliment_v1 := v_np-pp_e_le & [ STEM < "compliment" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_compliment_v_on_rel" ], PHON.ONSET con ] ]. compliment_v2 := v_np_le & [ STEM < "compliment" >, SYNSEM [ LKEYS.KEYREL.PRED "_compliment_v_on_rel", PHON.ONSET con ] ]. comply_v1 := v_-_le & [ STEM < "comply" >, SYNSEM [ LKEYS.KEYREL.PRED "_comply_v_with_rel", PHON.ONSET con ] ]. comply_with_v1 := v_pp_e_le & [ STEM < "comply" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_comply_v_with_rel" ], PHON.ONSET con ] ]. component_n1 := n_-_c_le & [ STEM < "component" >, SYNSEM [ LKEYS.KEYREL.PRED "_component_n_1_rel", PHON.ONSET con ] ]. compose_v1 := v_np-vp_oeq_le & [ STEM < "compose" >, SYNSEM [ LKEYS.KEYREL.PRED "_compose_v_1_rel", PHON.ONSET con ] ]. compose_v2 := v_np*_le & [ STEM < "compose" >, SYNSEM [ LKEYS.KEYREL.PRED "_compose_v_1_rel", PHON.ONSET con ] ]. composed_a1 := aj_pp_i-obl_le & [ STEM < "composed" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_composed_a_of_rel" ], PHON.ONSET con ] ]. composer_n1 := n_pp_c-of_le & [ STEM < "composer" >, SYNSEM [ LKEYS.KEYREL.PRED "_composer_n_of_rel", PHON.ONSET con ] ]. composite_a1 := aj_-_i_le & [ STEM < "composite" >, SYNSEM [ LKEYS.KEYREL.PRED "_composite_a_1_rel", PHON.ONSET con ] ]. composite_n1 := n_-_c_le & [ STEM < "composite" >, SYNSEM [ LKEYS.KEYREL.PRED "_composite_n_1_rel", PHON.ONSET con ] ]. composition_n1 := n_-_mc_le & [ STEM < "composition" >, SYNSEM [ LKEYS.KEYREL.PRED "_composition_n_1_rel", PHON.ONSET con ] ]. compositor_n1 := n_-_c_le & [ STEM < "compositor" >, SYNSEM [ LKEYS.KEYREL.PRED "_compositor_n_1_rel", PHON.ONSET con ] ]. compost_n1 := n_-_mc_le & [ STEM < "compost" >, SYNSEM [ LKEYS.KEYREL.PRED "_compost_n_1_rel", PHON.ONSET con ] ]. compost_v1 := v_np*_le & [ STEM < "compost" >, SYNSEM [ LKEYS.KEYREL.PRED "_compost_v_1_rel", PHON.ONSET con ] ]. composure_n1 := n_-_mc_le & [ STEM < "composure" >, SYNSEM [ LKEYS.KEYREL.PRED "_composure_n_1_rel", PHON.ONSET con ] ]. compound_n1 := n_-_c_le & [ STEM < "compound" >, SYNSEM [ LKEYS.KEYREL.PRED "_compound_n_1_rel", PHON.ONSET con ] ]. compound_v1 := v_np*_le & [ STEM < "compound" >, SYNSEM [ LKEYS.KEYREL.PRED "_compound_v_1_rel", PHON.ONSET con ] ]. comprehend_v1 := v_np*_le & [ STEM < "comprehend" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehend_v_1_rel", PHON.ONSET con ] ]. comprehend_v2 := v_cp_le & [ STEM < "comprehend" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehend_v_1_rel", PHON.ONSET con ] ]. comprehend_v3 := v_np-vp_oeq_le & [ STEM < "comprehend" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehend_v_1_rel", PHON.ONSET con ] ]. comprehensible_a1 := aj_-_i_le & [ STEM < "comprehensible" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehensible_a_1_rel", PHON.ONSET con ] ]. comprehensibly := av_-_i-vp_le & [ STEM < "comprehensibly" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehensible_a_1_rel", PHON.ONSET con ] ]. comprehension_n1 := n_-_m_le & [ STEM < "comprehension" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehension_n_1_rel", PHON.ONSET con ] ]. comprehensive_a1 := aj_-_i_le & [ STEM < "comprehensive" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprehensive_a_1_rel", PHON.ONSET con ] ]. compress_n1 := n_-_c_le & [ STEM < "compress" >, SYNSEM [ LKEYS.KEYREL.PRED "_compress_n_1_rel", PHON.ONSET con ] ]. compress_v1 := v_np_le & [ STEM < "compress" >, SYNSEM [ LKEYS.KEYREL.PRED "_compress_v_1_rel", PHON.ONSET con ] ]. compressible_a1 := aj_-_i_le & [ STEM < "compressible" >, SYNSEM [ LKEYS.KEYREL.PRED "_compressible_a_1_rel", PHON.ONSET con ] ]. compression_n1 := n_pp_mc-of_le & [ STEM < "compression" >, SYNSEM [ LKEYS.KEYREL.PRED "_compression_n_of_rel", PHON.ONSET con ] ]. comprise_v1 := v_np_le & [ STEM < "comprise" >, SYNSEM [ LKEYS.KEYREL.PRED "_comprise_v_1_rel", PHON.ONSET con ] ]. compromise_n1 := n_-_c_le & [ STEM < "compromise" >, SYNSEM [ LKEYS.KEYREL.PRED "_compromise_n_1_rel", PHON.ONSET con ] ]. compromise_v1 := v_np_le & [ STEM < "compromise" >, SYNSEM [ LKEYS.KEYREL.PRED "_compromise_v_1_rel", PHON.ONSET con ] ]. compsci_n1 := n_-_pn_le & [ STEM < "Compsci" >, SYNSEM [ LKEYS.KEYREL.CARG "Compsci", PHON.ONSET con ] ]. compson_n1 := n_-_pn_le & [ STEM < "Compson" >, SYNSEM [ LKEYS.KEYREL.CARG "Compson", PHON.ONSET con ] ]. compulsory_a1 := aj_-_i_le & [ STEM < "compulsory" >, SYNSEM [ LKEYS.KEYREL.PRED "_compulsory_a_1_rel", PHON.ONSET con ] ]. compusa_n1 := n_-_pn_le & [ STEM < "Compusa" >, SYNSEM [ LKEYS.KEYREL.CARG "Compusa", PHON.ONSET con ] ]. computation_n1 := n_-_mc_le & [ STEM < "computation" >, SYNSEM [ LKEYS.KEYREL.PRED "_computation_n_1_rel", PHON.ONSET con ] ]. compute_v1 := v_np_le & [ STEM < "compute" >, SYNSEM [ LKEYS.KEYREL.PRED "_compute_v_1_rel", PHON.ONSET con ] ]. computer_n1 := n_-_c_le & [ STEM < "computer" >, SYNSEM [ LKEYS.KEYREL.PRED "_computer_n_1_rel", PHON.ONSET con ] ]. computer_science_n1 := n_-_m_le & [ STEM < "computer", "science" >, SYNSEM [ LKEYS.KEYREL.PRED "_computer+science_n_1_rel", PHON.ONSET con ] ]. computerize_v1 := v_np_le & [ STEM < "computerize" >, SYNSEM [ LKEYS.KEYREL.PRED "_computerize_v_1_rel", PHON.ONSET con ] ]. computerize_v1_br := v_np_le & [ DIALECT br, STEM < "computerise" >, SYNSEM [ LKEYS.KEYREL.PRED "_computerize_v_1_rel", PHON.ONSET con ] ]. comrade_n1 := n_-_c_le & [ STEM < "comrade" >, SYNSEM [ LKEYS.KEYREL.PRED "_comrade_n_1_rel", PHON.ONSET con ] ]. con_into_v1 := v_np-pp_e_le & [ STEM < "con" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_con_v_into_rel" ], PHON.ONSET con ] ]. con_n1 := n_-_c_le & [ STEM < "con" >, SYNSEM [ LKEYS.KEYREL.PRED "_con_n_1_rel", PHON.ONSET con ] ]. con_out_of_v1 := v_np-pp_e_le & [ STEM < "con" >, SYNSEM [ LKEYS [ --OCOMPKEY _out+of_p_sel_rel, KEYREL.PRED "_con_v_out+of_rel" ], PHON.ONSET con ] ]. con_v1 := v_np_le & [ STEM < "con" >, SYNSEM [ LKEYS.KEYREL.PRED "_con_v_1_rel", PHON.ONSET con ] ]. conan_n1 := n_-_pn_le & [ STEM < "Conan" >, SYNSEM [ LKEYS.KEYREL.CARG "Conan", PHON.ONSET con ] ]. concave_a1 := aj_-_i_le & [ STEM < "concave" >, SYNSEM [ LKEYS.KEYREL.PRED "_concave_a_1_rel", PHON.ONSET con ] ]. concave_n1 := n_-_c_le & [ STEM < "concave" >, SYNSEM [ LKEYS.KEYREL.PRED "_concave_n_1_rel", PHON.ONSET con ] ]. conceal_v1 := v_np-pp_e_le & [ STEM < "conceal" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_conceal_v_from_rel" ], PHON.ONSET con ] ]. conceal_v2 := v_np_le & [ STEM < "conceal" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceal_v_from_rel", PHON.ONSET con ] ]. concealment_n1 := n_-_mc_le & [ STEM < "concealment" >, SYNSEM [ LKEYS.KEYREL.PRED "_concealment_n_1_rel", PHON.ONSET con ] ]. concede_v1 := v_np*_le & [ STEM < "concede" >, SYNSEM [ LKEYS.KEYREL.PRED "_concede_v_1_rel", PHON.ONSET con ] ]. concede_v2 := v_cp_le & [ STEM < "concede" >, SYNSEM [ LKEYS.KEYREL.PRED "_concede_v_1_rel", PHON.ONSET con ] ]. concede_v3 := v_np-vp_oeq_le & [ STEM < "concede" >, SYNSEM [ LKEYS.KEYREL.PRED "_concede_v_1_rel", PHON.ONSET con ] ]. conceit_n1 := n_-_mc_le & [ STEM < "conceit" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceit_n_1_rel", PHON.ONSET con ] ]. conceivable_a1 := aj_-_i_le & [ STEM < "conceivable" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceivable_a_to_rel", PHON.ONSET con ] ]. conceivable_a2 := aj_pp-cp_i-it_le & [ STEM < "conceivable" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceivable_a_to_rel", PHON.ONSET con ] ]. conceivably_a1 := av_-_i-vp_le & [ STEM < "conceivably" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceivable_a_1_rel", PHON.ONSET con ] ]. conceive_of_v1 := v_pp_e_le & [ STEM < "conceive" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_conceive_v_of_rel" ], PHON.ONSET con ] ]. conceive_v1 := v_np*_le & [ STEM < "conceive" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceive_v_1_rel", PHON.ONSET con ] ]. conceive_v2 := v_cp_le & [ STEM < "conceive" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceive_v_1_rel", PHON.ONSET con ] ]. conceive_v3 := v_np-vp_oeq_le & [ STEM < "conceive" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceive_v_1_rel", PHON.ONSET con ] ]. concentrate_n1 := n_-_mc_le & [ STEM < "concentrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_concentrate_n_1_rel", PHON.ONSET con ] ]. concentrate_v1 := v_pp_e_le & [ STEM < "concentrate" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_concentrate_v_on_rel" ], PHON.ONSET con ] ]. concentrate_v2 := v_-_le & [ STEM < "concentrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_concentrate_v_1_rel", PHON.ONSET con ] ]. concentrate_v3 := v_np-pp_e_le & [ STEM < "concentrate" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_concentrate_v_on_rel" ], PHON.ONSET con ] ]. concentrate_v4 := v_np_le & [ STEM < "concentrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_concentrate_v_on_rel", PHON.ONSET con ] ]. concentrated_isect := aj_-_i_le & [ STEM < "concentrated" >, SYNSEM [ LKEYS.KEYREL.PRED "_concentrated_a_1_rel", PHON.ONSET con ] ]. concentration_n1 := n_pp_mc-of_le & [ STEM < "concentration" >, SYNSEM [ LKEYS.KEYREL.PRED "_concentration_n_of_rel", PHON.ONSET con ] ]. concept_n1 := n_-_c_le & [ STEM < "concept" >, SYNSEM [ LKEYS.KEYREL.PRED "_concept_n_1_rel", PHON.ONSET con ] ]. conceptacle_n1 := n_-_c_le & [ STEM < "conceptacle" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceptacle_n_1_rel", PHON.ONSET con ] ]. conception_n1 := n_pp_c-of_le & [ STEM < "conception" >, SYNSEM [ LKEYS.KEYREL.PRED "_conception_n_of_rel", PHON.ONSET con ] ]. conceptual_a1 := aj_-_i_le & [ STEM < "conceptual" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceptual_a_1_rel", PHON.ONSET con ] ]. conceptually_isect := av_-_i-vp_le & [ STEM < "conceptually" >, SYNSEM [ LKEYS.KEYREL.PRED "_conceptual_a_1_rel", PHON.ONSET con ] ]. concern_n1 := n_-_mc_le & [ STEM < "concern" >, SYNSEM [ LKEYS.KEYREL.PRED "_concern_n_1_rel", PHON.ONSET con ] ]. concern_v1 := v_np_le & [ STEM < "concern" >, SYNSEM [ LKEYS.KEYREL.PRED "_concern_v_1_rel", PHON.ONSET con ] ]. concern_v2 := v_np-pp_e_le & [ STEM < "concern" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_concern_v_with_rel" ], PHON.ONSET con ] ]. concern_v3 := v_np-cp_it-s_le & [ STEM < "concern" >, SYNSEM [ LKEYS.KEYREL.PRED "_concern_v_about_rel", PHON.ONSET con ] ]. concerned_a1 := aj_pp_i_le & [ STEM < "concerned" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_concerned_a_about_rel" ], PHON.ONSET con ] ]. concerned_a2 := aj_cp_i-fin_le & [ STEM < "concerned" >, SYNSEM [ LKEYS.KEYREL.PRED "_concerned_a_about_rel", PHON.ONSET con ] ]. concerned_a3 := aj_pp_i-obl_le & [ STEM < "concerned" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_concerned_a_with_rel" ], PHON.ONSET con ] ]. concerning_p := p_np_i_le & [ STEM < "concerning" >, SYNSEM [ LKEYS.KEYREL.PRED _concerning_p_rel, PHON.ONSET con ] ]. concert-goer_n1 := n_-_c_le & [ STEM < "concert", "goer" >, SYNSEM [ LKEYS.KEYREL.PRED "_concertgoer_n_1_rel", PHON.ONSET con ] ]. concert-goer_n2 := n_-_c_le & [ STEM < "concertgoer" >, SYNSEM [ LKEYS.KEYREL.PRED "_concertgoer_n_1_rel", PHON.ONSET con ] ]. concert_i_n1 := n_-_c-brno_le & [ STEM < "concert" >, SYNSEM [ LKEYS.KEYREL.PRED "_concert_n_1_rel", PHON.ONSET con ] ]. concert_n1 := n_-_c_le & [ STEM < "concert" >, SYNSEM [ LKEYS.KEYREL.PRED "_concert_n_1_rel", PHON.ONSET con ] ]. concerted_a1 := aj_-_i_le & [ STEM < "concerted" >, SYNSEM [ LKEYS.KEYREL.PRED "_concerted_a_1_rel", PHON.ONSET con ] ]. concession_n1 := n_-_c_le & [ STEM < "concession" >, SYNSEM [ LKEYS.KEYREL.PRED "_concession_n_1_rel", PHON.ONSET con ] ]. concessionaire_n1 := n_-_c_le & [ STEM < "concessionaire" >, SYNSEM [ LKEYS.KEYREL.PRED "_concessionaire_n_1_rel", PHON.ONSET con ] ]. concetta_n1 := n_-_pn_le & [ STEM < "Concetta" >, SYNSEM [ LKEYS.KEYREL.CARG "Concetta", PHON.ONSET con ] ]. concierge_n1 := n_-_c_le & [ STEM < "concierge" >, SYNSEM [ LKEYS.KEYREL.PRED "_concierge_n_1_rel", PHON.ONSET con ] ]. concise_a1 := aj_-_i_le & [ STEM < "concise" >, SYNSEM [ LKEYS.KEYREL.PRED "_concise_a_1_rel", PHON.ONSET con ] ]. conclave_n1 := n_-_c_le & [ STEM < "conclave" >, SYNSEM [ LKEYS.KEYREL.PRED "_conclave_n_1_rel", PHON.ONSET con ] ]. conclude_v1 := v_pp-cp_fin_le & [ STEM < "conclude" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_conclude_v_1_rel" ], PHON.ONSET con ] ]. conclude_v2 := v_np*_le & [ STEM < "conclude" >, SYNSEM [ LKEYS.KEYREL.PRED "_conclude_v_1_rel", PHON.ONSET con ] ]. conclusion_n1 := n_pp_mc-of-ns_le & [ STEM < "conclusion" >, SYNSEM [ LKEYS.KEYREL.PRED "_conclusion_n_of_rel", PHON.ONSET con ] ]. conclusion_n2 := n_cp_mc-fin_le & [ STEM < "conclusion" >, SYNSEM [ LKEYS.KEYREL.PRED "_conclusion_n_of_rel", PHON.ONSET con ] ]. conclusive_a1 := aj_-_i_le & [ STEM < "conclusive" >, SYNSEM [ LKEYS.KEYREL.PRED "_conclusive_a_1_rel", PHON.ONSET con ] ]. concomitant_a1 := aj_-_i_le & [ STEM < "concomitant" >, SYNSEM [ LKEYS.KEYREL.PRED "_concomitant_a_1_rel", PHON.ONSET con ] ]. concorde_n1 := n_-_pn_le & [ STEM < "Concorde" >, SYNSEM [ LKEYS.KEYREL.CARG "Concorde", PHON.ONSET con ] ]. concrete_a1 := aj_-_i_le & [ STEM < "concrete" >, SYNSEM [ LKEYS.KEYREL.PRED "_concrete_a_1_rel", PHON.ONSET con ] ]. concrete_n1 := n_-_m_le & [ STEM < "concrete" >, SYNSEM [ LKEYS.KEYREL.PRED "_concrete_n_1_rel", PHON.ONSET con ] ]. concretely_isect := av_-_i-vp_le & [ STEM < "concretely" >, SYNSEM [ LKEYS.KEYREL.PRED "_concrete_a_1_rel", PHON.ONSET con ] ]. concretion_n1 := n_-_mc_le & [ STEM < "concretion" >, SYNSEM [ LKEYS.KEYREL.PRED "_concretion_n_1_rel", PHON.ONSET con ] ]. concurrent_a1 := aj_-_i_le & [ STEM < "concurrent" >, SYNSEM [ LKEYS.KEYREL.PRED "_concurrent_a_1_rel", PHON.ONSET con ] ]. concurrently_adv1 := av_-_i-vp_le & [ STEM < "concurrently" >, SYNSEM [ LKEYS.KEYREL.PRED "_concurrent_a_1_rel", PHON.ONSET con ] ]. condemn_v1 := v_np-pp*_to_le & [ STEM < "condemn" >, SYNSEM [ LKEYS.KEYREL.PRED "_condemn_v_to_rel", PHON.ONSET con ] ]. condemn_v2 := v_np-pp_oeq-as_le & [ STEM < "condemn" >, SYNSEM [ LKEYS.KEYREL.PRED "_condemn_v_as_rel", PHON.ONSET con ] ]. condensate_n1 := n_-_mc_le & [ STEM < "condensate" >, SYNSEM [ LKEYS.KEYREL.PRED "_condensate_n_1_rel", PHON.ONSET con ] ]. condensation_n1 := n_-_mc_le & [ STEM < "condensation" >, SYNSEM [ LKEYS.KEYREL.PRED "_condensation_n_1_rel", PHON.ONSET con ] ]. condense_v1 := v_np_noger_le & [ STEM < "condense" >, SYNSEM [ LKEYS.KEYREL.PRED "_condense_v_cause_rel", PHON.ONSET con ] ]. condense_v2 := v_-_unacc_le & [ STEM < "condense" >, SYNSEM [ LKEYS.KEYREL.PRED "_condense_v_1_rel", PHON.ONSET con ] ]. condenser_n1 := n_pp_c-of_le & [ STEM < "condenser" >, SYNSEM [ LKEYS.KEYREL.PRED "_condenser_n_of_rel", PHON.ONSET con ] ]. condition_n1 := n_-_mc_le & [ STEM < "condition" >, SYNSEM [ LKEYS.KEYREL.PRED "_condition_n_1_rel", PHON.ONSET con ] ]. condition_n2 := n_cp_mc-fin_le & [ STEM < "condition" >, SYNSEM [ LKEYS.KEYREL.PRED "_condition_n_1_rel", PHON.ONSET con ] ]. condition_on_v1 := v_np-pp_e_le & [ STEM < "condition" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_condition_v_on_rel" ], PHON.ONSET con ] ]. condition_v1 := v_np_le & [ STEM < "condition" >, SYNSEM [ LKEYS.KEYREL.PRED "_condition_v_1_rel", PHON.ONSET con ] ]. condition_v2 := v_np-vp_oeq_le & [ STEM < "condition" >, SYNSEM [ LKEYS.KEYREL.PRED "_condition_v_1_rel", PHON.ONSET con ] ]. conditional_a1 := aj_-_i_le & [ STEM < "conditional" >, SYNSEM [ LKEYS.KEYREL.PRED "_conditional_a_1_rel", PHON.ONSET con ] ]. conditional_n1 := n_-_c-nocnh_le & [ STEM < "conditional" >, SYNSEM [ LKEYS.KEYREL.PRED "_conditional_n_1_rel", PHON.ONSET con ] ]. conditioner_n1 := n_-_mc_le & [ STEM < "conditioner" >, SYNSEM [ LKEYS.KEYREL.PRED "_conditioner_n_1_rel", PHON.ONSET con ] ]. condo_n1 := n_-_c_le & [ STEM < "condo" >, SYNSEM [ LKEYS.KEYREL.PRED "_condo_n_1_rel", PHON.ONSET con ] ]. condom_n1 := n_-_c_le & [ STEM < "condom" >, SYNSEM [ LKEYS.KEYREL.PRED "_condom_n_1_rel", PHON.ONSET con ] ]. condor_n1 := n_-_pn_le & [ STEM < "Condor" >, SYNSEM [ LKEYS.KEYREL.CARG "Condor", PHON.ONSET con ] ]. conduce_v1 := v_-_le & [ STEM < "conduce" >, SYNSEM [ LKEYS.KEYREL.PRED "_conduce_v_1_rel", PHON.ONSET con ] ]. conducive_a1 := aj_pp_i_le & [ STEM < "conducive" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_conducive_a_to_rel" ], PHON.ONSET con ] ]. conduct_n1 := n_-_mc_le & [ STEM < "conduct" >, SYNSEM [ LKEYS.KEYREL.PRED "_conduct_n_1_rel", PHON.ONSET con ] ]. conduct_v1 := v_np*_le & [ STEM < "conduct" >, SYNSEM [ LKEYS.KEYREL.PRED "_conduct_v_1_rel", PHON.ONSET con ] ]. conduction_n1 := n_-_m_le & [ STEM < "conduction" >, SYNSEM [ LKEYS.KEYREL.PRED "_conduction_n_1_rel", PHON.ONSET con ] ]. conductive_a1 := aj_-_i_le & [ STEM < "conductive" >, SYNSEM [ LKEYS.KEYREL.PRED "_conductive_a_1_rel", PHON.ONSET con ] ]. conductivity_n1 := n_-_mc_le & [ STEM < "conductivity" >, SYNSEM [ LKEYS.KEYREL.PRED "_conductivity_n_1_rel", PHON.ONSET con ] ]. conductor_n1 := n_pp_c-of_le & [ STEM < "conductor" >, SYNSEM [ LKEYS.KEYREL.PRED "_conductor_n_of_rel", PHON.ONSET con ] ]. cone_n1 := n_pp_c-of_le & [ STEM < "cone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cone_n_of_rel", PHON.ONSET con ] ]. confederacy_n1 := n_-_mc_le & [ STEM < "confederacy" >, SYNSEM [ LKEYS.KEYREL.PRED "_confederacy_n_1_rel", PHON.ONSET con ] ]. confederate_a1 := aj_-_i_le & [ STEM < "confederate" >, SYNSEM [ LKEYS.KEYREL.PRED "_confederate_a_1_rel", PHON.ONSET con ] ]. confederate_n1 := n_-_c_le & [ STEM < "confederate" >, SYNSEM [ LKEYS.KEYREL.PRED "_confederate_n_1_rel", PHON.ONSET con ] ]. confer_v1 := v_-_le & [ STEM < "confer" >, SYNSEM [ LKEYS.KEYREL.PRED "_confer_v_1_rel", PHON.ONSET con ] ]. confer_v2 := v_np-pp_e_le & [ STEM < "confer" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_confer_v_on_rel" ], PHON.ONSET con ] ]. confer_v3 := v_np_le & [ STEM < "confer" >, SYNSEM [ LKEYS.KEYREL.PRED "_confer_v_on_rel", PHON.ONSET con ] ]. conference_n1 := n_pp_c-of_le & [ STEM < "conference" >, SYNSEM [ LKEYS.KEYREL.PRED "_conference_n_of_rel", PHON.ONSET con ] ]. confess_v1 := v_np-pp*_to_le & [ STEM < "confess" >, SYNSEM [ LKEYS.KEYREL.PRED "_confess_v_to_rel", PHON.ONSET con ] ]. confess_v2 := v_pp-cp_fin_le & [ STEM < "confess" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_confess_v_1_rel" ], PHON.ONSET con ] ]. confess_v3 := v_pp_e_le & [ STEM < "confess" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_confess_v_to_rel" ], PHON.ONSET con ] ]. confession_n1 := n_-_mc_le & [ STEM < "confession" >, SYNSEM [ LKEYS.KEYREL.PRED "_confession_n_1_rel", PHON.ONSET con ] ]. confidant_n1 := n_-_c_le & [ STEM < "confidant" >, SYNSEM [ LKEYS.KEYREL.PRED "_confidant_n_1_rel", PHON.ONSET con ] ]. confide_v1 := v_np-pp*_to_le & [ STEM < "confide" >, SYNSEM [ LKEYS.KEYREL.PRED "_confide_v_to_rel", PHON.ONSET con ] ]. confide_v2 := v_pp-cp_fin_le & [ STEM < "confide" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_confide_v_to_rel" ], PHON.ONSET con ] ]. confide_v3 := v_pp_e_le & [ STEM < "confide" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_confide_v_to_rel" ], PHON.ONSET con ] ]. confide_v4 := v_pp_e_le & [ STEM < "confide" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_confide_v_in_rel" ], PHON.ONSET con ] ]. confidence_n1 := n_-_mc_le & [ STEM < "confidence" >, SYNSEM [ LKEYS.KEYREL.PRED "_confidence_n_1_rel", PHON.ONSET con ] ]. confident_a1 := aj_cp_i_le & [ STEM < "confident" >, SYNSEM [ LKEYS.KEYREL.PRED "_confident_a_of-about_rel", PHON.ONSET con ] ]. confident_a2 := aj_pp_i-obl_le & [ STEM < "confident" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_confident_a_of-about_rel" ], PHON.ONSET con ] ]. confident_a3 := aj_pp_i_le & [ STEM < "confident" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_confident_a_of-about_rel" ], PHON.ONSET con ] ]. confidential_a1 := aj_-_i_le & [ STEM < "confidential" >, SYNSEM [ LKEYS.KEYREL.PRED "_confidential_a_1_rel", PHON.ONSET con ] ]. confidentiality_n1 := n_-_m_le & [ STEM < "confidentiality" >, SYNSEM [ LKEYS.KEYREL.PRED "_confidentiality_n_1_rel", PHON.ONSET con ] ]. configuration_n1 := n_pp_mc-of_le & [ STEM < "configuration" >, SYNSEM [ LKEYS.KEYREL.PRED "_configuration_n_of_rel", PHON.ONSET con ] ]. configure_v1 := v_np_le & [ STEM < "configure" >, SYNSEM [ LKEYS.KEYREL.PRED "_configure_v_1_rel", PHON.ONSET con ] ]. configure_v2 := v_np-vp_oeq_le & [ STEM < "configure" >, SYNSEM [ LKEYS.KEYREL.PRED "_configure_v_1_rel", PHON.ONSET con ] ]. confine_v1 := v_np-pp*_to_le & [ STEM < "confine" >, SYNSEM [ LKEYS.KEYREL.PRED "_confine_v_to_rel", PHON.ONSET con ] ]. confined_a1 := aj_-_i_le & [ STEM < "confined" >, SYNSEM [ LKEYS.KEYREL.PRED "_confined_a_1_rel", PHON.ONSET con ] ]. confinement_n1 := n_-_mc_le & [ STEM < "confinement" >, SYNSEM [ LKEYS.KEYREL.PRED "_confinement_n_1_rel", PHON.ONSET con ] ]. confines_n1 := n_-_c-pl-nocnh_le & [ STEM < "confines" >, SYNSEM [ LKEYS.KEYREL.PRED "_confines_n_1_rel", PHON.ONSET con ] ]. confirm_v1 := v_np*_le & [ STEM < "confirm" >, SYNSEM [ LKEYS.KEYREL.PRED "_confirm_v_1_rel", PHON.ONSET con ] ]. confirm_v2 := v_pp-cp_fin_le & [ STEM < "confirm" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_confirm_v_1_rel" ], PHON.ONSET con ] ]. confirm_v3 := v_np-pp_oeq-as_le & [ STEM < "confirm" >, SYNSEM [ LKEYS.KEYREL.PRED "_confirm_v_as_rel", PHON.ONSET con ] ]. confirmation_n1 := n_pp_mc-of_le & [ STEM < "confirmation" >, SYNSEM [ LKEYS.KEYREL.PRED "_confirmation_n_of_rel", PHON.ONSET con ] ]. confirmation_n3x := n_cp_mc-fin_le & [ STEM < "confirmation" >, SYNSEM [ LKEYS.KEYREL.PRED "_confirmation_n_of_rel", PHON.ONSET con ] ]. confirmed_a1 := aj_-_i_le & [ STEM < "confirmed" >, SYNSEM [ LKEYS.KEYREL.PRED "_confirmed_a_1_rel", PHON.ONSET con ] ]. confiscate_v1 := v_np_le & [ STEM < "confiscate" >, SYNSEM [ LKEYS.KEYREL.PRED "_confiscate_v_1_rel", PHON.ONSET con ] ]. conflict_n1 := n_-_mc_le & [ STEM < "conflict" >, SYNSEM [ LKEYS.KEYREL.PRED "_conflict_n_1_rel", PHON.ONSET con ] ]. conflict_v1 := v_pp*-pp*_le & [ STEM < "conflict" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_conflict_v_1_rel" ], PHON.ONSET con ] ]. conflict_v2 := v_pp_e_le & [ STEM < "conflict" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_conflict_v_on_rel" ], PHON.ONSET con ] ]. conflicting_isect := aj_-_i_le & [ STEM < "conflicting" >, SYNSEM [ LKEYS.KEYREL.PRED "_conflicting_a_1_rel", PHON.ONSET con ] ]. confluence_n1 := n_-_c_le & [ STEM < "confluence" >, SYNSEM [ LKEYS.KEYREL.PRED "_confluence_n_1_rel", PHON.ONSET con ] ]. conform_v1 := v_pp_e_le & [ STEM < "conform" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_conform_v_to_rel" ], PHON.ONSET con ] ]. conform_v2 := v_-_le & [ STEM < "conform" >, SYNSEM [ LKEYS.KEYREL.PRED "_conform_v_1_rel", PHON.ONSET con ] ]. conform_v3 := v_pp_e_le & [ STEM < "conform" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_conform_v_with_rel" ], PHON.ONSET con ] ]. conformable_a1 := aj_-_i_le & [ STEM < "conformable" >, SYNSEM [ LKEYS.KEYREL.PRED "_conformable_a_1_rel", PHON.ONSET con ] ]. conformity_n1 := n_-_m_le & [ STEM < "conformity" >, SYNSEM [ LKEYS.KEYREL.PRED "_conformity_n_1_rel", PHON.ONSET con ] ]. confound_v1 := v_np_le & [ STEM < "confound" >, SYNSEM [ LKEYS.KEYREL.PRED "_confound_v_1_rel", PHON.ONSET con ] ]. confront_v1 := v_np*_le & [ STEM < "confront" >, SYNSEM [ LKEYS.KEYREL.PRED "_confront_v_1_rel", PHON.ONSET con ] ]. confrontation_n1 := n_pp_mc-of_le & [ STEM < "confrontation" >, SYNSEM [ LKEYS.KEYREL.PRED "_confrontation_n_of_rel", PHON.ONSET con ] ]. confucianism_n1 := n_-_m_le & [ STEM < "confucianism" >, SYNSEM [ LKEYS.KEYREL.PRED "_confucianism_n_1_rel", PHON.ONSET con ] ]. confuse_v1 := v_np*_le & [ STEM < "confuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_confuse_v_1_rel", PHON.ONSET con ] ]. confuse_v2 := v_np-pp_e_le & [ STEM < "confuse" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_confuse_v_with_rel" ], PHON.ONSET con ] ]. confuse_v3 := v_np-cp_it-s_le & [ STEM < "confuse" >, SYNSEM [ LKEYS.KEYREL.PRED "_confuse_v_1_rel", PHON.ONSET con ] ]. confused_a2 := aj_pp_i-obl_le & [ STEM < "confused" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_confused_a_about_rel" ], PHON.ONSET con ] ]. confused_isect := aj_-_i_le & [ STEM < "confused" >, SYNSEM [ LKEYS.KEYREL.PRED "_confused_a_about_rel", PHON.ONSET con ] ]. confusing_isect := aj_-_i_le & [ STEM < "confusing" >, SYNSEM [ LKEYS.KEYREL.PRED "_confusing_a_1_rel", PHON.ONSET con ] ]. confusion_n1 := n_-_mc_le & [ STEM < "confusion" >, SYNSEM [ LKEYS.KEYREL.PRED "_confusion_n_1_rel", PHON.ONSET con ] ]. congeal_v1 := v_-_unacc_le & [ STEM < "congeal" >, SYNSEM [ LKEYS.KEYREL.PRED "_congeal_v_1_rel", PHON.ONSET con ] ]. congelifract_n1 := n_-_c_le & [ STEM < "congelifract" >, SYNSEM [ LKEYS.KEYREL.PRED "_congelifract_n_1_rel", PHON.ONSET con ] ]. congelifraction_n1 := n_-_mc_le & [ STEM < "congelifraction" >, SYNSEM [ LKEYS.KEYREL.PRED "_congelifraction_n_1_rel", PHON.ONSET con ] ]. congenial_a1 := aj_-_i_le & [ STEM < "congenial" >, SYNSEM [ LKEYS.KEYREL.PRED "_congenial_a_1_rel", PHON.ONSET con ] ]. congenital_a1 := aj_-_i_le & [ STEM < "congenital" >, SYNSEM [ LKEYS.KEYREL.PRED "_congenital_a_1_rel", PHON.ONSET con ] ]. congo_n1 := n_-_pn_le & [ STEM < "Congo" >, SYNSEM [ LKEYS.KEYREL.CARG "Congo", PHON.ONSET con ] ]. congratulate_v1 := v_np-pp_e_le & [ STEM < "congratulate" >, SYNSEM [ LKEYS [ --OCOMPKEY _on_p_sel_rel, KEYREL.PRED "_congratulate_v_on_rel" ], PHON.ONSET con ] ]. congratulate_v2 := v_np-pp_e_le & [ STEM < "congratulate" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_congratulate_v_for_rel" ], PHON.ONSET con ] ]. congratulate_v3 := v_np_le & [ STEM < "congratulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_congratulate_v_on_rel", PHON.ONSET con ] ]. congratulations_n1 := n_-_c-pl_le & [ STEM < "congratulation" >, SYNSEM [ LKEYS.KEYREL.PRED "_congratulations_n_1_rel", PHON.ONSET con ] ]. congregation_n1 := n_pp_mc-of_le & [ STEM < "congregation" >, SYNSEM [ LKEYS.KEYREL.PRED "_congregation_n_of_rel", PHON.ONSET con ] ]. congregation_n2 := n_pp_c-gr-of_le & [ STEM < "congregation" >, SYNSEM [ LKEYS.KEYREL.PRED "_congregation_n_of_rel", PHON.ONSET con ] ]. congress_n1 := n_-_c_le & [ STEM < "congress" >, SYNSEM [ LKEYS.KEYREL.PRED "_congress_n_1_rel", PHON.ONSET con ] ]. congress_n2 := n_-_pn_le & [ STEM < "Congress" >, SYNSEM [ LKEYS.KEYREL.CARG "Congress", PHON.ONSET con ] ]. congress_post_ttl := n_-_tt-post_le & [ STEM < "Congress" >, SYNSEM [ LKEYS.KEYREL.PRED "_congress_n_1_rel", PHON.ONSET con ] ]. congressional_a1 := aj_-_i_le & [ STEM < "congressional" >, SYNSEM [ LKEYS.KEYREL.PRED "_congressional_a_1_rel", PHON.ONSET con ] ]. congressman_n1 := n_-_c_le & [ STEM < "congressman" >, SYNSEM [ LKEYS.KEYREL.PRED "_congressman_n_1_rel", PHON.ONSET con ] ]. congruent_a1 := aj_-_i_le & [ STEM < "congruent" >, SYNSEM [ LKEYS.KEYREL.PRED "_congruent_a_1_rel", PHON.ONSET con ] ]. congruous_a1 := aj_pp_i_le & [ STEM < "congruous" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_congruous_a_with_rel" ], PHON.ONSET con ] ]. conical_a1 := aj_-_i_le & [ STEM < "conical" >, SYNSEM [ LKEYS.KEYREL.PRED "_conical_a_1_rel", PHON.ONSET con ] ]. coniferous_a1 := aj_-_i_le & [ STEM < "coniferous" >, SYNSEM [ LKEYS.KEYREL.PRED "_coniferous_a_1_rel", PHON.ONSET con ] ]. conjoin_v1 := v_np_le & [ STEM < "conjoin" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjoin_v_1_rel", PHON.ONSET con ] ]. conjugal_a1 := aj_-_i_le & [ STEM < "conjugal" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjugal_a_1_rel", PHON.ONSET con ] ]. conjugate_n1 := n_-_c_le & [ STEM < "conjugate" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjugate_n_1_rel", PHON.ONSET con ] ]. conjugate_v1 := v_np_le & [ STEM < "conjugate" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjugate_v_1_rel", PHON.ONSET con ] ]. conjunction_n1 := n_-_mc_le & [ STEM < "conjunction" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjunction_n_1_rel", PHON.ONSET con ] ]. conjure_up_v1 := v_p-np_le & [ STEM < "conjure" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_conjure_v_up_rel" ], PHON.ONSET con ] ]. conjure_v1 := v_np_le & [ STEM < "conjure" >, SYNSEM [ LKEYS.KEYREL.PRED "_conjure_v_1_rel", PHON.ONSET con ] ]. connect_v1 := v_np-pp*_to_le & [ STEM < "connect" >, SYNSEM [ LKEYS.KEYREL.PRED "_connect_v_to-with_rel", PHON.ONSET con ] ]. connect_v2 := v_-_unacc_le & [ STEM < "connect" >, SYNSEM [ LKEYS.KEYREL.PRED "_connect_v_1_rel", PHON.ONSET con ] ]. connect_v3 := v_np-pp_e_le & [ STEM < "connect" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_connect_v_to-with_rel" ], PHON.ONSET con ] ]. connecticut_n1 := n_-_pn_le & [ STEM < "Connecticut" >, SYNSEM [ LKEYS.KEYREL.CARG "Connecticut", PHON.ONSET con ] ]. connecticut_n2 := n_-_pn-abb_le & [ STEM < "CN" >, SYNSEM [ LKEYS.KEYREL.CARG "Connecticut", PHON.ONSET con ] ]. connection_n1 := n_pp_mc-of_le & [ STEM < "connection" >, SYNSEM [ LKEYS.KEYREL.PRED "_connection_n_of_rel", PHON.ONSET con ] ]. connective_a1 := aj_-_i_le & [ STEM < "connective" >, SYNSEM [ LKEYS.KEYREL.PRED "_connective_a_1_rel", PHON.ONSET con ] ]. connective_n1 := n_-_c_le & [ STEM < "connective" >, SYNSEM [ LKEYS.KEYREL.PRED "_connective_n_1_rel", PHON.ONSET con ] ]. connectivity_n1 := n_-_m_le & [ STEM < "connectivity" >, SYNSEM [ LKEYS.KEYREL.PRED "_connectivity_n_1_rel", PHON.ONSET con ] ]. connector_n1 := n_-_c_le & [ STEM < "connector" >, SYNSEM [ LKEYS.KEYREL.PRED "_connector_n_1_rel", PHON.ONSET con ] ]. connor_n1 := n_-_pn_le & [ STEM < "Connor" >, SYNSEM [ LKEYS.KEYREL.CARG "Connor", PHON.ONSET con ] ]. connote_v1 := v_np_le & [ STEM < "connote" >, SYNSEM [ LKEYS.KEYREL.PRED "_connote_v_1_rel", PHON.ONSET con ] ]. conquer_v1 := v_np*_le & [ STEM < "conquer" >, SYNSEM [ LKEYS.KEYREL.PRED "_conquer_v_1_rel", PHON.ONSET con ] ]. conquest_n1 := n_-_mc_le & [ STEM < "conquest" >, SYNSEM [ LKEYS.KEYREL.PRED "_conquest_n_1_rel", PHON.ONSET con ] ]. conrad_n1 := n_-_pn_le & [ STEM < "Conrad" >, SYNSEM [ LKEYS.KEYREL.CARG "Conrad", PHON.ONSET con ] ]. consanguinity_n1 := n_-_m_le & [ STEM < "consanguinity" >, SYNSEM [ LKEYS.KEYREL.PRED "_consanguinity_n_1_rel", PHON.ONSET con ] ]. conscience_n1 := n_-_mc_le & [ STEM < "conscience" >, SYNSEM [ LKEYS.KEYREL.PRED "_conscience_n_1_rel", PHON.ONSET con ] ]. conscientious_a1 := aj_-_i_le & [ STEM < "conscientious" >, SYNSEM [ LKEYS.KEYREL.PRED "_conscientious_a_1_rel", PHON.ONSET con ] ]. conscious_a1 := aj_pp_i_le & [ STEM < "conscious" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_conscious_a_of_rel" ], PHON.ONSET con ] ]. consciously_adv1 := av_-_i-vp_le & [ STEM < "consciously" >, SYNSEM [ LKEYS.KEYREL.PRED "_conscious_a_1_rel", PHON.ONSET con ] ]. consciousness_n1 := n_-_m_le & [ STEM < "consciousness" >, SYNSEM [ LKEYS.KEYREL.PRED "_consciousness_n_1_rel", PHON.ONSET con ] ]. consecrate_v1 := v_np_le & [ STEM < "consecrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_consecrate_v_1_rel", PHON.ONSET con ] ]. consecution_n1 := n_-_c_le & [ STEM < "consecution" >, SYNSEM [ LKEYS.KEYREL.PRED "_consecution_n_1_rel", PHON.ONSET con ] ]. consecutive_a1 := aj_-_i_le & [ STEM < "consecutive" >, SYNSEM [ LKEYS.KEYREL.PRED "_consecutive_a_1_rel", PHON.ONSET con ] ]. consecutively_isect := av_-_i-vp_le & [ STEM < "consecutively" >, SYNSEM [ LKEYS.KEYREL.PRED "_consecutive_a_1_rel", PHON.ONSET con ] ]. consensus_n1 := n_-_m_le & [ STEM < "consensus" >, SYNSEM [ LKEYS.KEYREL.PRED "_consensus_n_1_rel", PHON.ONSET con ] ]. consent_n1 := n_-_m_le & [ STEM < "consent" >, SYNSEM [ LKEYS.KEYREL.PRED "_consent_n_1_rel", PHON.ONSET con ] ]. consent_v1 := v_pp_e_le & [ STEM < "consent" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_consent_v_to_rel" ], PHON.ONSET con ] ]. consent_v2 := v_-_le & [ STEM < "consent" >, SYNSEM [ LKEYS.KEYREL.PRED "_consent_v_to_rel", PHON.ONSET con ] ]. consent_v3 := v_vp_seq_le & [ STEM < "consent" >, SYNSEM [ LKEYS.KEYREL.PRED "_consent_v_1_rel", PHON.ONSET con ] ]. consequence_n1 := n_pp_mc-of_le & [ STEM < "consequence" >, SYNSEM [ LKEYS.KEYREL.PRED "_consequence_n_of_rel", PHON.ONSET con ] ]. consequently_adv1 := av_-_i-vp-pr_le & [ STEM < "consequently" >, SYNSEM [ LKEYS.KEYREL.PRED "_consequent_a_1_rel", PHON.ONSET con ] ]. consequently_adv2 := av_-_s-cp-nsp-pr_le & [ STEM < "consequently" >, SYNSEM [ LKEYS.KEYREL.PRED "_consequent_a_1_rel", PHON.ONSET con ] ]. consequently_adv3 := av_-_s-cp-nsp-po_le & [ STEM < "consequently" >, SYNSEM [ LKEYS.KEYREL.PRED "_consequent_a_1_rel", PHON.ONSET con ] ]. consequently_deg := av_-_dg-jov_le & [ STEM < "consequently" >, SYNSEM [ LKEYS.KEYREL.PRED "_consequently_x_deg_rel", PHON.ONSET con ] ]. conservation_n1 := n_pp_mc-of_le & [ STEM < "conservation" >, SYNSEM [ LKEYS.KEYREL.PRED "_conservation_n_of_rel", PHON.ONSET con ] ]. conservatism_n1 := n_-_mc_le & [ STEM < "conservatism" >, SYNSEM [ LKEYS.KEYREL.PRED "_conservatism_n_1_rel", PHON.ONSET con ] ]. conservative_a1 := aj_-_i_le & [ STEM < "conservative" >, SYNSEM [ LKEYS.KEYREL.PRED "_conservative_a_1_rel", PHON.ONSET con ] ]. conservative_n1 := n_-_c_le & [ STEM < "conservative" >, SYNSEM [ LKEYS.KEYREL.PRED "_conservative_n_1_rel", PHON.ONSET con ] ]. conserve_v1 := v_np_le & [ STEM < "conserve" >, SYNSEM [ LKEYS.KEYREL.PRED "_conserve_v_1_rel", PHON.ONSET con ] ]. conserve_v2 := v_np-pp_oeq-as_le & [ STEM < "conserve" >, SYNSEM [ LKEYS.KEYREL.PRED "_conserve_v_as_rel", PHON.ONSET con ] ]. consider_v1 := v_np-vp_oeq_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_1_rel", PHON.ONSET con ] ]. consider_v2 := v_np-prd_oeq_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_1_rel", PHON.ONSET con ] ]. consider_v3 := v_np-np_only_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_1_rel", PHON.ONSET con ] ]. consider_v4 := v_np-pp_oeq-as_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_as_rel", PHON.ONSET con ] ]. consider_v5 := v_np*_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_1_rel", PHON.ONSET con ] ]. consider_v6 := v_vp_seq-prp_le & [ STEM < "consider" >, SYNSEM [ LKEYS.KEYREL.PRED "_consider_v_1_rel", PHON.ONSET con ] ]. considerable_isect := aj_-_i_le & [ STEM < "considerable" >, SYNSEM [ LKEYS.KEYREL.PRED "_considerable_a_1_rel", PHON.ONSET con ] ]. considerably := av_-_i-vp_le & [ STEM < "considerably" >, SYNSEM [ LKEYS.KEYREL.PRED "_considerable_a_1_rel", PHON.ONSET con ] ]. considerate_a1 := aj_pp_i_le & [ STEM < "considerate" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_considerate_a_of_rel" ], PHON.ONSET con ] ]. consideration_n1 := n_pp_mc-of_le & [ STEM < "consideration" >, SYNSEM [ LKEYS.KEYREL.PRED "_consideration_n_of_rel", PHON.ONSET con ] ]. consign_v1 := v_np-pp*_to_le & [ STEM < "consign" >, SYNSEM [ LKEYS.KEYREL.PRED "_consign_v_to_rel", PHON.ONSET con ] ]. consignment_n1 := n_pp_mc-of_le & [ STEM < "consignment" >, SYNSEM [ LKEYS.KEYREL.PRED "_consignment_n_of_rel", PHON.ONSET con ] ]. consist_in_v1 := v_pp_e_le & [ STEM < "consist" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_consist_v_in_rel" ], PHON.ONSET con ] ]. consist_of_v1 := v_pp_e_le & [ STEM < "consist" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_consist_v_of_rel" ], PHON.ONSET con ] ]. consistence_n1 := n_-_m_le & [ STEM < "consistence" >, SYNSEM [ LKEYS.KEYREL.PRED "_consistence_n_1_rel", PHON.ONSET con ] ]. consistency_n1 := n_-_mc_le & [ STEM < "consistency" >, SYNSEM [ LKEYS.KEYREL.PRED "_consistency_n_1_rel", PHON.ONSET con ] ]. consistent_isect := aj_-_i_le & [ STEM < "consistent" >, SYNSEM [ LKEYS.KEYREL.PRED "_consistent_a_1_rel", PHON.ONSET con ] ]. consistently_isect := av_-_i-vp_le & [ STEM < "consistently" >, SYNSEM [ LKEYS.KEYREL.PRED "_consistent_a_1_rel", PHON.ONSET con ] ]. consolation_n1 := n_-_c-ns_le & [ STEM < "consolation" >, SYNSEM [ LKEYS.KEYREL.PRED "_consolation_n_1_rel", PHON.ONSET con ] ]. console_n1 := n_-_c_le & [ STEM < "console" >, SYNSEM [ LKEYS.KEYREL.PRED "_console_n_1_rel", PHON.ONSET con ] ]. console_v1 := v_np_le & [ STEM < "console" >, SYNSEM [ LKEYS.KEYREL.PRED "_console_v_1_rel", PHON.ONSET con ] ]. console_v2 := v_np-cp_it-s_le & [ STEM < "console" >, SYNSEM [ LKEYS.KEYREL.PRED "_console_v_1_rel", PHON.ONSET con ] ]. console_v3 := v_np-cp_le & [ STEM < "console" >, SYNSEM [ LKEYS.KEYREL.PRED "_console_v_1_rel", PHON.ONSET con ] ]. consolidate_v1 := v_np_le & [ STEM < "consolidate" >, SYNSEM [ LKEYS.KEYREL.PRED "_consolidate_v_1_rel", PHON.ONSET con ] ]. consonant_a1 := aj_-_i_le & [ STEM < "consonant" >, SYNSEM [ LKEYS.KEYREL.PRED "_consonant_a_1_rel", PHON.ONSET con ] ]. consonant_n1 := n_-_c_le & [ STEM < "consonant" >, SYNSEM [ LKEYS.KEYREL.PRED "_consonant_n_1_rel", PHON.ONSET con ] ]. consort_n1 := n_-_c_le & [ STEM < "consort" >, SYNSEM [ LKEYS.KEYREL.PRED "_consort_n_1_rel", PHON.ONSET con ] ]. consort_with_v1 := v_pp_e_le & [ STEM < "consort" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_consort_v_with_rel" ], PHON.ONSET con ] ]. consortium_n1 := n_pp_c-of_le & [ STEM < "consortium" >, SYNSEM [ LKEYS.KEYREL.PRED "_consortium_n_of_rel", PHON.ONSET con ] ]. conspicuous_a1 := aj_-_i_le & [ STEM < "conspicuous" >, SYNSEM [ LKEYS.KEYREL.PRED "_conspicuous_a_1_rel", PHON.ONSET con ] ]. conspiracy_n1 := n_-_c_le & [ STEM < "conspiracy" >, SYNSEM [ LKEYS.KEYREL.PRED "_conspiracy_n_1_rel", PHON.ONSET con ] ]. conspirator_n1 := n_-_c_le & [ STEM < "conspirator" >, SYNSEM [ LKEYS.KEYREL.PRED "_conspirator_n_1_rel", PHON.ONSET con ] ]. conspire_v1 := v_vp_seq_le & [ STEM < "conspire" >, SYNSEM [ LKEYS.KEYREL.PRED "_conspire_v_1_rel", PHON.ONSET con ] ]. constable_n1 := n_-_c_le & [ STEM < "constable" >, SYNSEM [ LKEYS.KEYREL.PRED "_constable_n_1_rel", PHON.ONSET con ] ]. constable_n2 := n_-_pn_le & [ STEM < "Constable" >, SYNSEM [ LKEYS.KEYREL.CARG "Constable", PHON.ONSET con ] ]. constance_n1 := n_-_pn_le & [ STEM < "Constance" >, SYNSEM [ LKEYS.KEYREL.CARG "Constance", PHON.ONSET con ] ]. constant_a1 := aj_-_i_le & [ STEM < "constant" >, SYNSEM [ LKEYS.KEYREL.PRED "_constant_a_1_rel", PHON.ONSET con ] ]. constant_n1 := n_-_c-nocnh_le & [ STEM < "constant" >, SYNSEM [ LKEYS.KEYREL.PRED "_constant_n_1_rel", PHON.ONSET con ] ]. constantly_adv1 := av_-_i-vp_le & [ STEM < "constantly" >, SYNSEM [ LKEYS.KEYREL.PRED "_constant_a_1_rel", PHON.ONSET con ] ]. constituency_n1 := n_-_mc_le & [ STEM < "constituency" >, SYNSEM [ LKEYS.KEYREL.PRED "_constituency_n_1_rel", PHON.ONSET con ] ]. constituent_a1 := aj_-_i_le & [ STEM < "constituent" >, SYNSEM [ LKEYS.KEYREL.PRED "_constituent_a_1_rel", PHON.ONSET con ] ]. constituent_n1 := n_-_c_le & [ STEM < "constituent" >, SYNSEM [ LKEYS.KEYREL.PRED "_constituent_n_1_rel", PHON.ONSET con ] ]. constitute_v1 := v_np_le & [ STEM < "constitute" >, SYNSEM [ LKEYS.KEYREL.PRED "_constitute_v_1_rel", PHON.ONSET con ] ]. constitution_n1 := n_-_mc_le & [ STEM < "constitution" >, SYNSEM [ LKEYS.KEYREL.PRED "_constitution_n_1_rel", PHON.ONSET con ] ]. constitutional_a1 := aj_-_i_le & [ STEM < "constitutional" >, SYNSEM [ LKEYS.KEYREL.PRED "_constitutional_a_1_rel", PHON.ONSET con ] ]. constitutional_n1 := n_-_c_le & [ STEM < "constitutional" >, SYNSEM [ LKEYS.KEYREL.PRED "_constitutional_n_1_rel", PHON.ONSET con ] ]. constitutive_a1 := aj_-_i_le & [ STEM < "constitutive" >, SYNSEM [ LKEYS.KEYREL.PRED "_constitutive_a_1_rel", PHON.ONSET con ] ]. constrain_v1 := v_np-pp_e_le & [ STEM < "constrain" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_constrain_v_from_rel" ], PHON.ONSET con ] ]. constrain_v2 := v_np-vp_oeq_le & [ STEM < "constrain" >, SYNSEM [ LKEYS.KEYREL.PRED "_constrain_v_1_rel", PHON.ONSET con ] ]. constrain_v3 := v_np_le & [ STEM < "constrain" >, SYNSEM [ LKEYS.KEYREL.PRED "_constrain_v_from_rel", PHON.ONSET con ] ]. constraint_n1 := n_-_c_le & [ STEM < "constraint" >, SYNSEM [ LKEYS.KEYREL.PRED "_constraint_n_1_rel", PHON.ONSET con ] ]. constrict_v1 := v_-_unacc_le & [ STEM < "constrict" >, SYNSEM [ LKEYS.KEYREL.PRED "_constrict_v_1_rel", PHON.ONSET con ] ]. constrict_v2 := v_np_noger_le & [ STEM < "constrict" >, SYNSEM [ LKEYS.KEYREL.PRED "_constrict_v_cause_rel", PHON.ONSET con ] ]. constrictor_n1 := n_-_c_le & [ STEM < "constrictor" >, SYNSEM [ LKEYS.KEYREL.PRED "_constrictor_n_1_rel", PHON.ONSET con ] ]. construct_n1 := n_-_c_le & [ STEM < "construct" >, SYNSEM [ LKEYS.KEYREL.PRED "_construct_n_1_rel", PHON.ONSET con ] ]. construct_v1 := v_np_le & [ STEM < "construct" >, SYNSEM [ LKEYS.KEYREL.PRED "_construct_v_1_rel", PHON.ONSET con ] ]. construct_v2 := v_np-vp_oeq_le & [ STEM < "construct" >, SYNSEM [ LKEYS.KEYREL.PRED "_construct_v_1_rel", PHON.ONSET con ] ]. construction_n := n_pp_mc-of_le & [ STEM < "construction" >, SYNSEM [ LKEYS.KEYREL.PRED "_construction_n_of_rel", PHON.ONSET con ] ]. constructive_isect := aj_-_i_le & [ STEM < "constructive" >, SYNSEM [ LKEYS.KEYREL.PRED "_constructive_a_1_rel", PHON.ONSET con ] ]. constructively := av_-_i-vp_le & [ STEM < "constructively" >, SYNSEM [ LKEYS.KEYREL.PRED "_constructive_a_1_rel", PHON.ONSET con ] ]. construe_v1 := v_np_le & [ STEM < "construe" >, SYNSEM [ LKEYS.KEYREL.PRED "_construe_v_1_rel", PHON.ONSET con ] ]. construe_v2 := v_np-pp_oeq-as_le & [ STEM < "construe" >, SYNSEM [ LKEYS.KEYREL.PRED "_construe_v_as_rel", PHON.ONSET con ] ]. construe_v3 := v_np-vp_oeq_le & [ STEM < "construe" >, SYNSEM [ LKEYS.KEYREL.PRED "_construe_v_1_rel", PHON.ONSET con ] ]. construe_v4 := v_cp_prop_le & [ STEM < "construe" >, SYNSEM [ LKEYS.KEYREL.PRED "_construe_v_1_rel", PHON.ONSET con ] ]. consul_n1 := n_-_c_le & [ STEM < "consul" >, SYNSEM [ LKEYS.KEYREL.PRED "_consul_n_1_rel", PHON.ONSET con ] ]. consulate_n1 := n_-_c_le & [ STEM < "consulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_consulate_n_1_rel", PHON.ONSET con ] ]. consult_v1 := v_np_le & [ STEM < "consult" >, SYNSEM [ LKEYS.KEYREL.PRED "_consult_v_1_rel", PHON.ONSET con ] ]. consult_v2 := v_pp*-pp*_le & [ STEM < "consult" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_consult_v_about_rel" ], PHON.ONSET con ] ]. consultancy_n1 := n_-_c_le & [ STEM < "consultancy" >, SYNSEM [ LKEYS.KEYREL.PRED "_consultancy_n_1_rel", PHON.ONSET con ] ]. consultant_n1 := n_-_c_le & [ STEM < "consultant" >, SYNSEM [ LKEYS.KEYREL.PRED "_consultant_n_1_rel", PHON.ONSET con ] ]. consultation_n1 := n_pp_mc-of_le & [ STEM < "consultation" >, SYNSEM [ LKEYS.KEYREL.PRED "_consultation_n_of_rel", PHON.ONSET con ] ]. consultative_a1 := aj_-_i_le & [ STEM < "consultative" >, SYNSEM [ LKEYS.KEYREL.PRED "_consultative_a_1_rel", PHON.ONSET con ] ]. consume_v1 := v_np_le & [ STEM < "consume" >, SYNSEM [ LKEYS.KEYREL.PRED "_consume_v_1_rel", PHON.ONSET con ] ]. consume_v2 := v_np-pp_le & [ STEM < "consume" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_rel, KEYREL.PRED "_consume_v_1_rel" ], PHON.ONSET con ] ]. consumer_n1 := n_pp_c-of_le & [ STEM < "consumer" >, SYNSEM [ LKEYS.KEYREL.PRED "_consumer_n_of_rel", PHON.ONSET con ] ]. consumption_n1 := n_-_m_le & [ STEM < "consumption" >, SYNSEM [ LKEYS.KEYREL.PRED "_consumption_n_1_rel", PHON.ONSET con ] ]. contact_n1 := n_-_mc_le & [ STEM < "contact" >, SYNSEM [ LKEYS.KEYREL.PRED "_contact_n_1_rel", PHON.ONSET con ] ]. contact_v1 := v_np_le & [ STEM < "contact" >, SYNSEM [ LKEYS.KEYREL.PRED "_contact_v_1_rel", PHON.ONSET con ] ]. contadini_n1 := n_-_pn_le & [ STEM < "Contadini" >, SYNSEM [ LKEYS.KEYREL.CARG "Contadini", PHON.ONSET con ] ]. contain_v1 := v_np_le & [ STEM < "contain" >, SYNSEM [ LKEYS.KEYREL.PRED "_contain_v_1_rel", PHON.ONSET con ] ]. container_n1 := n_pp_c-of_le & [ STEM < "container" >, SYNSEM [ LKEYS.KEYREL.PRED "_container_n_of_rel", PHON.ONSET con ] ]. contaminate_v1 := v_np_le & [ STEM < "contaminate" >, SYNSEM [ LKEYS.KEYREL.PRED "_contaminate_v_1_rel", PHON.ONSET con ] ]. contamination_n1 := n_pp_mc-of_le & [ STEM < "contamination" >, SYNSEM [ LKEYS.KEYREL.PRED "_contamination_n_of_rel", PHON.ONSET con ] ]. contemplate_v1 := v_np_le & [ STEM < "contemplate" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemplate_v_1_rel", PHON.ONSET con ] ]. contemplate_v2 := v_vp_seq-prp_le & [ STEM < "contemplate" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemplate_v_1_rel", PHON.ONSET con ] ]. contemplative_isect := aj_-_i_le & [ STEM < "contemplative" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemplative_a_1_rel", PHON.ONSET con ] ]. contemplatively := av_-_i-vp_le & [ STEM < "contemplatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemplative_a_1_rel", PHON.ONSET con ] ]. contemporaneous_a1 := aj_-_i_le & [ STEM < "contemporaneous" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemporaneous_a_1_rel", PHON.ONSET con ] ]. contemporarily := av_-_i-vp_le & [ STEM < "contemporarily" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemporary_a_1_rel", PHON.ONSET con ] ]. contemporary_a1 := aj_-_i_le & [ STEM < "contemporary" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemporary_a_1_rel", PHON.ONSET con ] ]. contemporary_n1 := n_-_c-nocnh_le & [ STEM < "contemporary" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemporary_n_1_rel", PHON.ONSET con ] ]. contempt_n1 := n_-_m_le & [ STEM < "contempt" >, SYNSEM [ LKEYS.KEYREL.PRED "_contempt_n_1_rel", PHON.ONSET con ] ]. contemptuous_a1 := aj_-_i_le & [ STEM < "contemptuous" >, SYNSEM [ LKEYS.KEYREL.PRED "_contemptuous_a_1_rel", PHON.ONSET con ] ]. contend_v1 := v_-_le & [ STEM < "contend" >, SYNSEM [ LKEYS.KEYREL.PRED "_contend_v_1_rel", PHON.ONSET con ] ]. contend_v2 := v_cp_prop_le & [ STEM < "contend" >, SYNSEM [ LKEYS.KEYREL.PRED "_contend_v_1_rel", PHON.ONSET con ] ]. contend_with_v1 := v_pp_e_le & [ STEM < "contend" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_contend_v_with_rel" ], PHON.ONSET con ] ]. content_a1 := aj_pp_i_le & [ STEM < "content" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_content_a_to_rel" ], PHON.ONSET con ] ]. content_n1 := n_-_c_le & [ STEM < "content" >, SYNSEM [ LKEYS.KEYREL.PRED "_content_n_1_rel", PHON.ONSET con ] ]. content_v1 := v_np-pp_e_le & [ STEM < "content" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_content_v_with_rel" ], PHON.ONSET con ] ]. content_v2 := v_np_le & [ STEM < "content" >, SYNSEM [ LKEYS.KEYREL.PRED "_content_v_with_rel", PHON.ONSET con ] ]. contented_a1 := aj_-_i_le & [ STEM < "contented" >, SYNSEM [ LKEYS.KEYREL.PRED "_contented_a_1_rel", PHON.ONSET con ] ]. contentedly := av_-_i-vp_le & [ STEM < "contentedly" >, SYNSEM [ LKEYS.KEYREL.PRED "_contented_a_1_rel", PHON.ONSET con ] ]. contention_n1 := n_-_mc_le & [ STEM < "contention" >, SYNSEM [ LKEYS.KEYREL.PRED "_contention_n_1_rel", PHON.ONSET con ] ]. contents_n1 := n_-_c-pl-nocnh_le & [ STEM < "content" >, SYNSEM [ LKEYS.KEYREL.PRED "_contents_n_1_rel", PHON.ONSET con ] ]. contest_n1 := n_-_c_le & [ STEM < "contest" >, SYNSEM [ LKEYS.KEYREL.PRED "_contest_n_1_rel", PHON.ONSET con ] ]. contest_v1 := v_np_le & [ STEM < "contest" >, SYNSEM [ LKEYS.KEYREL.PRED "_contest_v_1_rel", PHON.ONSET con ] ]. context_free_a1 := aj_-_i_le & [ STEM < "context", "free" >, SYNSEM [ LKEYS.KEYREL.PRED "_context-free_a_1_rel", PHON.ONSET con ] ]. context_free_a2 := aj_-_i_le & [ STEM < "context-", "free" >, SYNSEM [ LKEYS.KEYREL.PRED "_context-free_a_1_rel", PHON.ONSET con ] ]. context_n1 := n_-_mc_le & [ STEM < "context" >, SYNSEM [ LKEYS.KEYREL.PRED "_context_n_1_rel", PHON.ONSET con ] ]. context_sensitive_a1 := aj_-_i_le & [ STEM < "context", "sensitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_context-sensitive_a_1_rel", PHON.ONSET con ] ]. context_sensitive_a2 := aj_-_i_le & [ STEM < "context-", "sensitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_context-sensitive_a_1_rel", PHON.ONSET con ] ]. contiguity_n1 := n_-_mc_le & [ STEM < "contiguity" >, SYNSEM [ LKEYS.KEYREL.PRED "_contiguity_n_1_rel", PHON.ONSET con ] ]. continence_n1 := n_-_m_le & [ STEM < "continence" >, SYNSEM [ LKEYS.KEYREL.PRED "_continence_n_1_rel", PHON.ONSET con ] ]. continent_n1 := n_-_c_le & [ STEM < "continent" >, SYNSEM [ LKEYS.KEYREL.PRED "_continent_n_1_rel", PHON.ONSET con ] ]. continental_a1 := aj_-_i_le & [ STEM < "continental" >, SYNSEM [ LKEYS.KEYREL.PRED "_continental_a_1_rel", PHON.ONSET con ] ]. continental_n1 := n_-_pn_le & [ STEM < "Continental" >, SYNSEM [ LKEYS.KEYREL.CARG "Continental", PHON.ONSET con ] ]. contingency_n1 := n_-_mc_le & [ STEM < "contingency" >, SYNSEM [ LKEYS.KEYREL.PRED "_contingency_n_1_rel", PHON.ONSET con ] ]. contingent_a1 := aj_-_i_le & [ STEM < "contingent" >, SYNSEM [ LKEYS.KEYREL.PRED "_contingent_a_1_rel", PHON.ONSET con ] ]. continual_a1 := aj_-_i_le & [ STEM < "continual" >, SYNSEM [ LKEYS.KEYREL.PRED "_continual_a_1_rel", PHON.ONSET con ] ]. continually := av_-_i-vp_le & [ STEM < "continually" >, SYNSEM [ LKEYS.KEYREL.PRED "_continual_a_1_rel", PHON.ONSET con ] ]. continuance_n1 := n_-_mc_le & [ STEM < "continuance" >, SYNSEM [ LKEYS.KEYREL.PRED "_continuance_n_1_rel", PHON.ONSET con ] ]. continuation_n1 := n_pp_mc-of_le & [ STEM < "continuation" >, SYNSEM [ LKEYS.KEYREL.PRED "_continuation_n_of_rel", PHON.ONSET con ] ]. continue_v1 := v_pp*_dir_le & [ STEM < "continue" >, SYNSEM [ LKEYS.KEYREL.PRED "_continue_v_1_rel", PHON.ONSET con ] ]. continue_v2 := v_np_noger_le & [ STEM < "continue" >, SYNSEM [ LKEYS.KEYREL.PRED "_continue_v_2_rel", PHON.ONSET con ] ]. continue_v3 := v_vp_ssr_le & [ STEM < "continue" >, SYNSEM [ LKEYS.KEYREL.PRED "_continue_v_2_rel", PHON.ONSET con ] ]. continue_v4 := v_vp_ssr-prp_le & [ STEM < "continue" >, SYNSEM [ LKEYS.KEYREL.PRED "_continue_v_2_rel", PHON.ONSET con ] ]. continuity_n1 := n_-_mc_le & [ STEM < "continuity" >, SYNSEM [ LKEYS.KEYREL.PRED "_continuity_n_1_rel", PHON.ONSET con ] ]. continuous_a1 := aj_-_i_le & [ STEM < "continuous" >, SYNSEM [ LKEYS.KEYREL.PRED "_continuous_a_1_rel", PHON.ONSET con ] ]. continuously_isect := av_-_i-vp_le & [ STEM < "continuously" >, SYNSEM [ LKEYS.KEYREL.PRED "_continuous_a_1_rel", PHON.ONSET con ] ]. contour_n1 := n_-_c_le & [ STEM < "contour" >, SYNSEM [ LKEYS.KEYREL.PRED "_contour_n_1_rel", PHON.ONSET con ] ]. contraceptive_n1 := n_-_c_le & [ STEM < "contraceptive" >, SYNSEM [ LKEYS.KEYREL.PRED "_contraceptive_n_1_rel", PHON.ONSET con ] ]. contract_n1 := n_-_c_le & [ STEM < "contract" >, SYNSEM [ LKEYS.KEYREL.PRED "_contract_n_1_rel", PHON.ONSET con ] ]. contract_out_v1 := v_p-np_le & [ STEM < "contract" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_contract_v_out_rel" ], PHON.ONSET con ] ]. contract_out_v2 := v_p-np-pp_to_le & [ STEM < "contract" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_contract_v_out_rel" ], PHON.ONSET con ] ]. contract_v1 := v_vp_seq_le & [ STEM < "contract" >, SYNSEM [ LKEYS.KEYREL.PRED "_contract_v_1_rel", PHON.ONSET con ] ]. contract_v2 := v_np_le & [ STEM < "contract" >, SYNSEM [ LKEYS.KEYREL.PRED "_contract_v_1_rel", PHON.ONSET con ] ]. contract_v3 := v_np-vp_oeq_le & [ STEM < "contract" >, SYNSEM [ LKEYS.KEYREL.PRED "_contract_v_1_rel", PHON.ONSET con ] ]. contract_v4 := v_-_unacc_le & [ STEM < "contract" >, SYNSEM [ LKEYS.KEYREL.PRED "_contract_v_2_rel", PHON.ONSET con ] ]. contraction_n1 := n_-_mc_le & [ STEM < "contraction" >, SYNSEM [ LKEYS.KEYREL.PRED "_contraction_n_1_rel", PHON.ONSET con ] ]. contractor_n1 := n_-_c_le & [ STEM < "contractor" >, SYNSEM [ LKEYS.KEYREL.PRED "_contractor_n_1_rel", PHON.ONSET con ] ]. contractual_a1 := aj_-_i_le & [ STEM < "contractual" >, SYNSEM [ LKEYS.KEYREL.PRED "_contractual_a_1_rel", PHON.ONSET con ] ]. contradict_v1 := v_np_le & [ STEM < "contradict" >, SYNSEM [ LKEYS.KEYREL.PRED "_contradict_v_1_rel", PHON.ONSET con ] ]. contradiction_n1 := n_-_mc_le & [ STEM < "contradiction" >, SYNSEM [ LKEYS.KEYREL.PRED "_contradiction_n_1_rel", PHON.ONSET con ] ]. contradictory_a1 := aj_-_i_le & [ STEM < "contradictory" >, SYNSEM [ LKEYS.KEYREL.PRED "_contradictory_a_1_rel", PHON.ONSET con ] ]. contradistinction_n1 := n_-_mc_le & [ STEM < "contradistinction" >, SYNSEM [ LKEYS.KEYREL.PRED "_contradistinction_n_1_rel", PHON.ONSET con ] ]. contradistinguish_v1 := v_np_le & [ STEM < "contradistinguish" >, SYNSEM [ LKEYS.KEYREL.PRED "_contradistinguish_v_1_rel", PHON.ONSET con ] ]. contrariety_n1 := n_-_m_le & [ STEM < "contrariety" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrariety_n_1_rel", PHON.ONSET con ] ]. contrary_a1 := aj_-_i_le & [ STEM < "contrary" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrary_a_1_rel", PHON.ONSET con ] ]. contrast_i_n1 := n_-_c-brj*_le & [ STEM < "contrast" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrast_n_1_rel", PHON.ONSET con ] ]. contrast_n1 := n_-_mc_le & [ STEM < "contrast" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrast_n_1_rel", PHON.ONSET con ] ]. contrast_v1 := v_np*-pp_e_le & [ STEM < "contrast" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_contrast_v_with_rel" ], PHON.ONSET con ] ]. contrast_v2 := v_np*_le & [ STEM < "contrast" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrast_v_with_rel", PHON.ONSET con ] ]. contrast_with_v1 := v_pp_e_le & [ STEM < "contrast" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_contrast_v_with_rel" ], PHON.ONSET con ] ]. contribute_v1 := v_np*_le & [ STEM < "contribute" >, SYNSEM [ LKEYS.KEYREL.PRED "_contribute_v_to_rel", PHON.ONSET con ] ]. contribute_v2 := v_np*-pp_to_le & [ STEM < "contribute" >, SYNSEM [ LKEYS.KEYREL.PRED "_contribute_v_to_rel", PHON.ONSET con ] ]. contribution_n1 := n_pp_c-of_le & [ STEM < "contribution" >, SYNSEM [ LKEYS.KEYREL.PRED "_contribution_n_of_rel", PHON.ONSET con ] ]. contrition_n1 := n_-_mc_le & [ STEM < "contrition" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrition_n_1_rel", PHON.ONSET con ] ]. contrivance_n1 := n_-_c_le & [ STEM < "contrivance" >, SYNSEM [ LKEYS.KEYREL.PRED "_contrivance_n_1_rel", PHON.ONSET con ] ]. control_n1 := n_pp_mc-of_le & [ STEM < "control" >, SYNSEM [ LKEYS.KEYREL.PRED "_control_n_of_rel", PHON.ONSET con ] ]. control_v1 := v_np_le & [ STEM < "control" >, SYNSEM [ LKEYS.KEYREL.PRED "_control_v_1_rel", PHON.ONSET con ] ]. control_v2 := v_cp_fin-inf-q_le & [ STEM < "control" >, SYNSEM [ LKEYS.KEYREL.PRED "_control_v_1_rel", PHON.ONSET con ] ]. controller_n1 := n_pp_c-of_le & [ STEM < "controller" >, SYNSEM [ LKEYS.KEYREL.PRED "_controller_n_of_rel", PHON.ONSET con ] ]. controversial_a1 := aj_-_i_le & [ STEM < "controversial" >, SYNSEM [ LKEYS.KEYREL.PRED "_controversial_a_1_rel", PHON.ONSET con ] ]. controversy_n1 := n_-_mc_le & [ STEM < "controversy" >, SYNSEM [ LKEYS.KEYREL.PRED "_controversy_n_1_rel", PHON.ONSET con ] ]. convene_v1 := v_np_noger_le & [ STEM < "convene" >, SYNSEM [ LKEYS.KEYREL.PRED "_convene_v_cause_rel", PHON.ONSET con ] ]. convene_v2 := v_-_unacc_le & [ STEM < "convene" >, SYNSEM [ LKEYS.KEYREL.PRED "_convene_v_1_rel", PHON.ONSET con ] ]. convenience_n1 := n_-_mc_le & [ STEM < "convenience" >, SYNSEM [ LKEYS.KEYREL.PRED "_convenience_n_1_rel", PHON.ONSET con ] ]. convenient_a1 := aj_pp_i_le & [ STEM < "convenient" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_convenient_a_for_rel" ], PHON.ONSET con ] ]. convenient_a2 := aj_pp-vp_i-it_le & [ STEM < "convenient" >, SYNSEM [ LKEYS.KEYREL.PRED "_convenient_a_for_rel", PHON.ONSET con ] ]. convenient_a3 := aj_pp-cp_i-it_le & [ STEM < "convenient" >, SYNSEM [ LKEYS.KEYREL.PRED "_convenient_a_for_rel", PHON.ONSET con ] ]. conveniently := av_-_i-vp_le & [ STEM < "conveniently" >, SYNSEM [ LKEYS.KEYREL.PRED "_convenient_a_for_rel", PHON.ONSET con ] ]. convent_n1 := n_-_c_le & [ STEM < "convent" >, SYNSEM [ LKEYS.KEYREL.PRED "_convent_n_1_rel", PHON.ONSET con ] ]. convention-hall_n1 := n_-_c_le & [ STEM < "convention", "hall" >, SYNSEM [ LKEYS.KEYREL.PRED "_convention+hall_n_1_rel", PHON.ONSET con ] ]. convention_n1 := n_-_c_le & [ STEM < "convention" >, SYNSEM [ LKEYS.KEYREL.PRED "_convention_n_1_rel", PHON.ONSET con ] ]. conventional_a1 := aj_-_i_le & [ STEM < "conventional" >, SYNSEM [ LKEYS.KEYREL.PRED "_conventional_a_1_rel", PHON.ONSET con ] ]. conventionality_n1 := n_-_m_le & [ STEM < "conventionality" >, SYNSEM [ LKEYS.KEYREL.PRED "_conventionality_n_1_rel", PHON.ONSET con ] ]. conventioneer_n1 := n_-_c_le & [ STEM < "conventioneer" >, SYNSEM [ LKEYS.KEYREL.PRED "_conventioneer_n_1_rel", PHON.ONSET con ] ]. conventioner_n1 := n_-_c_le & [ STEM < "conventioner" >, SYNSEM [ LKEYS.KEYREL.PRED "_conventioner_n_1_rel", PHON.ONSET con ] ]. converge_on_v1 := v_pp*_le & [ STEM < "converge" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_rel, KEYREL.PRED "_converge_v_1_rel" ], PHON.ONSET con ] ]. convergence_n1 := n_-_m_le & [ STEM < "convergence" >, SYNSEM [ LKEYS.KEYREL.PRED "_convergence_n_1_rel", PHON.ONSET con ] ]. conversation_n1 := n_-_mc_le & [ STEM < "conversation" >, SYNSEM [ LKEYS.KEYREL.PRED "_conversation_n_1_rel", PHON.ONSET con ] ]. converse_a1 := aj_-_i_le & [ STEM < "converse" >, SYNSEM [ LKEYS.KEYREL.PRED "_converse_a_1_rel", PHON.ONSET con ] ]. converse_n1 := n_-_m_le & [ STEM < "converse" >, SYNSEM [ LKEYS.KEYREL.PRED "_converse_n_1_rel", PHON.ONSET con ] ]. converse_n2 := n_-_pn_le & [ STEM < "Converse" >, SYNSEM [ LKEYS.KEYREL.CARG "Converse", PHON.ONSET con ] ]. converse_v1 := v_pp*-pp*_le & [ STEM < "converse" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_rel, --OCOMPKEY _about_p_rel, KEYREL.PRED "_converse_v_about_rel" ], PHON.ONSET con ] ]. conversely_adv1 := av_-_i-vp_le & [ STEM < "conversely" >, SYNSEM [ LKEYS.KEYREL.PRED "_converse_a_1_rel", PHON.ONSET con ] ]. conversion_n1 := n_-_mc_le & [ STEM < "conversion" >, SYNSEM [ LKEYS.KEYREL.PRED "_conversion_n_1_rel", PHON.ONSET con ] ]. convert_n1 := n_-_c_le & [ STEM < "convert" >, SYNSEM [ LKEYS.KEYREL.PRED "_convert_n_1_rel", PHON.ONSET con ] ]. convert_v1 := v_np-pp*_to_le & [ STEM < "convert" >, SYNSEM [ LKEYS.KEYREL.PRED "_convert_v_to_rel", PHON.ONSET con ] ]. convert_v2 := v_pp_le & [ STEM < "convert" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, KEYREL.PRED "_convert_v_1_rel" ], PHON.ONSET con ] ]. convert_v3 := v_-_le & [ STEM < "convert" >, SYNSEM [ LKEYS.KEYREL.PRED "_convert_v_1_rel", PHON.ONSET con ] ]. convert_v4 := v_np-pp*-ppto_le & [ STEM < "convert" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_convert_v_from-to_rel" ], PHON.ONSET con ] ]. convert_v5 := v_np-vp_oeq_le & [ STEM < "convert" >, SYNSEM [ LKEYS.KEYREL.PRED "_convert_v_1_rel", PHON.ONSET con ] ]. converter_n1 := n_-_c_le & [ STEM < "converter" >, SYNSEM [ LKEYS.KEYREL.PRED "_converter_n_1_rel", PHON.ONSET con ] ]. convertible_n1 := n_-_c_le & [ STEM < "convertible" >, SYNSEM [ LKEYS.KEYREL.PRED "_convertible_n_1_rel", PHON.ONSET con ] ]. convex_n1 := n_-_c_le & [ STEM < "convex" >, SYNSEM [ LKEYS.KEYREL.PRED "_convex_n_1_rel", PHON.ONSET con ] ]. convey_v1 := v_np-pp*_to_le & [ STEM < "convey" >, SYNSEM [ LKEYS.KEYREL.PRED "_convey_v_to_rel", PHON.ONSET con ] ]. convey_v2 := v_pp-cp_fin_le & [ STEM < "convey" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_convey_v_1_rel" ], PHON.ONSET con ] ]. convey_v3 := v_np-pp_prop_le & [ STEM < "convey" >, SYNSEM [ LKEYS.KEYREL.PRED "_convey_v_1_rel", PHON.ONSET con ] ]. conveyance_n1 := n_-_mc_le & [ STEM < "conveyance" >, SYNSEM [ LKEYS.KEYREL.PRED "_conveyance_n_1_rel", PHON.ONSET con ] ]. conveyancing_n1 := n_-_m_le & [ STEM < "conveyancing" >, SYNSEM [ LKEYS.KEYREL.PRED "_conveyancing_n_1_rel", PHON.ONSET con ] ]. convict_n1 := n_-_c_le & [ STEM < "convict" >, SYNSEM [ LKEYS.KEYREL.PRED "_convict_n_1_rel", PHON.ONSET con ] ]. convict_v1 := v_np-pp_e_le & [ STEM < "convict" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_convict_v_of_rel" ], PHON.ONSET con ] ]. convict_v2 := v_np_le & [ STEM < "convict" >, SYNSEM [ LKEYS.KEYREL.PRED "_convict_v_of_rel", PHON.ONSET con ] ]. conviction_n1 := n_pp_mc-of_le & [ STEM < "conviction" >, SYNSEM [ LKEYS.KEYREL.PRED "_conviction_n_of_rel", PHON.ONSET con ] ]. conviction_n2 := n_cp_c-fin_le & [ STEM < "conviction" >, SYNSEM [ LKEYS.KEYREL.PRED "_conviction_n_of_rel", PHON.ONSET con ] ]. convince_v1 := v_np-vp_oeq_le & [ STEM < "convince" >, SYNSEM [ LKEYS.KEYREL.PRED "_convince_v_of_rel", PHON.ONSET con ] ]. convince_v2 := v_np-cp_prop_le & [ STEM < "convince" >, SYNSEM [ LKEYS.KEYREL.PRED "_convince_v_of_rel", PHON.ONSET con ] ]. convince_v3 := v_np-pp_e_le & [ STEM < "convince" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_convince_v_of_rel" ], PHON.ONSET con ] ]. convince_v4 := v_np_le & [ STEM < "convince" >, SYNSEM [ LKEYS.KEYREL.PRED "_convince_v_of_rel", PHON.ONSET con ] ]. convincing_a1 := aj_-_i_le & [ STEM < "convincing" >, SYNSEM [ LKEYS.KEYREL.PRED "_convincing_a_1_rel", PHON.ONSET con ] ]. convincingly_a1 := av_-_i-vp_le & [ STEM < "convincingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_convincing_a_1_rel", PHON.ONSET con ] ]. convivial_a1 := aj_-_i_le & [ STEM < "convivial" >, SYNSEM [ LKEYS.KEYREL.PRED "_convivial_a_1_rel", PHON.ONSET con ] ]. convocation_n1 := n_-_mc_le & [ STEM < "convocation" >, SYNSEM [ LKEYS.KEYREL.PRED "_convocation_n_1_rel", PHON.ONSET con ] ]. convoke_v1 := v_np_le & [ STEM < "convoke" >, SYNSEM [ LKEYS.KEYREL.PRED "_convoke_v_1_rel", PHON.ONSET con ] ]. convoluted_a1 := aj_-_i_le & [ STEM < "convoluted" >, SYNSEM [ LKEYS.KEYREL.PRED "_convoluted_a_1_rel", PHON.ONSET con ] ]. convolution_n1 := n_-_c_le & [ STEM < "convolution" >, SYNSEM [ LKEYS.KEYREL.PRED "_convolution_n_1_rel", PHON.ONSET con ] ]. convolve_v1 := v_np_le & [ STEM < "convolve" >, SYNSEM [ LKEYS.KEYREL.PRED "_convolve_v_1_rel", PHON.ONSET con ] ]. convoy_n1 := n_-_c_le & [ STEM < "convoy" >, SYNSEM [ LKEYS.KEYREL.PRED "_convoy_n_1_rel", PHON.ONSET con ] ]. cook_n1 := n_-_c_le & [ STEM < "cook" >, SYNSEM [ LKEYS.KEYREL.PRED "_cook_n_1_rel", PHON.ONSET con ] ]. cook_n2 := n_-_pn_le & [ STEM < "Cook" >, SYNSEM [ LKEYS.KEYREL.CARG "Cook", PHON.ONSET con ] ]. cook_v1 := v_np*_le & [ STEM < "cook" >, SYNSEM [ LKEYS.KEYREL.PRED "_cook_v_1_rel", PHON.ONSET con ] ]. cook_v2 := v_np-np_only_le & [ STEM < "cook" >, SYNSEM [ LKEYS.KEYREL.PRED "_cook_v_1_rel", PHON.ONSET con ] ]. cookery_n1 := n_-_m_le & [ STEM < "cookery" >, SYNSEM [ LKEYS.KEYREL.PRED "_cookery_n_1_rel", PHON.ONSET con ] ]. cookie_n1 := n_-_c_le & [ STEM < "cookie" >, SYNSEM [ LKEYS.KEYREL.PRED "_cookie_n_1_rel", PHON.ONSET con ] ]. cookset_n1 := n_-_c_le & [ STEM < "cookset" >, SYNSEM [ LKEYS.KEYREL.PRED "_cookset_n_1_rel", PHON.ONSET con ] ]. cool_a1 := aj_-_i_le & [ STEM < "cool" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. cool_a2 := aj_-_i-wthr_le & [ STEM < "cool" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. cool_down_v1 := v_p_le & [ STEM < "cool" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_cool_v_down_rel" ], PHON.ONSET con ] ]. cool_down_v2 := v_p-np_le & [ STEM < "cool" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_cool_v_down_rel" ], PHON.ONSET con ] ]. cool_n1 := n_pp_m-obl_le & [ STEM < "cool" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_cool_n_of_rel" ], PHON.ONSET con ] ]. cool_off_v1 := v_p_le & [ STEM < "cool" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cool_v_off_rel" ], PHON.ONSET con ] ]. cool_off_v2 := v_p-np_le & [ STEM < "cool" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cool_v_off_rel" ], PHON.ONSET con ] ]. cool_v1 := v_np_noger_le & [ STEM < "cool" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_v_cause_rel", PHON.ONSET con ] ]. cool_v2 := v_-_unacc_le & [ STEM < "cool" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_v_1_rel", PHON.ONSET con ] ]. coolant_n1 := n_-_mc_le & [ STEM < "coolant" >, SYNSEM [ LKEYS.KEYREL.PRED "_coolant_n_1_rel", PHON.ONSET con ] ]. cooler_a1 := aj_pp_i-cmp_le & [ STEM < "cooler" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. cooler_a2 := aj_pp_i-cmp-wthr_le & [ STEM < "cooler" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. coolest_a1 := aj_-_i-sup_le & [ STEM < "coolest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. coolest_a2 := aj_-_i-sup-it_le & [ STEM < "coolest" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. coolly := av_-_i-vp_le & [ STEM < "coolly" >, SYNSEM [ LKEYS.KEYREL.PRED "_cool_a_1_rel", PHON.ONSET con ] ]. coop_n1 := n_-_c_le & [ STEM < "coop" >, SYNSEM [ LKEYS.KEYREL.PRED "_coop_n_1_rel", PHON.ONSET con ] ]. coop_up_v1 := v_p-np_le & [ STEM < "coop" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_coop_v_up_rel" ], PHON.ONSET con ] ]. cooper_n1 := n_-_pn_le & [ STEM < "Cooper" >, SYNSEM [ LKEYS.KEYREL.CARG "Cooper", PHON.ONSET con ] ]. cooper_n2 := n_-_c_le & [ STEM < "cooper" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooper_n_1_rel", PHON.ONSET con ] ]. cooperate_v1 := v_-_le & [ STEM < "cooperate" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperate_v_1_rel", PHON.ONSET con ] ]. cooperate_with_v1 := v_pp_e_le & [ STEM < "cooperate" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_cooperate_v_with_rel" ], PHON.ONSET con ] ]. cooperation_n1 := n_-_mc_le & [ STEM < "cooperation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperation_n_1_rel", PHON.ONSET con ] ]. cooperation_n2 := n_-_mc_le & [ STEM < "coöperation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperation_n_1_rel", PHON.ONSET con ] ]. cooperation_n3 := n_-_mc_le & [ STEM < "co-", "operation" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperation_n_1_rel", PHON.ONSET con ] ]. cooperative_isect := aj_-_i_le & [ STEM < "cooperative" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperative_a_1_rel", PHON.ONSET con ] ]. cooperative_n1 := n_-_c-nocnh_le & [ STEM < "cooperative" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperative_n_1_rel", PHON.ONSET con ] ]. cooperative_n2 := n_-_c_le & [ STEM < "co-", "operative" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperative_n_1_rel", PHON.ONSET con ] ]. cooperative_n3 := n_-_c_le & [ STEM < "co", "operative" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperative_n_1_rel", PHON.ONSET con ] ]. cooperatively := av_-_i-vp_le & [ STEM < "cooperatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_cooperative_a_1_rel", PHON.ONSET con ] ]. coordinate_n1 := n_-_c_le & [ STEM < "coordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_n_1_rel", PHON.ONSET con ] ]. coordinate_n2 := n_-_c_le & [ STEM < "coördinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_n_1_rel", PHON.ONSET con ] ]. coordinate_n3 := n_-_c_le & [ STEM < "co-", "ordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_n_1_rel", PHON.ONSET con ] ]. coordinate_v1 := v_np*_le & [ STEM < "coordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinate_v2 := v_np*_le & [ STEM < "coördinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinate_v3 := v_np-vp_oeq_le & [ STEM < "coordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinate_v4 := v_np-vp_oeq_le & [ STEM < "coördinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinate_v5 := v_np*_le & [ STEM < "co-", "ordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinate_v6 := v_np-vp_oeq_le & [ STEM < "co-", "ordinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_v_1_rel", PHON.ONSET con ] ]. coordinately_adv1 := av_-_i-vp_le & [ STEM < "coordinately" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinate_a_1_rel", PHON.ONSET con ] ]. coordination_n1 := n_pp_m_le & [ STEM < "coordination" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_coordination_n_of_rel" ], PHON.ONSET con ] ]. coordinator_n1 := n_-_c_le & [ STEM < "coordinator" >, SYNSEM [ LKEYS.KEYREL.PRED "_coordinator_n_1_rel", PHON.ONSET con ] ]. cop_n1 := n_-_c_le & [ STEM < "cop" >, SYNSEM [ LKEYS.KEYREL.PRED "_cop_n_1_rel", PHON.ONSET con ] ]. cope_v1 := v_pp_e_le & [ STEM < "cope" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_cope_v_with_rel" ], PHON.ONSET con ] ]. cope_v2 := v_-_le & [ STEM < "cope" >, SYNSEM [ LKEYS.KEYREL.PRED "_cope_v_with_rel", PHON.ONSET con ] ]. copenhagen := n_-_pn_le & [ STEM < "Copenhagen" >, SYNSEM [ LKEYS.KEYREL.CARG "Copenhagen", PHON.ONSET con ] ]. copepod_n1 := n_-_c_le & [ STEM < "copepod" >, SYNSEM [ LKEYS.KEYREL.PRED "_copepod_n_1_rel", PHON.ONSET con ] ]. copernicus_n1 := n_-_pn_le & [ STEM < "Copernicus" >, SYNSEM [ LKEYS.KEYREL.CARG "Copernicus", PHON.ONSET con ] ]. copious_isect := aj_-_i_le & [ STEM < "copious" >, SYNSEM [ LKEYS.KEYREL.PRED "_copious_a_1_rel", PHON.ONSET con ] ]. copper_n1 := n_-_mc_le & [ STEM < "copper" >, SYNSEM [ LKEYS.KEYREL.PRED "_copper_n_1_rel", PHON.ONSET con ] ]. coptic := n_-_pn_le & [ STEM < "Coptic" >, SYNSEM [ LKEYS.KEYREL.CARG "Coptic", PHON.ONSET con ] ]. coptic_a1 := aj_-_i_le & [ STEM < "coptic" >, SYNSEM [ LKEYS.KEYREL.PRED "_coptic_a_1_rel", PHON.ONSET con ] ]. copulate_v1 := v_-_le & [ STEM < "copulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_copulate_v_1_rel", PHON.ONSET con ] ]. copy_down_v1 := v_p-np_le & [ STEM < "copy" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_copy_v_down_rel" ], PHON.ONSET con ] ]. copy_n1 := n_pp_mc-of_le & [ STEM < "copy" >, SYNSEM [ LKEYS.KEYREL.PRED "_copy_n_of_rel", PHON.ONSET con ] ]. copy_out_v1 := v_p-np_le & [ STEM < "copy" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_copy_v_out_rel" ], PHON.ONSET con ] ]. copy_v1 := v_np*_le & [ STEM < "copy" >, SYNSEM [ LKEYS.KEYREL.PRED "_copy_v_1_rel", PHON.ONSET con ] ]. copy_v2 := v_np-pp_prop_le & [ STEM < "copy" >, SYNSEM [ LKEYS.KEYREL.PRED "_copy_v_1_rel", PHON.ONSET con ] ]. copyright_n1 := n_-_mc_le & [ STEM < "copyright" >, SYNSEM [ LKEYS.KEYREL.PRED "_copyright_n_1_rel", PHON.ONSET con ] ]. copyright_v1 := v_np_le & [ STEM < "copyright" >, SYNSEM [ LKEYS.KEYREL.PRED "_copyright_v_1_rel", PHON.ONSET con ] ]. coral_n1 := n_-_mc-col_le & [ STEM < "coral" >, SYNSEM [ LKEYS.KEYREL.PRED "_coral_n_1_rel", PHON.ONSET con ] ]. corcoran_n1 := n_-_pn_le & [ STEM < "Corcoran" >, SYNSEM [ LKEYS.KEYREL.CARG "Corcoran", PHON.ONSET con ] ]. cord_n1 := n_-_mc_le & [ STEM < "cord" >, SYNSEM [ LKEYS.KEYREL.PRED "_cord_n_1_rel", PHON.ONSET con ] ]. cord_v1 := v_np_le & [ STEM < "cord" >, SYNSEM [ LKEYS.KEYREL.PRED "_cord_v_1_rel", PHON.ONSET con ] ]. cordage_n1 := n_-_m_le & [ STEM < "cordage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cordage_n_1_rel", PHON.ONSET con ] ]. cordiality_n1 := n_-_m_le & [ STEM < "cordiality" >, SYNSEM [ LKEYS.KEYREL.PRED "_cordiality_n_1_rel", PHON.ONSET con ] ]. cordless_a1 := aj_-_i_le & [ STEM < "cordless" >, SYNSEM [ LKEYS.KEYREL.PRED "_cordless_a_1_rel", PHON.ONSET con ] ]. corduroy_n1 := n_-_mc_le & [ STEM < "corduroy" >, SYNSEM [ LKEYS.KEYREL.PRED "_corduroy_n_1_rel", PHON.ONSET con ] ]. core_n1 := n_-_c_le & [ STEM < "core" >, SYNSEM [ LKEYS.KEYREL.PRED "_core_n_1_rel", PHON.ONSET con ] ]. corgett_n1 := n_-_pn_le & [ STEM < "Corgett" >, SYNSEM [ LKEYS.KEYREL.CARG "Corgett", PHON.ONSET con ] ]. corgi_n1 := n_-_c_le & [ STEM < "corgi" >, SYNSEM [ LKEYS.KEYREL.PRED "_corgi_n_1_rel", PHON.ONSET con ] ]. corinth_n1 := n_-_pn-city_le & [ STEM < "Corinth" >, SYNSEM [ LKEYS.KEYREL.CARG "Corinth", PHON.ONSET con ] ]. corinthian_a1 := aj_-_i_le & [ STEM < "Corinthian" >, SYNSEM [ LKEYS.KEYREL.PRED "_corinthian_a_1_rel", PHON.ONSET con ] ]. corinthian_n1 := n_-_c-nocnh_le & [ STEM < "Corinthian" >, SYNSEM [ LKEYS.KEYREL.PRED "_corinthian_n_1_rel", PHON.ONSET con ] ]. cork_n1 := n_-_mc_le & [ STEM < "cork" >, SYNSEM [ LKEYS.KEYREL.PRED "_cork_n_1_rel", PHON.ONSET con ] ]. cork_n2 := n_-_pn_le & [ STEM < "Cork" >, SYNSEM [ LKEYS.KEYREL.CARG "Cork", PHON.ONSET con ] ]. cork_v1 := v_np_le & [ STEM < "cork" >, SYNSEM [ LKEYS.KEYREL.PRED "_cork_v_1_rel", PHON.ONSET con ] ]. corn_n1 := n_-_m_le & [ STEM < "corn" >, SYNSEM [ LKEYS.KEYREL.PRED "_corn_n_1_rel", PHON.ONSET con ] ]. corne_n1 := n_-_pn_le & [ STEM < "Corne" >, SYNSEM [ LKEYS.KEYREL.CARG "Corne", PHON.ONSET con ] ]. cornelius_n1 := n_-_pn_le & [ STEM < "Cornelius" >, SYNSEM [ LKEYS.KEYREL.CARG "Cornelius", PHON.ONSET con ] ]. corner_n1 := n_pp_c-of_le & [ STEM < "corner" >, SYNSEM [ LKEYS.KEYREL.PRED "_corner_n_of_rel", PHON.ONSET con ] ]. corner_v1 := v_np_le & [ STEM < "corner" >, SYNSEM [ LKEYS.KEYREL.PRED "_corner_v_1_rel", PHON.ONSET con ] ]. corner_v2 := v_-_le & [ STEM < "corner" >, SYNSEM [ LKEYS.KEYREL.PRED "_corner_v_2_rel", PHON.ONSET con ] ]. cornerstone_n1 := n_-_c_le & [ STEM < "cornerstone" >, SYNSEM [ LKEYS.KEYREL.PRED "_cornerstone_n_1_rel", PHON.ONSET con ] ]. cornmeal_n1 := n_-_m_le & [ STEM < "cornmeal" >, SYNSEM [ LKEYS.KEYREL.PRED "_cornmeal_n_1_rel", PHON.ONSET con ] ]. cornsilk_n1 := n_-_mc-col_le & [ STEM < "cornsilk" >, SYNSEM [ LKEYS.KEYREL.PRED "_cornsilk_n_1_rel", PHON.ONSET con ] ]. cornwall_n1 := n_-_pn_le & [ STEM < "Cornwall" >, SYNSEM [ LKEYS.KEYREL.CARG "Cornwall", PHON.ONSET con ] ]. corolla_n1 := n_-_c_le & [ STEM < "corolla" >, SYNSEM [ LKEYS.KEYREL.PRED "_corolla_n_1_rel", PHON.ONSET con ] ]. corona_n1 := n_-_c_le & [ STEM < "corona" >, SYNSEM [ LKEYS.KEYREL.PRED "_corona_n_1_rel", PHON.ONSET con ] ]. coronado_n1 := n_-_pn_le & [ STEM < "Coronado" >, SYNSEM [ LKEYS.KEYREL.CARG "Coronado", PHON.ONSET con ] ]. coronary_a1 := aj_-_i_le & [ STEM < "coronary" >, SYNSEM [ LKEYS.KEYREL.PRED "_coronary_a_1_rel", PHON.ONSET con ] ]. coronary_n1 := n_-_c-nocnh_le & [ STEM < "coronary" >, SYNSEM [ LKEYS.KEYREL.PRED "_coronary_n_1_rel", PHON.ONSET con ] ]. coronation_n1 := n_pp_mc-of_le & [ STEM < "coronation" >, SYNSEM [ LKEYS.KEYREL.PRED "_coronation_n_of_rel", PHON.ONSET con ] ]. coroner_n1 := n_-_c_le & [ STEM < "coroner" >, SYNSEM [ LKEYS.KEYREL.PRED "_coroner_n_1_rel", PHON.ONSET con ] ]. corp_post_ttl := n_-_tt-post_le & [ STEM < "Corp" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporation_n_1_rel", PHON.ONSET con ] ]. corp_post_ttl_2 := n_-_tt-post_le & [ STEM < "corp." >, SYNSEM [ LKEYS.KEYREL.PRED "_corporation_n_1_rel", PHON.ONSET con ] ]. corporal_n1 := n_-_c_le & [ STEM < "corporal" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporal_n_1_rel", PHON.ONSET con ] ]. corporate_isect := aj_-_i_le & [ STEM < "corporate" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporate_a_1_rel", PHON.ONSET con ] ]. corporately := av_-_i-vp_le & [ STEM < "corporately" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporate_a_1_rel", PHON.ONSET con ] ]. corporation_n1 := n_-_c_le & [ STEM < "corporation" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporation_n_1_rel", PHON.ONSET con ] ]. corporation_post_ttl := n_-_tt-post_le & [ STEM < "Corporation" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporation_n_1_rel", PHON.ONSET con ] ]. corporeal_a1 := aj_-_i_le & [ STEM < "corporeal" >, SYNSEM [ LKEYS.KEYREL.PRED "_corporeal_a_1_rel", PHON.ONSET con ] ]. corps_n1 := n_-_c_le & [ STEM < "corps" >, SYNSEM [ LKEYS.KEYREL.PRED "_corps_n_1_rel", PHON.ONSET con ] ]. corpse_n1 := n_-_c_le & [ STEM < "corpse" >, SYNSEM [ LKEYS.KEYREL.PRED "_corpse_n_1_rel", PHON.ONSET con ] ]. corpus_callosum_n1 := n_-_c_le & [ STEM < "corpus", "callosum" >, SYNSEM [ LKEYS.KEYREL.PRED "_corpus_callosum_n_1_rel", PHON.ONSET con ] ]. corpus_christi := n_np_pn-hol_le & [ STEM < "Corpus", "Christi" >, SYNSEM [ LKEYS.KEYREL.CARG "Corpus_Christi", PHON.ONSET con ] ]. corpus_christi_n1 := n_-_pn-city_le & [ STEM < "Corpus", "Christi" >, SYNSEM [ LKEYS.KEYREL.CARG "Corpus_Christi", PHON.ONSET con ] ]. corpus_n1 := n_-_c_le & [ STEM < "corpus" >, SYNSEM [ LKEYS.KEYREL.PRED "_corpus_n_1_rel", PHON.ONSET con ] ]. correct_a1 := aj_-_i_le & [ STEM < "correct" >, SYNSEM [ LKEYS.KEYREL.PRED "_correct_a_1_rel", PHON.ONSET con ] ]. correct_root_post := av_-_s-cp-nsp-po_le & [ STEM < "correct" >, SYNSEM [ LKEYS.KEYREL.PRED "_correct_a_1_rel", PHON.ONSET con ] ]. correct_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "correct" >, SYNSEM [ LKEYS.KEYREL.PRED "_correct_a_1_rel", PHON.ONSET con ] ]. correct_v1 := v_np_le & [ STEM < "correct" >, SYNSEM [ LKEYS.KEYREL.PRED "_correct_v_1_rel", PHON.ONSET con ] ]. correction_n1 := n_pp_mc-of_le & [ STEM < "correction" >, SYNSEM [ LKEYS.KEYREL.PRED "_correction_n_of_rel", PHON.ONSET con ] ]. corrective_a1 := aj_-_i_le & [ STEM < "corrective" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrective_a_1_rel", PHON.ONSET con ] ]. corrective_n1 := n_-_c_le & [ STEM < "corrective" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrective_n_1_rel", PHON.ONSET con ] ]. correctly := av_-_i-vp_le & [ STEM < "correctly" >, SYNSEM [ LKEYS.KEYREL.PRED "_correct_a_1_rel", PHON.ONSET con ] ]. correctness_n1 := n_-_m_le & [ STEM < "correctness" >, SYNSEM [ LKEYS.KEYREL.PRED "_correctness_n_1_rel", PHON.ONSET con ] ]. correlate_n1 := n_-_c_le & [ STEM < "correlate" >, SYNSEM [ LKEYS.KEYREL.PRED "_correlate_n_1_rel", PHON.ONSET con ] ]. correlate_v1 := v_np_noger_le & [ STEM < "correlate" >, SYNSEM [ LKEYS.KEYREL.PRED "_correlate_v_cause_rel", PHON.ONSET con ] ]. correlate_v2 := v_-_unacc_le & [ STEM < "correlate" >, SYNSEM [ LKEYS.KEYREL.PRED "_correlate_v_1_rel", PHON.ONSET con ] ]. correlation_n1 := n_pp_mc_le & [ STEM < "correlation" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_correlation_n_with_rel" ], PHON.ONSET con ] ]. correlative_n1 := n_-_c_le & [ STEM < "correlative" >, SYNSEM [ LKEYS.KEYREL.PRED "_correlative_n_1_rel", PHON.ONSET con ] ]. correlatively_adv := av_-_i-vp_le & [ STEM < "correlatively" >, SYNSEM [ LKEYS.KEYREL.PRED "_correlative_a_1_rel", PHON.ONSET con ] ]. correspond_v1 := v_pp_e_le & [ STEM < "correspond" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_correspond_v_to_rel" ], PHON.ONSET con ] ]. correspond_v2 := v_pp_e_le & [ STEM < "correspond" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_correspond_v_to_rel" ], PHON.ONSET con ] ]. correspond_v3 := v_-_le & [ STEM < "correspond" >, SYNSEM [ LKEYS.KEYREL.PRED "_correspond_v_1_rel", PHON.ONSET con ] ]. correspondence_n1 := n_-_m_le & [ STEM < "correspondence" >, SYNSEM [ LKEYS.KEYREL.PRED "_correspondence_n_1_rel", PHON.ONSET con ] ]. correspondent_n1 := n_-_c_le & [ STEM < "correspondent" >, SYNSEM [ LKEYS.KEYREL.PRED "_correspondent_n_1_rel", PHON.ONSET con ] ]. corresponding_isect := aj_-_i_le & [ STEM < "corresponding" >, SYNSEM [ LKEYS.KEYREL.PRED "_corresponding_a_1_rel", PHON.ONSET con ] ]. correspondingly := av_-_i-vp-x_le & [ STEM < "correspondingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_corresponding_a_1_rel", PHON.ONSET con ] ]. correspondingly_adv1 := av_-_s-vp-x_le & [ STEM < "correspondingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_correspondingly_a_1_rel", PHON.ONSET con ] ]. correspondingly_adv2 := av_-_s-vp-po_le & [ STEM < "correspondingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_correspondingly_a_1_rel", PHON.ONSET con ] ]. correspondingly_adv3 := av_-_i-ap-pp_le & [ STEM < "correspondingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_corresponding_a_1_rel", PHON.ONSET con ] ]. corridor_n1 := n_-_c_le & [ STEM < "corridor" >, SYNSEM [ LKEYS.KEYREL.PRED "_corridor_n_1_rel", PHON.ONSET con ] ]. corroborate_v1 := v_np_le & [ STEM < "corroborate" >, SYNSEM [ LKEYS.KEYREL.PRED "_corroborate_v_1_rel", PHON.ONSET con ] ]. corrode_v1 := v_np_noger_le & [ STEM < "corrode" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrode_v_cause_rel", PHON.ONSET con ] ]. corrode_v2 := v_-_unacc_le & [ STEM < "corrode" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrode_v_1_rel", PHON.ONSET con ] ]. corrosion_n1 := n_-_m_le & [ STEM < "corrosion" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrosion_n_1_rel", PHON.ONSET con ] ]. corrosive_a1 := aj_-_i_le & [ STEM < "corrosive" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrosive_a_1_rel", PHON.ONSET con ] ]. corrosive_n1 := n_-_c_le & [ STEM < "corrosive" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrosive_n_1_rel", PHON.ONSET con ] ]. corrugate_v1 := v_np_le & [ STEM < "corrugate" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrugate_v_1_rel", PHON.ONSET con ] ]. corrugation_n1 := n_-_m_le & [ STEM < "corrugation" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrugation_n_1_rel", PHON.ONSET con ] ]. corrupt_a1 := aj_-_i_le & [ STEM < "corrupt" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrupt_a_1_rel", PHON.ONSET con ] ]. corrupt_v1 := v_np_le & [ STEM < "corrupt" >, SYNSEM [ LKEYS.KEYREL.PRED "_corrupt_v_1_rel", PHON.ONSET con ] ]. corruption_n1 := n_-_mc_le & [ STEM < "corruption" >, SYNSEM [ LKEYS.KEYREL.PRED "_corruption_n_1_rel", PHON.ONSET con ] ]. corset_n1 := n_-_c_le & [ STEM < "corset" >, SYNSEM [ LKEYS.KEYREL.PRED "_corset_n_1_rel", PHON.ONSET con ] ]. corvette_n1 := n_-_pn_le & [ STEM < "Corvette" >, SYNSEM [ LKEYS.KEYREL.CARG "Corvette", PHON.ONSET con ] ]. coset_n1 := n_-_c_le & [ STEM < "coset" >, SYNSEM [ LKEYS.KEYREL.PRED "_coset_n_1_rel", PHON.ONSET con ] ]. cosily := av_-_i-vp_le & [ STEM < "cosily" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosy_a_1_rel", PHON.ONSET con ] ]. cosine_n1 := n_-_c_le & [ STEM < "cosine" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosine_n_1_rel", PHON.ONSET con ] ]. cosmic_a1 := aj_-_i_le & [ STEM < "cosmic" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosmic_a_1_rel", PHON.ONSET con ] ]. cosmopolitan_a1 := aj_-_i_le & [ STEM < "cosmopolitan" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosmopolitan_a_1_rel", PHON.ONSET con ] ]. cosmos_n1 := n_-_mc_le & [ STEM < "cosmos" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosmos_n_1_rel", PHON.ONSET con ] ]. cost_n1 := n_-_mc_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_n_1_rel", PHON.ONSET con ] ]. cost_v1 := v_np-np_only_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_v_1_rel", PHON.ONSET con ] ]. cost_v2 := v_np_ntr_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_v_1_rel", PHON.ONSET con ] ]. cost_v3 := v_np-np-cp_it-s_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_v_x_rel", PHON.ONSET con ] ]. cost_v4 := v_np-np-vp_it-s_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_v_x_rel", PHON.ONSET con ] ]. cost_v5 := v_np-np*-vp_it-s_le & [ STEM < "cost" >, SYNSEM [ LKEYS.KEYREL.PRED "_cost_v_x_rel", PHON.ONSET con ] ]. costa_rica_n1 := n_-_pn_le & [ STEM < "Costa", "Rica" >, SYNSEM [ LKEYS.KEYREL.CARG "Costa_Rica", PHON.ONSET con ] ]. costa_rican_a1 := aj_-_i_le & [ STEM < "Costa", "Rican" >, SYNSEM [ LKEYS.KEYREL.PRED "_costa+rican_a_1_rel", PHON.ONSET con ] ]. costa_rican_n1 := n_-_c-nocnh_le & [ STEM < "Costa", "Rican" >, SYNSEM [ LKEYS.KEYREL.PRED "_costa+rican_n_1_rel", PHON.ONSET con ] ]. costings_n1 := n_-_c-pl-nocnh_le & [ STEM < "costing" >, SYNSEM [ LKEYS.KEYREL.PRED "_costings_n_1_rel", PHON.ONSET con ] ]. costlier_a1 := aj_pp_i-cmp_le & [ STEM < "costlier" >, SYNSEM [ LKEYS.KEYREL.PRED "_costly_a_1_rel", PHON.ONSET con ] ]. costliest := aj_-_i-sup_le & [ STEM < "costliest" >, SYNSEM [ LKEYS.KEYREL.PRED "_costly_a_1_rel", PHON.ONSET con ] ]. costly_a1 := aj_-_i_le & [ STEM < "costly" >, SYNSEM [ LKEYS.KEYREL.PRED "_costly_a_1_rel", PHON.ONSET con ] ]. costume_n1 := n_-_c_le & [ STEM < "costume" >, SYNSEM [ LKEYS.KEYREL.PRED "_costume_n_1_rel", PHON.ONSET con ] ]. cosy_a1 := aj_-_i_le & [ STEM < "cosy" >, SYNSEM [ LKEYS.KEYREL.PRED "_cosy_a_1_rel", PHON.ONSET con ] ]. cottage_n1 := n_-_c_le & [ STEM < "cottage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cottage_n_1_rel", PHON.ONSET con ] ]. cottage_post_ttl := n_-_tt-post_le & [ STEM < "Cottage" >, SYNSEM [ LKEYS.KEYREL.PRED "_cottage_n_1_rel", PHON.ONSET con ] ]. cotter_n1 := n_-_c_le & [ STEM < "cotter" >, SYNSEM [ LKEYS.KEYREL.PRED "_cotter_n_1_rel", PHON.ONSET con ] ]. cotton_n1 := n_-_m_le & [ STEM < "cotton" >, SYNSEM [ LKEYS.KEYREL.PRED "_cotton_n_1_rel", PHON.ONSET con ] ]. cotton_on_v1 := v_p_le & [ STEM < "cotton" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_cotton_v_on_rel" ], PHON.ONSET con ] ]. cotton_on_v2 := v_p-pp_le & [ STEM < "cotton" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_cotton_v_on_rel" ], PHON.ONSET con ] ]. cotton_v1 := v_pp_le & [ STEM < "cotton" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_rel, KEYREL.PRED "_cotton_v_1_rel" ], PHON.ONSET con ] ]. cottonseed_n1 := n_-_mc_le & [ STEM < "cottonseed" >, SYNSEM [ LKEYS.KEYREL.PRED "_cottonseed_n_1_rel", PHON.ONSET con ] ]. cotyledon_n1 := n_-_c_le & [ STEM < "cotyledon" >, SYNSEM [ LKEYS.KEYREL.PRED "_cotyledon_n_1_rel", PHON.ONSET con ] ]. couch_n1 := n_-_c_le & [ STEM < "couch" >, SYNSEM [ LKEYS.KEYREL.PRED "_couch_n_1_rel", PHON.ONSET con ] ]. couch_v1 := v_np-pp_e_le & [ STEM < "couch" >, SYNSEM [ LKEYS [ --OCOMPKEY _in_p_sel_rel, KEYREL.PRED "_couch_v_in_rel" ], PHON.ONSET con ] ]. cough_n1 := n_-_c_le & [ STEM < "cough" >, SYNSEM [ LKEYS.KEYREL.PRED "_cough_n_1_rel", PHON.ONSET con ] ]. cough_up_v1 := v_p-np_le & [ STEM < "cough" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_cough_v_up_rel" ], PHON.ONSET con ] ]. cough_v1 := v_-_le & [ STEM < "cough" >, SYNSEM [ LKEYS.KEYREL.PRED "_cough_v_1_rel", PHON.ONSET con ] ]. coughlin_n1 := n_-_pn_le & [ STEM < "Coughlin" >, SYNSEM [ LKEYS.KEYREL.CARG "Coughlin", PHON.ONSET con ] ]. could_aux_neg_1 := v_vp_mdl-n-pst_le & [ STEM < "couldn't" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. could_aux_neg_1b := v_vp_mdl-n_le & [ STEM < "couldn't" >, SYNSEM [ LKEYS.KEYREL.PRED _could_v_modal_rel, PHON.ONSET con ] ]. could_aux_neg_2 := v_vp_mdl-n-pst_le & [ STEM < "couldn", "'t" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. could_aux_neg_2b := v_vp_mdl-n_le & [ STEM < "couldn", "'t" >, SYNSEM [ LKEYS.KEYREL.PRED _could_v_modal_rel, PHON.ONSET con ] ]. could_aux_pos := v_vp_mdl-p-unsp_le & [ STEM < "could" >, SYNSEM [ LKEYS.KEYREL.PRED _could_v_modal_rel, PHON.ONSET con ] ]. could_aux_pos2 := v_vp_mdl-p-pst_le & [ STEM < "could" >, SYNSEM [ LKEYS.KEYREL.PRED _can_v_modal_rel, PHON.ONSET con ] ]. coun_n1 := n_-_pn_le & [ STEM < "Coun" >, SYNSEM [ LKEYS.KEYREL.CARG "Coun", PHON.ONSET con ] ]. council_n1 := n_pp_mc-of_le & [ STEM < "council" >, SYNSEM [ LKEYS.KEYREL.PRED "_council_n_of_rel", PHON.ONSET con ] ]. councillor_n1 := n_-_c_le & [ STEM < "councillor" >, SYNSEM [ LKEYS.KEYREL.PRED "_councillor_n_1_rel", PHON.ONSET con ] ]. counsel_n1 := n_-_mc_le & [ STEM < "counsel" >, SYNSEM [ LKEYS.KEYREL.PRED "_counsel_n_1_rel", PHON.ONSET con ] ]. counsel_v1 := v_np_le & [ STEM < "counsel" >, SYNSEM [ LKEYS.KEYREL.PRED "_counsel_v_1_rel", PHON.ONSET con ] ]. counsellor_n1 := n_-_c_le & [ STEM < "counsellor" >, SYNSEM [ LKEYS.KEYREL.PRED "_counsellor_n_1_rel", PHON.ONSET con ] ]. counselor_n1 := n_-_c_le & [ STEM < "counselor" >, SYNSEM [ LKEYS.KEYREL.PRED "_counselor_n_1_rel", PHON.ONSET con ] ]. count_as_v1 := v_pp_e_le & [ STEM < "count" >, SYNSEM [ LKEYS [ --COMPKEY _as_p_sel_rel, KEYREL.PRED "_count_v_as_rel" ], PHON.ONSET con ] ]. count_for_v1 := v_pp_e_le & [ STEM < "count" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_count_v_for_rel" ], PHON.ONSET con ] ]. count_in_v1 := v_np-p_le & [ STEM < "count" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_count_v_in_rel" ], PHON.ONSET con ] ]. count_n1 := n_-_c_le & [ STEM < "count" >, SYNSEM [ LKEYS.KEYREL.PRED "_count_n_1_rel", PHON.ONSET con ] ]. count_n1_i := n_-_c-br-idm_le & [ STEM < "count" >, SYNSEM [ LKEYS.KEYREL.PRED "_count_n_i_rel", PHON.ONSET con ] ]. count_on_v1 := v_pp_e_le & [ STEM < "count" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_count_v_on_rel" ], PHON.ONSET con ] ]. count_out_v1 := v_p-np_le & [ STEM < "count" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_count_v_out_rel" ], PHON.ONSET con ] ]. count_v1 := v_-_unacc_le & [ STEM < "count" >, SYNSEM [ LKEYS.KEYREL.PRED "_count_v_1_rel", PHON.ONSET con ] ]. count_v2 := v_np*_le & [ STEM < "count" >, SYNSEM [ LKEYS.KEYREL.PRED "_count_v_1_rel", PHON.ONSET con ] ]. countable_a1 := aj_-_i_le & [ STEM < "countable" >, SYNSEM [ LKEYS.KEYREL.PRED "_countable_a_1_rel", PHON.ONSET con ] ]. countenance_n1 := n_-_mc_le & [ STEM < "countenance" >, SYNSEM [ LKEYS.KEYREL.PRED "_countenance_n_1_rel", PHON.ONSET con ] ]. countenance_v1 := v_np_le & [ STEM < "countenance" >, SYNSEM [ LKEYS.KEYREL.PRED "_countenance_v_1_rel", PHON.ONSET con ] ]. counter-proposal_n1 := n_-_c_le & [ STEM < "counter", "proposal" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+proposal_n_1_rel", PHON.ONSET con ] ]. counter-proposal_n2 := n_-_c_le & [ STEM < "counter-", "proposal" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+proposal_n_1_rel", PHON.ONSET con ] ]. counter_n1 := n_-_c_le & [ STEM < "counter" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter_n_1_rel", PHON.ONSET con ] ]. counter_narcotic_a1 := aj_-_i_le & [ STEM < "counter", "narcotic" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+narcotic_a_1_rel", PHON.ONSET con ] ]. counter_narcotic_a2 := aj_-_i_le & [ STEM < "counter-", "narcotic" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+narcotic_a_1_rel", PHON.ONSET con ] ]. counter_narcotics_n1 := n_-_c_le & [ STEM < "counter", "narcotics" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+narcotics_n_1_rel", PHON.ONSET con ] ]. counter_narcotics_n2 := n_-_c_le & [ STEM < "counter-", "narcotics" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter+narcotics_n_1_rel", PHON.ONSET con ] ]. counter_v1 := v_np_le & [ STEM < "counter" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter_v_1_rel", PHON.ONSET con ] ]. counter_v2 := v_cp_prop_le & [ STEM < "counter" >, SYNSEM [ LKEYS.KEYREL.PRED "_counter_v_1_rel", PHON.ONSET con ] ]. counteract_v1 := v_np_le & [ STEM < "counteract" >, SYNSEM [ LKEYS.KEYREL.PRED "_counteract_v_1_rel", PHON.ONSET con ] ]. counteract_v2 := v_np_le & [ STEM < "counter-", "act" >, SYNSEM [ LKEYS.KEYREL.PRED "_counteract_v_1_rel", PHON.ONSET con ] ]. counterbalance_n1 := n_-_mc_le & [ STEM < "counterbalance" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterbalance_n_1_rel", PHON.ONSET con ] ]. counterbalance_v1 := v_np_le & [ STEM < "counterbalance" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterbalance_v_1_rel", PHON.ONSET con ] ]. counterexample_n1 := n_-_c_le & [ STEM < "counterexample" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterexample_n_1_rel", PHON.ONSET con ] ]. counterfeit_a1 := aj_-_i_le & [ STEM < "counterfeit" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterfeit_a_1_rel", PHON.ONSET con ] ]. counterfeit_n1 := n_-_c_le & [ STEM < "counterfeit" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterfeit_n_1_rel", PHON.ONSET con ] ]. counterfeit_v1 := v_np_le & [ STEM < "counterfeit" >, SYNSEM [ LKEYS.KEYREL.PRED "_counterfeit_v_1_rel", PHON.ONSET con ] ]. countermovement_n1 := n_-_mc_le & [ STEM < "countermovement" >, SYNSEM [ LKEYS.KEYREL.PRED "_countermovement_n_1_rel", PHON.ONSET con ] ]. counteroffer_n1 := n_-_c_le & [ STEM < "counteroffer" >, SYNSEM [ LKEYS.KEYREL.PRED "_counteroffer_n_1_rel", PHON.ONSET con ] ]. counterpart_n1 := n_pp_c_le & [ STEM < "counterpart" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_counterpart_n_to_rel" ], PHON.ONSET con ] ]. countervail_v1 := v_np_le & [ STEM < "countervail" >, SYNSEM [ LKEYS.KEYREL.PRED "_countervail_v_1_rel", PHON.ONSET con ] ]. countless_a1 := aj_-_i-att_le & [ STEM < "countless" >, SYNSEM [ LKEYS.KEYREL.PRED "_countless_a_1_rel", PHON.ONSET con ] ]. country_n1 := n_pp_mc-of_le & [ STEM < "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_country_n_of_rel", PHON.ONSET con ] ]. countrypeople_n1 := n_-_c-pl_le & [ STEM < "countrypeople" >, SYNSEM [ LKEYS.KEYREL.PRED "_countrypeople_n_1_rel", PHON.ONSET con ] ]. countryside_n1 := n_-_mc_le & [ STEM < "countryside" >, SYNSEM [ LKEYS.KEYREL.PRED "_countryside_n_1_rel", PHON.ONSET con ] ]. county_n1 := n_pp_mc-of_le & [ STEM < "county" >, SYNSEM [ LKEYS.KEYREL.PRED "_county_n_of_rel", PHON.ONSET con ] ]. county_post_ttl := n_-_tt-post_le & [ STEM < "County" >, SYNSEM [ LKEYS.KEYREL.PRED "_county_n_of_rel", PHON.ONSET con ] ]. coup_n1 := n_-_c_le & [ STEM < "coup" >, SYNSEM [ LKEYS.KEYREL.PRED "_coup_n_1_rel", PHON.ONSET con ] ]. couple_adj := aj_-_i-crd-one_le & [ STEM < "couple" >, SYNSEM [ LKEYS.KEYREL.CARG "2", PHON.ONSET con ] ]. couple_n1 := n_-_c_le & [ STEM < "couple" >, SYNSEM [ LKEYS.KEYREL.PRED "_couple_n_1_rel", PHON.ONSET con ] ]. couple_v1 := v_np_le & [ STEM < "couple" >, SYNSEM [ LKEYS.KEYREL.PRED "_couple_v_with_rel", PHON.ONSET con ] ]. couple_v2 := v_np-pp_e_le & [ STEM < "couple" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_couple_v_with_rel" ], PHON.ONSET con ] ]. couplet_n1 := n_-_c_le & [ STEM < "couplet" >, SYNSEM [ LKEYS.KEYREL.PRED "_couplet_n_1_rel", PHON.ONSET con ] ]. coupling_n1 := n_-_mc_le & [ STEM < "coupling" >, SYNSEM [ LKEYS.KEYREL.PRED "_coupling_n_1_rel", PHON.ONSET con ] ]. coupon_n1 := n_-_c_le & [ STEM < "coupon" >, SYNSEM [ LKEYS.KEYREL.PRED "_coupon_n_1_rel", PHON.ONSET con ] ]. courage_n1 := n_-_m_le & [ STEM < "courage" >, SYNSEM [ LKEYS.KEYREL.PRED "_courage_n_1_rel", PHON.ONSET con ] ]. course_n1 := n_pp_c-of_le & [ STEM < "course" >, SYNSEM [ LKEYS.KEYREL.PRED "_course_n_of_rel", PHON.ONSET con ] ]. course_n1_i := n_-_c-br-idm_le & [ STEM < "course" >, SYNSEM [ LKEYS.KEYREL.PRED "_course_n_i_rel", PHON.ONSET con ] ]. course_n2 := n_-_c-brj_le & [ STEM < "course" >, SYNSEM [ LKEYS.KEYREL.PRED "_course_n_of_rel", PHON.ONSET con ] ]. course_v1 := v_pp*_dir_le & [ STEM < "course" >, SYNSEM [ LKEYS.KEYREL.PRED "_course_v_1_rel", PHON.ONSET con ] ]. court_i_n1 := n_-_c-br_le & [ STEM < "court" >, SYNSEM [ LKEYS.KEYREL.PRED "_court_n_of_rel", PHON.ONSET con ] ]. court_n1 := n_pp_c-of_le & [ STEM < "court" >, SYNSEM [ LKEYS.KEYREL.PRED "_court_n_of_rel", PHON.ONSET con ] ]. court_v1 := v_np*_le & [ STEM < "court" >, SYNSEM [ LKEYS.KEYREL.PRED "_court_v_1_rel", PHON.ONSET con ] ]. courtaulds_n1 := n_-_pn_le & [ STEM < "Courtaulds" >, SYNSEM [ LKEYS.KEYREL.CARG "Courtaulds", PHON.ONSET con ] ]. courtesy_n1 := n_-_mc_le & [ STEM < "courtesy" >, SYNSEM [ LKEYS.KEYREL.PRED "_courtesy_n_1_rel", PHON.ONSET con ] ]. courtier_n1 := n_-_c_le & [ STEM < "courtier" >, SYNSEM [ LKEYS.KEYREL.PRED "_courtier_n_1_rel", PHON.ONSET con ] ]. courtney := n_-_pn_le & [ STEM < "Courtney" >, SYNSEM [ LKEYS.KEYREL.CARG "Courtney", PHON.ONSET con ] ]. courtship_n1 := n_-_mc_le & [ STEM < "courtship" >, SYNSEM [ LKEYS.KEYREL.PRED "_courtship_n_1_rel", PHON.ONSET con ] ]. courtyard_n1 := n_-_c_le & [ STEM < "courtyard" >, SYNSEM [ LKEYS.KEYREL.PRED "_courtyard_n_1_rel", PHON.ONSET con ] ]. cousin_n1 := n_-_c_le & [ STEM < "cousin" >, SYNSEM [ LKEYS.KEYREL.PRED "_cousin_n_1_rel", PHON.ONSET con ] ]. cousteau_n1 := n_-_pn_le & [ STEM < "Cousteau" >, SYNSEM [ LKEYS.KEYREL.CARG "Cousteau", PHON.ONSET con ] ]. coventry_n1 := n_-_pn-city_le & [ STEM < "Coventry" >, SYNSEM [ LKEYS.KEYREL.CARG "Coventry", PHON.ONSET con ] ]. cover_n1 := n_-_mc_le & [ STEM < "cover" >, SYNSEM [ LKEYS.KEYREL.PRED "_cover_n_1_rel", PHON.ONSET con ] ]. cover_up_v1 := v_p-np_le & [ STEM < "cover" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_cover_v_up_rel" ], PHON.ONSET con ] ]. cover_v1 := v_np*_le & [ STEM < "cover" >, SYNSEM [ LKEYS.KEYREL.PRED "_cover_v_1_rel", PHON.ONSET con ] ]. cover_v2 := v_pp_e_le & [ STEM < "cover" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_cover_v_for_rel" ], PHON.ONSET con ] ]. cover_v3 := v_np-pp_le & [ STEM < "cover" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_rel, KEYREL.PRED "_cover_v_1_rel" ], PHON.ONSET con ] ]. coverage_n1 := n_pp_mc-of_le & [ STEM < "coverage" >, SYNSEM [ LKEYS.KEYREL.PRED "_coverage_n_of_rel", PHON.ONSET con ] ]. covered_up_isect := aj_-_i_le & [ STEM < "covered", "up" >, SYNSEM [ LKEYS.KEYREL.PRED "_covered+up_a_1_rel", PHON.ONSET con ] ]. covering_n1 := n_-_c-nocnh_le & [ STEM < "covering" >, SYNSEM [ LKEYS.KEYREL.PRED "_covering_n_1_rel", PHON.ONSET con ] ]. coverlet_n1 := n_-_c_le & [ STEM < "coverlet" >, SYNSEM [ LKEYS.KEYREL.PRED "_coverlet_n_1_rel", PHON.ONSET con ] ]. covert_a1 := aj_-_i_le & [ STEM < "covert" >, SYNSEM [ LKEYS.KEYREL.PRED "_covert_a_1_rel", PHON.ONSET con ] ]. covet_v1 := v_np_le & [ STEM < "covet" >, SYNSEM [ LKEYS.KEYREL.PRED "_covet_v_1_rel", PHON.ONSET con ] ]. covetous_a1 := aj_-_i_le & [ STEM < "covetous" >, SYNSEM [ LKEYS.KEYREL.PRED "_covetous_a_1_rel", PHON.ONSET con ] ]. covetousness_n1 := n_-_mc_le & [ STEM < "covetousness" >, SYNSEM [ LKEYS.KEYREL.PRED "_covetousness_n_1_rel", PHON.ONSET con ] ]. cow_n1 := n_-_c_le & [ STEM < "cow" >, SYNSEM [ LKEYS.KEYREL.PRED "_cow_n_1_rel", PHON.ONSET con ] ]. cow_v1 := v_np_le & [ STEM < "cow" >, SYNSEM [ LKEYS.KEYREL.PRED "_cow_v_1_rel", PHON.ONSET con ] ]. coward_n1 := n_-_c_le & [ STEM < "coward" >, SYNSEM [ LKEYS.KEYREL.PRED "_coward_n_1_rel", PHON.ONSET con ] ]. cowberry_n1 := n_-_c_le & [ STEM < "cowberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cowberry_n_1_rel", PHON.ONSET con ] ]. cowboy_n1 := n_-_c_le & [ STEM < "cowboy" >, SYNSEM [ LKEYS.KEYREL.PRED "_cowboy_n_1_rel", PHON.ONSET con ] ]. cowherd_n1 := n_-_c_le & [ STEM < "cowherd" >, SYNSEM [ LKEYS.KEYREL.PRED "_cowherd_n_1_rel", PHON.ONSET con ] ]. cowley_n1 := n_-_pn_le & [ STEM < "Cowley" >, SYNSEM [ LKEYS.KEYREL.CARG "Cowley", PHON.ONSET con ] ]. cowshed_n1 := n_-_c_le & [ STEM < "cowshed" >, SYNSEM [ LKEYS.KEYREL.PRED "_cowshed_n_1_rel", PHON.ONSET con ] ]. cox_n1 := n_-_pn_le & [ STEM < "Cox" >, SYNSEM [ LKEYS.KEYREL.CARG "Cox", PHON.ONSET con ] ]. cozily_adv := av_-_i-vp_le & [ STEM < "cozily" >, SYNSEM [ LKEYS.KEYREL.PRED "_cozy_a_1_rel", PHON.ONSET con ] ]. cozy_a1 := aj_-_i_le & [ STEM < "cozy" >, SYNSEM [ LKEYS.KEYREL.PRED "_cozy_a_1_rel", PHON.ONSET con ] ]. cpr_n1 := n_-_pn_le & [ STEM < "CPR" >, SYNSEM [ LKEYS.KEYREL.CARG "CPR", PHON.ONSET con ] ]. cpu_n1 := n_-_c_le & [ STEM < "cpu" >, SYNSEM [ LKEYS.KEYREL.PRED "_cpu_n_1_rel", PHON.ONSET con ] ]. crab_n1 := n_-_mc_le & [ STEM < "crab" >, SYNSEM [ LKEYS.KEYREL.PRED "_crab_n_1_rel", PHON.ONSET con ] ]. crack_down_v1 := v_p-pp_le & [ STEM < "crack" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, --OCOMPKEY _on_p_rel, KEYREL.PRED "_crack_v_down_rel" ], PHON.ONSET con ] ]. crack_down_v2 := v_p_le & [ STEM < "crack" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_crack_v_down_rel" ], PHON.ONSET con ] ]. crack_n1 := n_-_mc_le & [ STEM < "crack" >, SYNSEM [ LKEYS.KEYREL.PRED "_crack_n_1_rel", PHON.ONSET con ] ]. crack_up_v1 := v_p-np_le & [ STEM < "crack" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_crack_v_up_rel" ], PHON.ONSET con ] ]. crack_up_v2 := v_p_le & [ STEM < "crack" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_crack_v_up_rel" ], PHON.ONSET con ] ]. crack_v1 := v_np_noger_le & [ STEM < "crack" >, SYNSEM [ LKEYS.KEYREL.PRED "_crack_v_cause_rel", PHON.ONSET con ] ]. crack_v2 := v_-_unacc_le & [ STEM < "crack" >, SYNSEM [ LKEYS.KEYREL.PRED "_crack_v_1_rel", PHON.ONSET con ] ]. cracker_n1 := n_pp_c-of_le & [ STEM < "cracker" >, SYNSEM [ LKEYS.KEYREL.PRED "_cracker_n_of_rel", PHON.ONSET con ] ]. crackle_n1 := n_-_c_le & [ STEM < "crackle" >, SYNSEM [ LKEYS.KEYREL.PRED "_crackle_n_1_rel", PHON.ONSET con ] ]. crackle_v1 := v_-_le & [ STEM < "crackle" >, SYNSEM [ LKEYS.KEYREL.PRED "_crackle_v_1_rel", PHON.ONSET con ] ]. cradle_n1 := n_-_c_le & [ STEM < "cradle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cradle_n_1_rel", PHON.ONSET con ] ]. cradle_v1 := v_np_le & [ STEM < "cradle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cradle_v_1_rel", PHON.ONSET con ] ]. craft_n1 := n_-_mc_le & [ STEM < "craft" >, SYNSEM [ LKEYS.KEYREL.PRED "_craft_n_1_rel", PHON.ONSET con ] ]. craft_v1 := v_np_le & [ STEM < "craft" >, SYNSEM [ LKEYS.KEYREL.PRED "_craft_v_1_rel", PHON.ONSET con ] ]. craftsman_n1 := n_-_c_le & [ STEM < "craftsman" >, SYNSEM [ LKEYS.KEYREL.PRED "_craftsman_n_1_rel", PHON.ONSET con ] ]. craftsmanship_n1 := n_-_mc_le & [ STEM < "craftsmanship" >, SYNSEM [ LKEYS.KEYREL.PRED "_craftsmanship_n_1_rel", PHON.ONSET con ] ]. crafty_a1 := aj_-_i_le & [ STEM < "crafty" >, SYNSEM [ LKEYS.KEYREL.PRED "_crafty_a_1_rel", PHON.ONSET con ] ]. crag_n1 := n_-_c_le & [ STEM < "crag" >, SYNSEM [ LKEYS.KEYREL.PRED "_crag_n_1_rel", PHON.ONSET con ] ]. craggy_a1 := aj_-_i_le & [ STEM < "craggy" >, SYNSEM [ LKEYS.KEYREL.PRED "_craggy_a_1_rel", PHON.ONSET con ] ]. craig := n_-_pn_le & [ STEM < "Craig" >, SYNSEM [ LKEYS.KEYREL.CARG "Craig", PHON.ONSET con ] ]. cram_v1 := v_pp*_dir_le & [ STEM < "cram" >, SYNSEM [ LKEYS.KEYREL.PRED "_cram_v_1_rel", PHON.ONSET con ] ]. cram_v2 := v_np-pp_prop_le & [ STEM < "cram" >, SYNSEM [ LKEYS.KEYREL.PRED "_cram_v_1_rel", PHON.ONSET con ] ]. cram_with_v1 := v_np-pp_e_le & [ STEM < "cram" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_cram_v_with_rel" ], PHON.ONSET con ] ]. cramped_a1 := aj_-_i_le & [ STEM < "cramped" >, SYNSEM [ LKEYS.KEYREL.PRED "_cramped_a_1_rel", PHON.ONSET con ] ]. crampon_n1 := n_-_c_le & [ STEM < "crampon" >, SYNSEM [ LKEYS.KEYREL.PRED "_crampon_n_1_rel", PHON.ONSET con ] ]. cranberry_n1 := n_-_c_le & [ STEM < "cranberry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cranberry_n_1_rel", PHON.ONSET con ] ]. crane_n1 := n_-_c_le & [ STEM < "crane" >, SYNSEM [ LKEYS.KEYREL.PRED "_crane_n_1_rel", PHON.ONSET con ] ]. crane_v1 := v_np_le & [ STEM < "crane" >, SYNSEM [ LKEYS.KEYREL.PRED "_crane_v_1_rel", PHON.ONSET con ] ]. crank_n1 := n_-_c_le & [ STEM < "crank" >, SYNSEM [ LKEYS.KEYREL.PRED "_crank_n_1_rel", PHON.ONSET con ] ]. crank_out_v1 := v_p-np_le & [ STEM < "crank" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_crank_v_out_rel" ], PHON.ONSET con ] ]. crank_up_v1 := v_p-np_le & [ STEM < "crank" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_crank_v_up_rel" ], PHON.ONSET con ] ]. crank_v1 := v_np*_le & [ STEM < "crank" >, SYNSEM [ LKEYS.KEYREL.PRED "_crank_v_1_rel", PHON.ONSET con ] ]. cranky_a1 := aj_-_i_le & [ STEM < "cranky" >, SYNSEM [ LKEYS.KEYREL.PRED "_cranky_a_1_rel", PHON.ONSET con ] ]. cranny_n1 := n_-_c_le & [ STEM < "cranny" >, SYNSEM [ LKEYS.KEYREL.PRED "_cranny_n_1_rel", PHON.ONSET con ] ]. cranston_n1 := n_-_pn_le & [ STEM < "Cranston" >, SYNSEM [ LKEYS.KEYREL.CARG "Cranston", PHON.ONSET con ] ]. crap_n1 := n_-_mc_le & [ STEM < "crap" >, SYNSEM [ LKEYS.KEYREL.PRED "_crap_n_1_rel", PHON.ONSET con ] ]. crappy_adj := aj_-_i_le & [ STEM < "crappy" >, SYNSEM [ LKEYS.KEYREL.PRED "_crappy_a_1_rel", PHON.ONSET con ] ]. crash_into_v1 := v_np-pp_e_le & [ STEM < "crash" >, SYNSEM [ LKEYS [ --OCOMPKEY _into_p_sel_rel, KEYREL.PRED "_crash_v_cause-into_rel" ], PHON.ONSET con ] ]. crash_into_v2 := v_pp_e_le & [ STEM < "crash" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_crash_v_into_rel" ], PHON.ONSET con ] ]. crash_n := n_-_c_le & [ STEM < "crash" >, SYNSEM [ LKEYS.KEYREL.PRED "_crash_n_1_rel", PHON.ONSET con ] ]. crash_v1 := v_pp_unacc_le & [ STEM < "crash" >, SYNSEM [ LKEYS.KEYREL.PRED "_crash_v_1_rel", PHON.ONSET con ] ]. crash_v2 := v_np_noger_le & [ STEM < "crash" >, SYNSEM [ LKEYS.KEYREL.PRED "_crash_v_cause_rel", PHON.ONSET con ] ]. crater_n1 := n_-_c_le & [ STEM < "crater" >, SYNSEM [ LKEYS.KEYREL.PRED "_crater_n_1_rel", PHON.ONSET con ] ]. crater_v1 := v_np_le & [ STEM < "crater" >, SYNSEM [ LKEYS.KEYREL.PRED "_crater_v_1_rel", PHON.ONSET con ] ]. crave_v1 := v_np_le & [ STEM < "crave" >, SYNSEM [ LKEYS.KEYREL.PRED "_crave_v_1_rel", PHON.ONSET con ] ]. craving_n1 := n_pp_c_le & [ STEM < "craving" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_craving_n_for_rel" ], PHON.ONSET con ] ]. crawford_n1 := n_-_pn_le & [ STEM < "Crawford" >, SYNSEM [ LKEYS.KEYREL.CARG "Crawford", PHON.ONSET con ] ]. crawl_n1 := n_-_c_le & [ STEM < "crawl" >, SYNSEM [ LKEYS.KEYREL.PRED "_crawl_n_1_rel", PHON.ONSET con ] ]. crawl_v1 := v_pp*_dir_le & [ STEM < "crawl" >, SYNSEM [ LKEYS.KEYREL.PRED "_crawl_v_dir_rel", PHON.ONSET con ] ]. crawl_v2 := v_-_le & [ STEM < "crawl" >, SYNSEM [ LKEYS.KEYREL.PRED "_crawl_v_1_rel", PHON.ONSET con ] ]. crawler_n1 := n_-_c_le & [ STEM < "crawler" >, SYNSEM [ LKEYS.KEYREL.PRED "_crawler_n_1_rel", PHON.ONSET con ] ]. crayfish_n1 := n_-_c_le & [ STEM < "crayfish" >, SYNSEM [ LKEYS.KEYREL.PRED "_crayfish_n_1_rel", PHON.ONSET con ] ]. crazily_a1 := av_-_i-vp_le & [ STEM < "crazily" >, SYNSEM [ LKEYS.KEYREL.PRED "_crazy_a_1_rel", PHON.ONSET con ] ]. crazy_a1 := aj_-_i_le & [ STEM < "crazy" >, SYNSEM [ LKEYS.KEYREL.PRED "_crazy_a_1_rel", PHON.ONSET con ] ]. creak_n1 := n_-_c_le & [ STEM < "creak" >, SYNSEM [ LKEYS.KEYREL.PRED "_creak_n_1_rel", PHON.ONSET con ] ]. creak_v1 := v_-_le & [ STEM < "creak" >, SYNSEM [ LKEYS.KEYREL.PRED "_creak_v_1_rel", PHON.ONSET con ] ]. cream_n1 := n_-_mc-col_le & [ STEM < "cream" >, SYNSEM [ LKEYS.KEYREL.PRED "_cream_n_1_rel", PHON.ONSET con ] ]. cream_v1 := v_np_le & [ STEM < "cream" >, SYNSEM [ LKEYS.KEYREL.PRED "_cream_v_1_rel", PHON.ONSET con ] ]. creamy_a1 := aj_-_i_le & [ STEM < "creamy" >, SYNSEM [ LKEYS.KEYREL.PRED "_creamy_a_1_rel", PHON.ONSET con ] ]. crease_n1 := n_-_c_le & [ STEM < "crease" >, SYNSEM [ LKEYS.KEYREL.PRED "_crease_n_1_rel", PHON.ONSET con ] ]. crease_v1 := v_-_unacc_le & [ STEM < "crease" >, SYNSEM [ LKEYS.KEYREL.PRED "_crease_v_1_rel", PHON.ONSET con ] ]. crease_v2 := v_np_noger_le & [ STEM < "crease" >, SYNSEM [ LKEYS.KEYREL.PRED "_crease_v_cause_rel", PHON.ONSET con ] ]. create_v1 := v_np*_le & [ STEM < "create" >, SYNSEM [ LKEYS.KEYREL.PRED "_create_v_1_rel", PHON.ONSET con ] ]. creation_n1 := n_pp_mc-of_le & [ STEM < "creation" >, SYNSEM [ LKEYS.KEYREL.PRED "_creation_n_of_rel", PHON.ONSET con ] ]. creative_a1 := aj_-_i_le & [ STEM < "creative" >, SYNSEM [ LKEYS.KEYREL.PRED "_creative_a_1_rel", PHON.ONSET con ] ]. creativity_n1 := n_-_m_le & [ STEM < "creativity" >, SYNSEM [ LKEYS.KEYREL.PRED "_creativity_n_1_rel", PHON.ONSET con ] ]. creator_n1 := n_-_c_le & [ STEM < "creator" >, SYNSEM [ LKEYS.KEYREL.PRED "_creator_n_1_rel", PHON.ONSET con ] ]. creature_n1 := n_-_c_le & [ STEM < "creature" >, SYNSEM [ LKEYS.KEYREL.PRED "_creature_n_1_rel", PHON.ONSET con ] ]. credibility_n1 := n_-_m_le & [ STEM < "credibility" >, SYNSEM [ LKEYS.KEYREL.PRED "_credibility_n_1_rel", PHON.ONSET con ] ]. credit_back_v1 := v_p-np_le & [ STEM < "credit" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_credit_v_back_rel" ], PHON.ONSET con ] ]. credit_back_v2 := v_p-np-pp_to_le & [ STEM < "credit" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_credit_v_back_rel" ], PHON.ONSET con ] ]. credit_n1 := n_-_mc_le & [ STEM < "credit" >, SYNSEM [ LKEYS.KEYREL.PRED "_credit_n_1_rel", PHON.ONSET con ] ]. credit_v1 := v_np-pp_le & [ STEM < "credit" >, SYNSEM [ LKEYS [ --OCOMPKEY _to_p_rel, KEYREL.PRED "_credit_v_1_rel" ], PHON.ONSET con ] ]. credit_v2 := v_np_le & [ STEM < "credit" >, SYNSEM [ LKEYS.KEYREL.PRED "_credit_v_1_rel", PHON.ONSET con ] ]. credit_v3 := v_np-pp_le & [ STEM < "credit" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_rel, KEYREL.PRED "_credit_v_1_rel" ], PHON.ONSET con ] ]. creditable_a1 := aj_-_i_le & [ STEM < "creditable" >, SYNSEM [ LKEYS.KEYREL.PRED "_creditable_a_1_rel", PHON.ONSET con ] ]. creditor_n1 := n_-_c_le & [ STEM < "creditor" >, SYNSEM [ LKEYS.KEYREL.PRED "_creditor_n_1_rel", PHON.ONSET con ] ]. credulity_n1 := n_-_m_le & [ STEM < "credulity" >, SYNSEM [ LKEYS.KEYREL.PRED "_credulity_n_1_rel", PHON.ONSET con ] ]. creed_n1 := n_-_c_le & [ STEM < "creed" >, SYNSEM [ LKEYS.KEYREL.PRED "_creed_n_1_rel", PHON.ONSET con ] ]. creed_n2 := n_-_pn_le & [ STEM < "Creed" >, SYNSEM [ LKEYS.KEYREL.CARG "Creed", PHON.ONSET con ] ]. creedal_n1 := n_-_pn_le & [ STEM < "Creedal" >, SYNSEM [ LKEYS.KEYREL.CARG "Creedal", PHON.ONSET con ] ]. creek_n1 := n_-_c_le & [ STEM < "creek" >, SYNSEM [ LKEYS.KEYREL.PRED "_creek_n_1_rel", PHON.ONSET con ] ]. creek_post_ttl := n_-_tt-post_le & [ STEM < "Creek" >, SYNSEM [ LKEYS.KEYREL.PRED "_creek_n_1_rel", PHON.ONSET con ] ]. creep_n1 := n_-_c_le & [ STEM < "creep" >, SYNSEM [ LKEYS.KEYREL.PRED "_creep_n_1_rel", PHON.ONSET con ] ]. creep_v1 := v_pp*_dir_le & [ STEM < "creep" >, SYNSEM [ LKEYS.KEYREL.PRED "_creep_v_1_rel", PHON.ONSET con ] ]. creeper_n1 := n_-_mc_le & [ STEM < "creeper" >, SYNSEM [ LKEYS.KEYREL.PRED "_creeper_n_1_rel", PHON.ONSET con ] ]. creeps_n1 := n_-_c-pl-nocnh_le & [ STEM < "creep" >, SYNSEM [ LKEYS.KEYREL.PRED "_creeps_n_1_rel", PHON.ONSET con ] ]. creme_fraiche_n1 := n_-_m_le & [ STEM < "creme", "fraiche" >, SYNSEM [ LKEYS.KEYREL.PRED "_creme+fraiche_n_1_rel", PHON.ONSET con ] ]. creme_fraiche_n2 := n_-_m_le & [ STEM < "créme", "fraiche" >, SYNSEM [ LKEYS.KEYREL.PRED "_creme+fraiche_n_1_rel", PHON.ONSET con ] ]. creme_n1 := n_-_m_le & [ STEM < "creme" >, SYNSEM [ LKEYS.KEYREL.PRED "_creme_n_1_rel", PHON.ONSET con ] ]. creme_n2 := n_-_m_le & [ STEM < "créme" >, SYNSEM [ LKEYS.KEYREL.PRED "_creme_n_1_rel", PHON.ONSET con ] ]. crest_n1 := n_-_pn_le & [ STEM < "Crest" >, SYNSEM [ LKEYS.KEYREL.CARG "Crest", PHON.ONSET con ] ]. crest_n2 := n_-_c-ed_le & [ STEM < "crest" >, SYNSEM [ LKEYS.KEYREL.PRED "_crest_n_1_rel", PHON.ONSET con ] ]. crest_v1 := v_np*_le & [ STEM < "crest" >, SYNSEM [ LKEYS.KEYREL.PRED "_crest_v_1_rel", PHON.ONSET con ] ]. crevasse_n1 := n_-_c_le & [ STEM < "crevasse" >, SYNSEM [ LKEYS.KEYREL.PRED "_crevasse_n_1_rel", PHON.ONSET con ] ]. crevassed_a1 := aj_-_i_le & [ STEM < "crevassed" >, SYNSEM [ LKEYS.KEYREL.PRED "_crevassed_a_1_rel", PHON.ONSET con ] ]. crevice_n1 := n_-_c_le & [ STEM < "crevice" >, SYNSEM [ LKEYS.KEYREL.PRED "_crevice_n_1_rel", PHON.ONSET con ] ]. crew_n1 := n_pp_c-of_le & [ STEM < "crew" >, SYNSEM [ LKEYS.KEYREL.PRED "_crew_n_of_rel", PHON.ONSET con ] ]. crib_n1 := n_-_c_le & [ STEM < "crib" >, SYNSEM [ LKEYS.KEYREL.PRED "_crib_n_1_rel", PHON.ONSET con ] ]. crib_v1 := v_np_le & [ STEM < "crib" >, SYNSEM [ LKEYS.KEYREL.PRED "_crib_v_1_rel", PHON.ONSET con ] ]. cribbage_n1 := n_-_pn_le & [ STEM < "Cribbage" >, SYNSEM [ LKEYS.KEYREL.CARG "Cribbage", PHON.ONSET con ] ]. cricket_n1 := n_-_mc_le & [ STEM < "cricket" >, SYNSEM [ LKEYS.KEYREL.PRED "_cricket_n_1_rel", PHON.ONSET con ] ]. crilly_n1 := n_-_pn_le & [ STEM < "Crilly" >, SYNSEM [ LKEYS.KEYREL.CARG "Crilly", PHON.ONSET con ] ]. crime_n1 := n_-_mc_le & [ STEM < "crime" >, SYNSEM [ LKEYS.KEYREL.PRED "_crime_n_1_rel", PHON.ONSET con ] ]. criminal_a1 := aj_-_i_le & [ STEM < "criminal" >, SYNSEM [ LKEYS.KEYREL.PRED "_criminal_a_1_rel", PHON.ONSET con ] ]. criminal_n1 := n_-_c_le & [ STEM < "criminal" >, SYNSEM [ LKEYS.KEYREL.PRED "_criminal_n_1_rel", PHON.ONSET con ] ]. crimp_n1 := n_-_c_le & [ STEM < "crimp" >, SYNSEM [ LKEYS.KEYREL.PRED "_crimp_n_1_rel", PHON.ONSET con ] ]. crimp_v1 := v_np_noger_le & [ STEM < "crimp" >, SYNSEM [ LKEYS.KEYREL.PRED "_crimp_v_cause_rel", PHON.ONSET con ] ]. crimp_v2 := v_-_unacc_le & [ STEM < "crimp" >, SYNSEM [ LKEYS.KEYREL.PRED "_crimp_v_1_rel", PHON.ONSET con ] ]. crimson_n1 := n_-_mc-col_le & [ STEM < "crimson" >, SYNSEM [ LKEYS.KEYREL.PRED "_crimson_n_1_rel", PHON.ONSET con ] ]. cringe_n1 := n_-_c_le & [ STEM < "cringe" >, SYNSEM [ LKEYS.KEYREL.PRED "_cringe_n_1_rel", PHON.ONSET con ] ]. cringe_v1 := v_-_le & [ STEM < "cringe" >, SYNSEM [ LKEYS.KEYREL.PRED "_cringe_v_1_rel", PHON.ONSET con ] ]. cripple_n1 := n_-_c_le & [ STEM < "cripple" >, SYNSEM [ LKEYS.KEYREL.PRED "_cripple_n_1_rel", PHON.ONSET con ] ]. cripple_v1 := v_np_le & [ STEM < "cripple" >, SYNSEM [ LKEYS.KEYREL.PRED "_cripple_v_1_rel", PHON.ONSET con ] ]. crisis_n1 := n_-_c_le & [ STEM < "crisis" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisis_n_1_rel", PHON.ONSET con ] ]. crisp_a1 := aj_-_i_le & [ STEM < "crisp" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisp_a_1_rel", PHON.ONSET con ] ]. crisp_n1 := n_-_c_le & [ STEM < "crisp" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisp_n_1_rel", PHON.ONSET con ] ]. crisp_up_v1 := v_p-np_le & [ STEM < "crisp" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_crisp_v_up_rel" ], PHON.ONSET con ] ]. crispbread_n1 := n_-_m_le & [ STEM < "crispbread" >, SYNSEM [ LKEYS.KEYREL.PRED "_crispbread_n_1_rel", PHON.ONSET con ] ]. crispy_a1 := aj_-_i_le & [ STEM < "crispy" >, SYNSEM [ LKEYS.KEYREL.PRED "_crispy_a_1_rel", PHON.ONSET con ] ]. crisscross_v1 := v_np_le & [ STEM < "crisscross" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisscross_v_1_rel", PHON.ONSET con ] ]. crisscross_v2 := v_np_le & [ STEM < "criss-", "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisscross_v_1_rel", PHON.ONSET con ] ]. crisscross_v3 := v_np_le & [ STEM < "criss", "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_crisscross_v_1_rel", PHON.ONSET con ] ]. cristal_n1 := n_-_pn_le & [ STEM < "Cristal" >, SYNSEM [ LKEYS.KEYREL.CARG "Cristal", PHON.ONSET con ] ]. criteria_n1 := n_-_c_le & [ STEM < "criteria" >, SYNSEM [ LKEYS.KEYREL.PRED "_criterion_n_1_rel", PHON.ONSET con ] ]. criterion_n1 := n_-_c_le & [ STEM < "criterion" >, SYNSEM [ LKEYS.KEYREL.PRED "_criterion_n_1_rel", PHON.ONSET con ] ]. critic_n1 := n_pp_c_le & [ STEM < "critic" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_critic_n_of_rel" ], PHON.ONSET con ] ]. critical_isect := aj_-_i_le & [ STEM < "critical" >, SYNSEM [ LKEYS.KEYREL.PRED "_critical_a_1_rel", PHON.ONSET con ] ]. critically := av_-_i-vp_le & [ STEM < "critically" >, SYNSEM [ LKEYS.KEYREL.PRED "_critical_a_1_rel", PHON.ONSET con ] ]. criticism_n1 := n_-_mc_le & [ STEM < "criticism" >, SYNSEM [ LKEYS.KEYREL.PRED "_criticism_n_1_rel", PHON.ONSET con ] ]. criticize_v1 := v_np-pp_e_le & [ STEM < "criticize" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_criticize_v_for_rel" ], PHON.ONSET con ] ]. criticize_v1_br := v_np-pp_e_le & [ DIALECT br, STEM < "criticise" >, SYNSEM [ LKEYS [ --OCOMPKEY _for_p_sel_rel, KEYREL.PRED "_criticize_v_for_rel" ], PHON.ONSET con ] ]. criticize_v2 := v_np*_le & [ STEM < "criticize" >, SYNSEM [ LKEYS.KEYREL.PRED "_criticize_v_for_rel", PHON.ONSET con ] ]. criticize_v2_br := v_np_le & [ DIALECT br, STEM < "criticise" >, SYNSEM [ LKEYS.KEYREL.PRED "_criticize_v_for_rel", PHON.ONSET con ] ]. critique_n1 := n_pp_c-of_le & [ STEM < "critique" >, SYNSEM [ LKEYS.KEYREL.PRED "_critique_n_of_rel", PHON.ONSET con ] ]. crms_n1 := n_-_mc_le & [ STEM < "crms" >, SYNSEM [ LKEYS.KEYREL.PRED "_crms_n_1_rel", PHON.ONSET con ] ]. croak_n1 := n_-_c_le & [ STEM < "croak" >, SYNSEM [ LKEYS.KEYREL.PRED "_croak_n_1_rel", PHON.ONSET con ] ]. croak_v1 := v_-_le & [ STEM < "croak" >, SYNSEM [ LKEYS.KEYREL.PRED "_croak_v_1_rel", PHON.ONSET con ] ]. crocket_n1 := n_-_c-ed_le & [ STEM < "crocket" >, SYNSEM [ LKEYS.KEYREL.PRED "_crocket_n_1_rel", PHON.ONSET con ] ]. croft_n1 := n_-_c_le & [ STEM < "croft" >, SYNSEM [ LKEYS.KEYREL.PRED "_croft_n_1_rel", PHON.ONSET con ] ]. crofting_n1 := n_-_c-nocnh_le & [ STEM < "crofting" >, SYNSEM [ LKEYS.KEYREL.PRED "_crofting_n_1_rel", PHON.ONSET con ] ]. crohn_n1 := n_-_pn_le & [ STEM < "Crohn" >, SYNSEM [ LKEYS.KEYREL.CARG "Crohn", PHON.ONSET con ] ]. crombie_n1 := n_-_pn_le & [ STEM < "Crombie" >, SYNSEM [ LKEYS.KEYREL.CARG "Crombie", PHON.ONSET con ] ]. cromwell_n1 := n_-_pn_le & [ STEM < "Cromwell" >, SYNSEM [ LKEYS.KEYREL.CARG "Cromwell", PHON.ONSET con ] ]. crook_n1 := n_-_c_le & [ STEM < "crook" >, SYNSEM [ LKEYS.KEYREL.PRED "_crook_n_1_rel", PHON.ONSET con ] ]. crook_v1 := v_np_le & [ STEM < "crook" >, SYNSEM [ LKEYS.KEYREL.PRED "_crook_v_1_rel", PHON.ONSET con ] ]. crooked_a1 := aj_-_i_le & [ STEM < "crooked" >, SYNSEM [ LKEYS.KEYREL.PRED "_crooked_a_1_rel", PHON.ONSET con ] ]. crookery_n1 := n_-_m_le & [ STEM < "crookery" >, SYNSEM [ LKEYS.KEYREL.PRED "_crookery_n_1_rel", PHON.ONSET con ] ]. crop_n1 := n_-_c_le & [ STEM < "crop" >, SYNSEM [ LKEYS.KEYREL.PRED "_crop_n_1_rel", PHON.ONSET con ] ]. crop_up_v1 := v_p_le & [ STEM < "crop" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_crop_v_up_rel" ], PHON.ONSET con ] ]. crop_v1 := v_np_le & [ STEM < "crop" >, SYNSEM [ LKEYS.KEYREL.PRED "_crop_v_1_rel", PHON.ONSET con ] ]. cross_a1 := aj_-_i_le & [ STEM < "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross_a_with-at_rel", PHON.ONSET con ] ]. cross_a2 := aj_pp_i-obl_le & [ STEM < "cross" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_cross_a_at-with_rel" ], PHON.ONSET con ] ]. cross_a3 := aj_pp_i-obl_le & [ STEM < "cross" >, SYNSEM [ LKEYS [ --COMPKEY _at_p_sel_rel, KEYREL.PRED "_cross_a_at-with_rel" ], PHON.ONSET con ] ]. cross_country_adv1 := av_-_i-vp-po_le & [ STEM < "cross", "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross+country_a_1_rel", PHON.ONSET con ] ]. cross_country_adv2 := av_-_i-vp-po_le & [ STEM < "cross-", "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross+country_a_1_rel", PHON.ONSET con ] ]. cross_country_n1 := n_-_m_le & [ STEM < "cross", "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross+country_n_1_rel", PHON.ONSET con ] ]. cross_country_n2 := n_-_m_le & [ STEM < "cross-", "country" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross+country_n_1_rel", PHON.ONSET con ] ]. cross_n1 := n_-_c_le & [ STEM < "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross_n_1_rel", PHON.ONSET con ] ]. cross_off_v1 := v_p-np_le & [ STEM < "cross" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cross_v_off_rel" ], PHON.ONSET con ] ]. cross_out_v1 := v_p-np_le & [ STEM < "cross" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cross_v_out_rel" ], PHON.ONSET con ] ]. cross_reference_v1 := v_np_le & [ STEM < "cross-", "reference" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross-reference_v_1_rel", PHON.ONSET con ] ]. cross_reference_v2 := v_np_le & [ STEM < "cross", "reference" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross-reference_v_1_rel", PHON.ONSET con ] ]. cross_v1 := v_np_noger_le & [ STEM < "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross_v_1_rel", PHON.ONSET con ] ]. cross_v2 := v_pp*_dir_le & [ STEM < "cross" >, SYNSEM [ LKEYS.KEYREL.PRED "_cross_v_1_rel", PHON.ONSET con ] ]. crossbar_n1 := n_-_c_le & [ STEM < "crossbar" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossbar_n_1_rel", PHON.ONSET con ] ]. crossbeam_n1 := n_-_c_le & [ STEM < "crossbeam" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossbeam_n_1_rel", PHON.ONSET con ] ]. crosscut_n1 := n_-_mc_le & [ STEM < "crosscut" >, SYNSEM [ LKEYS.KEYREL.PRED "_crosscut_n_1_rel", PHON.ONSET con ] ]. crossing_n1 := n_-_c_le & [ STEM < "crossing" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossing_n_1_rel", PHON.ONSET con ] ]. crossover_n1 := n_-_mc_le & [ STEM < "crossover" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossover_n_1_rel", PHON.ONSET con ] ]. crossroad_n1 := n_-_c-sg_le & [ STEM < "crossroad" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossroad_n_1_rel", PHON.ONSET con ] ]. crossroads_n1 := n_-_c_le & [ STEM < "crossroads" >, SYNSEM [ LKEYS.KEYREL.PRED "_crossroads_n_1_rel", PHON.ONSET con ] ]. crosstalk_n1 := n_-_m_le & [ STEM < "crosstalk" >, SYNSEM [ LKEYS.KEYREL.PRED "_crosstalk_n_1_rel", PHON.ONSET con ] ]. crosstree_n1 := n_-_c_le & [ STEM < "crosstree" >, SYNSEM [ LKEYS.KEYREL.PRED "_crosstree_n_1_rel", PHON.ONSET con ] ]. crossways_pp := pp_-_i-dir_le & [ STEM < "crossways" >, SYNSEM [ LKEYS.KEYREL.PRED _crossways_p_rel, PHON.ONSET con ] ]. crosswise_adv1 := av_-_i-vp_le & [ STEM < "crosswise" >, SYNSEM [ LKEYS.KEYREL.PRED "_crosswise_a_1_rel", PHON.ONSET con ] ]. crosswise_isect := aj_-_i_le & [ STEM < "crosswise" >, SYNSEM [ LKEYS.KEYREL.PRED "_crosswise_a_1_rel", PHON.ONSET con ] ]. crouch_n1 := n_-_c_le & [ STEM < "crouch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crouch_n_1_rel", PHON.ONSET con ] ]. crouch_v1 := v_-_le & [ STEM < "crouch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crouch_v_1_rel", PHON.ONSET con ] ]. crouched_a1 := aj_-_i_le & [ STEM < "crouched" >, SYNSEM [ LKEYS.KEYREL.PRED "_crouched_a_1_rel", PHON.ONSET con ] ]. crow_n1 := n_-_c_le & [ STEM < "crow" >, SYNSEM [ LKEYS.KEYREL.PRED "_crow_n_1_rel", PHON.ONSET con ] ]. crow_v1 := v_-_le & [ STEM < "crow" >, SYNSEM [ LKEYS.KEYREL.PRED "_crow_v_1_rel", PHON.ONSET con ] ]. crow_v2 := v_cp_prop_le & [ STEM < "crow" >, SYNSEM [ LKEYS.KEYREL.PRED "_crow_v_1_rel", PHON.ONSET con ] ]. crowbar_n1 := n_-_c_le & [ STEM < "crowbar" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowbar_n_1_rel", PHON.ONSET con ] ]. crowd_n := n_-_c-gr_le & [ STEM < "crowd" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowd_n_of_rel", PHON.ONSET con ] ]. crowd_n2 := n_pp_c-gr-of_le & [ STEM < "crowd" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowd_n_of_rel", PHON.ONSET con ] ]. crowd_out_v1 := v_p-np_le & [ STEM < "crowd" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_crowd_v_out_rel" ], PHON.ONSET con ] ]. crowd_v1 := v_pp*_dir_le & [ STEM < "crowd" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowd_v_1_rel", PHON.ONSET con ] ]. crowd_v2 := v_np_noger_le & [ STEM < "crowd" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowd_v_1_rel", PHON.ONSET con ] ]. crowded_isect := aj_-_i_le & [ STEM < "crowded" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowded_a_1_rel", PHON.ONSET con ] ]. crowfoot_n1 := n_-_c_le & [ STEM < "crowfoot" >, SYNSEM [ LKEYS.KEYREL.PRED "_crowfoot_n_1_rel", PHON.ONSET con ] ]. crown_n1 := n_-_c_le & [ STEM < "crown" >, SYNSEM [ LKEYS.KEYREL.PRED "_crown_n_1_rel", PHON.ONSET con ] ]. crown_v1 := v_np_le & [ STEM < "crown" >, SYNSEM [ LKEYS.KEYREL.PRED "_crown_v_1_rel", PHON.ONSET con ] ]. crown_v2 := v_np-np_only_le & [ STEM < "crown" >, SYNSEM [ LKEYS.KEYREL.PRED "_crown_v_1_rel", PHON.ONSET con ] ]. crown_v3 := v_np-pp_oeq-as_le & [ STEM < "crown" >, SYNSEM [ LKEYS.KEYREL.PRED "_crown_v_as_rel", PHON.ONSET con ] ]. crows+nest_n1 := n_-_c_le & [ STEM < "crow's", "nest" >, SYNSEM [ LKEYS.KEYREL.PRED "_crows+nest_n_1_rel", PHON.ONSET con ] ]. croydon_n1 := n_-_pn-city_le & [ STEM < "Croydon" >, SYNSEM [ LKEYS.KEYREL.CARG "Croydon", PHON.ONSET con ] ]. crucial_a1 := aj_pp_i_le & [ STEM < "crucial" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_crucial_a_for_rel" ], PHON.ONSET con ] ]. crucial_a2 := aj_pp-vp_i-it_le & [ STEM < "crucial" >, SYNSEM [ LKEYS.KEYREL.PRED "_crucial_a_for_rel", PHON.ONSET con ] ]. crucial_a3 := aj_pp-cp_i-it_le & [ STEM < "crucial" >, SYNSEM [ LKEYS.KEYREL.PRED "_crucial_a_for_rel", PHON.ONSET con ] ]. crucially_pcisect := av_-_i-vp_le & [ STEM < "crucially" >, SYNSEM [ LKEYS.KEYREL.PRED "_crucial_a_for_rel", PHON.ONSET con ] ]. crucifix_n1 := n_-_c_le & [ STEM < "crucifix" >, SYNSEM [ LKEYS.KEYREL.PRED "_crucifix_n_1_rel", PHON.ONSET con ] ]. cruciform_a1 := aj_-_i_le & [ STEM < "cruciform" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruciform_a_1_rel", PHON.ONSET con ] ]. crude_a1 := aj_-_i_le & [ STEM < "crude" >, SYNSEM [ LKEYS.KEYREL.PRED "_crude_a_1_rel", PHON.ONSET con ] ]. crude_n1 := n_-_m_le & [ STEM < "crude" >, SYNSEM [ LKEYS.KEYREL.PRED "_crude_n_1_rel", PHON.ONSET con ] ]. crudely_adv := av_-_i-vp_le & [ STEM < "crudely" >, SYNSEM [ LKEYS.KEYREL.PRED "_crude_a_1_rel", PHON.ONSET con ] ]. crudity_n1 := n_-_mc_le & [ STEM < "crudity" >, SYNSEM [ LKEYS.KEYREL.PRED "_crudity_n_1_rel", PHON.ONSET con ] ]. cruel_a1 := aj_-_i_le & [ STEM < "cruel" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruel_a_1_rel", PHON.ONSET con ] ]. cruelly := av_-_i-vp_le & [ STEM < "cruelly" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruel_a_1_rel", PHON.ONSET con ] ]. cruelty_n1 := n_-_mc_le & [ STEM < "cruelty" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruelty_n_1_rel", PHON.ONSET con ] ]. cruise_n1 := n_-_c_le & [ STEM < "cruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruise_n_1_rel", PHON.ONSET con ] ]. cruise_v1 := v_np_noger_le & [ STEM < "cruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruise_v_1_rel", PHON.ONSET con ] ]. cruise_v2 := v_pp*_dir_le & [ STEM < "cruise" >, SYNSEM [ LKEYS.KEYREL.PRED "_cruise_v_1_rel", PHON.ONSET con ] ]. crumble_n1 := n_-_mc_le & [ STEM < "crumble" >, SYNSEM [ LKEYS.KEYREL.PRED "_crumble_n_1_rel", PHON.ONSET con ] ]. crumble_v1 := v_np_noger_le & [ STEM < "crumble" >, SYNSEM [ LKEYS.KEYREL.PRED "_crumble_v_cause_rel", PHON.ONSET con ] ]. crumble_v2 := v_pp_unacc_le & [ STEM < "crumble" >, SYNSEM [ LKEYS.KEYREL.PRED "_crumble_v_1_rel", PHON.ONSET con ] ]. crummy_a1 := aj_-_i_le & [ STEM < "crummy" >, SYNSEM [ LKEYS.KEYREL.PRED "_crummy_a_1_rel", PHON.ONSET con ] ]. crumple_v1 := v_np_noger_le & [ STEM < "crumple" >, SYNSEM [ LKEYS.KEYREL.PRED "_crumple_v_cause_rel", PHON.ONSET con ] ]. crumple_v2 := v_-_unacc_le & [ STEM < "crumple" >, SYNSEM [ LKEYS.KEYREL.PRED "_crumple_v_1_rel", PHON.ONSET con ] ]. crunch_n1 := n_-_c_le & [ STEM < "crunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crunch_n_1_rel", PHON.ONSET con ] ]. crunch_pre_root := av_-_s-cp-mc-pr_le & [ STEM < "crunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crunch_a_1_rel", PHON.ONSET con ] ]. crunch_v1 := v_np_noger_le & [ STEM < "crunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crunch_v_cause_rel", PHON.ONSET con ] ]. crunch_v2 := v_-_unacc_le & [ STEM < "crunch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crunch_v_1_rel", PHON.ONSET con ] ]. crusade_n1 := n_-_c_le & [ STEM < "crusade" >, SYNSEM [ LKEYS.KEYREL.PRED "_crusade_n_1_rel", PHON.ONSET con ] ]. crusade_v1 := v_-_le & [ STEM < "crusade" >, SYNSEM [ LKEYS.KEYREL.PRED "_crusade_v_1_rel", PHON.ONSET con ] ]. crush_n1 := n_-_c_le & [ STEM < "crush" >, SYNSEM [ LKEYS.KEYREL.PRED "_crush_n_1_rel", PHON.ONSET con ] ]. crush_v1 := v_np_noger_le & [ STEM < "crush" >, SYNSEM [ LKEYS.KEYREL.PRED "_crush_v_cause_rel", PHON.ONSET con ] ]. crush_v2 := v_-_unacc_le & [ STEM < "crush" >, SYNSEM [ LKEYS.KEYREL.PRED "_crush_v_1_rel", PHON.ONSET con ] ]. crust_n1 := n_-_mc_le & [ STEM < "crust" >, SYNSEM [ LKEYS.KEYREL.PRED "_crust_n_1_rel", PHON.ONSET con ] ]. crust_v1 := v_np_le & [ STEM < "crust" >, SYNSEM [ LKEYS.KEYREL.PRED "_crust_v_1_rel", PHON.ONSET con ] ]. crustacean_n1 := n_-_c_le & [ STEM < "crustacean" >, SYNSEM [ LKEYS.KEYREL.PRED "_crustacean_n_1_rel", PHON.ONSET con ] ]. crustaceous_a1 := aj_-_i_le & [ STEM < "crustaceous" >, SYNSEM [ LKEYS.KEYREL.PRED "_crustaceous_a_1_rel", PHON.ONSET con ] ]. crusty_a1 := aj_-_i_le & [ STEM < "crusty" >, SYNSEM [ LKEYS.KEYREL.PRED "_crusty_a_1_rel", PHON.ONSET con ] ]. crutch_n1 := n_-_c_le & [ STEM < "crutch" >, SYNSEM [ LKEYS.KEYREL.PRED "_crutch_n_1_rel", PHON.ONSET con ] ]. cry_for_v1 := v_pp_e_le & [ STEM < "cry" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_cry_v_for_rel" ], PHON.ONSET con ] ]. cry_n1 := n_-_c_le & [ STEM < "cry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cry_n_1_rel", PHON.ONSET con ] ]. cry_out_v1 := v_p_le & [ STEM < "cry" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cry_v_out_rel" ], PHON.ONSET con ] ]. cry_out_v2 := v_p-pp_le & [ STEM < "cry" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, --OCOMPKEY _for_p_rel, KEYREL.PRED "_cry_v_out_rel" ], PHON.ONSET con ] ]. cry_v1 := v_-_le & [ STEM < "cry" >, SYNSEM [ LKEYS.KEYREL.PRED "_cry_v_1_rel", PHON.ONSET con ] ]. crystal_n1 := n_-_mc_le & [ STEM < "crystal" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystal_n_1_rel", PHON.ONSET con ] ]. crystal_n2 := n_-_pn_le & [ STEM < "Crystal" >, SYNSEM [ LKEYS.KEYREL.CARG "Crystal", PHON.ONSET con ] ]. crystalization_n1 := n_-_mc_le & [ STEM < "crystalization" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystalization_n_1_rel", PHON.ONSET con ] ]. crystalline_a1 := aj_-_i_le & [ STEM < "crystalline" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystalline_a_1_rel", PHON.ONSET con ] ]. crystallise_v1 := v_-_unacc_le & [ STEM < "crystallise" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystallize_v_1_rel", PHON.ONSET con ] ]. crystallise_v2 := v_np_noger_le & [ STEM < "crystallise" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystallize_v_cause_rel", PHON.ONSET con ] ]. crystallize_v1 := v_-_unacc_le & [ STEM < "crystallize" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystallize_v_1_rel", PHON.ONSET con ] ]. crystallize_v2 := v_np_noger_le & [ STEM < "crystallize" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystallize_v_cause_rel", PHON.ONSET con ] ]. crystallographic_a1 := aj_-_i_le & [ STEM < "crystallographic" >, SYNSEM [ LKEYS.KEYREL.PRED "_crystallographic_a_1_rel", PHON.ONSET con ] ]. cs_n1 := n_-_pn_le & [ STEM < "C", "S" >, SYNSEM [ LKEYS.KEYREL.CARG "CS", PHON.ONSET con ] ]. cs_n2 := n_-_pn_le & [ STEM < "CS" >, SYNSEM [ LKEYS.KEYREL.CARG "CS", PHON.ONSET con ] ]. cs_n3 := n_-_pn_le & [ STEM < "C-", "S" >, SYNSEM [ LKEYS.KEYREL.CARG "CS", PHON.ONSET con ] ]. csli_n1 := n_-_pn_le & [ STEM < "CSLI" >, SYNSEM [ LKEYS.KEYREL.CARG "CSLI", PHON.ONSET con ] ]. csr_n1 := n_-_c_le & [ STEM < "csr" >, SYNSEM [ LKEYS.KEYREL.PRED "_csr_n_1_rel", PHON.ONSET con ] ]. cts_n1 := n_-_pn_le & [ STEM < "CTS" >, SYNSEM [ LKEYS.KEYREL.CARG "CTS", PHON.ONSET con ] ]. cuba_n1 := n_-_pn_le & [ STEM < "Cuba" >, SYNSEM [ LKEYS.KEYREL.CARG "Cuba", PHON.ONSET con ] ]. cuban_a1 := aj_-_i_le & [ STEM < "cuban" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuban_a_1_rel", PHON.ONSET con ] ]. cuban_n1 := n_-_c_le & [ STEM < "cuban" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuban_n_1_rel", PHON.ONSET con ] ]. cube_n1 := n_-_c_le & [ STEM < "cube" >, SYNSEM [ LKEYS.KEYREL.PRED "_cube_n_1_rel", PHON.ONSET con ] ]. cube_v1 := v_np_le & [ STEM < "cube" >, SYNSEM [ LKEYS.KEYREL.PRED "_cube_v_1_rel", PHON.ONSET con ] ]. cubic_a1 := aj_-_i_le & [ STEM < "cubic" >, SYNSEM [ LKEYS.KEYREL.PRED "_cubic_a_1_rel", PHON.ONSET con ] ]. cubicle_n1 := n_-_c_le & [ STEM < "cubicle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cubicle_n_1_rel", PHON.ONSET con ] ]. cuckoo_a1 := aj_-_i_le & [ STEM < "cuckoo" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuckoo_a_1_rel", PHON.ONSET con ] ]. cuckoo_n1 := n_-_c_le & [ STEM < "cuckoo" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuckoo_n_1_rel", PHON.ONSET con ] ]. cud_n1 := n_-_mc_le & [ STEM < "cud" >, SYNSEM [ LKEYS.KEYREL.PRED "_cud_n_1_rel", PHON.ONSET con ] ]. cue_i_n1 := n_-_c-brno_le & [ STEM < "cue" >, SYNSEM [ LKEYS.KEYREL.PRED "_cue_n_1_rel", PHON.ONSET con ] ]. cue_n1 := n_-_c_le & [ STEM < "cue" >, SYNSEM [ LKEYS.KEYREL.PRED "_cue_n_1_rel", PHON.ONSET con ] ]. cue_v1 := v_np*_le & [ STEM < "cue" >, SYNSEM [ LKEYS.KEYREL.PRED "_cue_v_1_rel", PHON.ONSET con ] ]. cuff_n1 := n_-_c_le & [ STEM < "cuff" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuff_n_1_rel", PHON.ONSET con ] ]. cuff_v1 := v_np_le & [ STEM < "cuff" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuff_v_1_rel", PHON.ONSET con ] ]. cuisine_n1 := n_-_mc_le & [ STEM < "cuisine" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuisine_n_1_rel", PHON.ONSET con ] ]. culinary_a1 := aj_-_i_le & [ STEM < "culinary" >, SYNSEM [ LKEYS.KEYREL.PRED "_culinary_a_1_rel", PHON.ONSET con ] ]. cull_n1 := n_-_c_le & [ STEM < "cull" >, SYNSEM [ LKEYS.KEYREL.PRED "_cull_n_1_rel", PHON.ONSET con ] ]. cull_v1 := v_np_le & [ STEM < "cull" >, SYNSEM [ LKEYS.KEYREL.PRED "_cull_v_1_rel", PHON.ONSET con ] ]. culley_n1 := n_-_pn_le & [ STEM < "Culley" >, SYNSEM [ LKEYS.KEYREL.CARG "Culley", PHON.ONSET con ] ]. cullowhee_n1 := n_-_pn-city_le & [ STEM < "Cullowhee" >, SYNSEM [ LKEYS.KEYREL.CARG "Cullowhee", PHON.ONSET con ] ]. culminate_v1 := v_pp_e_le & [ STEM < "culminate" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_culminate_v_in_rel" ], PHON.ONSET con ] ]. culminate_v2 := v_-_le & [ STEM < "culminate" >, SYNSEM [ LKEYS.KEYREL.PRED "_culminate_v_1_rel", PHON.ONSET con ] ]. cult_n1 := n_-_c_le & [ STEM < "cult" >, SYNSEM [ LKEYS.KEYREL.PRED "_cult_n_1_rel", PHON.ONSET con ] ]. cultist_n1 := n_-_c_le & [ STEM < "cultist" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultist_n_1_rel", PHON.ONSET con ] ]. cultivate_v1 := v_np_le & [ STEM < "cultivate" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultivate_v_1_rel", PHON.ONSET con ] ]. cultivated_a1 := aj_-_i_le & [ STEM < "cultivated" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultivated_a_1_rel", PHON.ONSET con ] ]. cultivation_n1 := n_pp_m_le & [ STEM < "cultivation" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_cultivation_n_of_rel" ], PHON.ONSET con ] ]. cultural_isect := aj_-_i_le & [ STEM < "cultural" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultural_a_1_rel", PHON.ONSET con ] ]. culturally_isect := av_-_i-vp_le & [ STEM < "culturally" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultural_a_1_rel", PHON.ONSET con ] ]. culture_n1 := n_-_mc_le & [ STEM < "culture" >, SYNSEM [ LKEYS.KEYREL.PRED "_culture_n_1_rel", PHON.ONSET con ] ]. cultured_a1 := aj_-_i_le & [ STEM < "cultured" >, SYNSEM [ LKEYS.KEYREL.PRED "_cultured_a_1_rel", PHON.ONSET con ] ]. cumbersome_a1 := aj_-_i_le & [ STEM < "cumbersome" >, SYNSEM [ LKEYS.KEYREL.PRED "_cumbersome_a_1_rel", PHON.ONSET con ] ]. cunning_a1 := aj_-_i_le & [ STEM < "cunning" >, SYNSEM [ LKEYS.KEYREL.PRED "_cunning_a_1_rel", PHON.ONSET con ] ]. cunning_n1 := n_-_m_le & [ STEM < "cunning" >, SYNSEM [ LKEYS.KEYREL.PRED "_cunning_n_1_rel", PHON.ONSET con ] ]. cup_n1 := n_pp_c-of_le & [ STEM < "cup" >, SYNSEM [ LKEYS.KEYREL.PRED "_cup_n_of_rel", PHON.ONSET con ] ]. cup_v1 := v_np_le & [ STEM < "cup" >, SYNSEM [ LKEYS.KEYREL.PRED "_cup_v_1_rel", PHON.ONSET con ] ]. cupboard_n1 := n_-_c_le & [ STEM < "cupboard" >, SYNSEM [ LKEYS.KEYREL.PRED "_cupboard_n_1_rel", PHON.ONSET con ] ]. cupertino_n1 := n_-_pn-city_le & [ STEM < "Cupertino" >, SYNSEM [ LKEYS.KEYREL.CARG "Cupertino", PHON.ONSET con ] ]. curate_n1 := n_-_c_le & [ STEM < "curate" >, SYNSEM [ LKEYS.KEYREL.PRED "_curate_n_1_rel", PHON.ONSET con ] ]. curate_v1 := v_np*_le & [ STEM < "curate" >, SYNSEM [ LKEYS.KEYREL.PRED "_curate_v_1_rel", PHON.ONSET con ] ]. curb_n1 := n_-_c_le & [ STEM < "curb" >, SYNSEM [ LKEYS.KEYREL.PRED "_curb_n_1_rel", PHON.ONSET con ] ]. curb_v1 := v_np_le & [ STEM < "curb" >, SYNSEM [ LKEYS.KEYREL.PRED "_curb_v_1_rel", PHON.ONSET con ] ]. curd_n1 := n_-_mc_le & [ STEM < "curd" >, SYNSEM [ LKEYS.KEYREL.PRED "_curd_n_1_rel", PHON.ONSET con ] ]. curdle_v1 := v_np_noger_le & [ STEM < "curdle" >, SYNSEM [ LKEYS.KEYREL.PRED "_curdle_v_cause_rel", PHON.ONSET con ] ]. curdle_v2 := v_-_unacc_le & [ STEM < "curdle" >, SYNSEM [ LKEYS.KEYREL.PRED "_curdle_v_1_rel", PHON.ONSET con ] ]. cure-all_n1 := n_-_c_le & [ STEM < "cure-", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_cure-all_n_1_rel", PHON.ONSET con ] ]. cure-all_n2 := n_-_c_le & [ STEM < "cure", "all" >, SYNSEM [ LKEYS.KEYREL.PRED "_cure-all_n_1_rel", PHON.ONSET con ] ]. cure_n1 := n_-_mc_le & [ STEM < "cure" >, SYNSEM [ LKEYS.KEYREL.PRED "_cure_n_1_rel", PHON.ONSET con ] ]. cure_v1 := v_np-pp_e_le & [ STEM < "cure" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_cure_v_of_rel" ], PHON.ONSET con ] ]. cure_v2 := v_np_le & [ STEM < "cure" >, SYNSEM [ LKEYS.KEYREL.PRED "_cure_v_of_rel", PHON.ONSET con ] ]. curfew_n1 := n_-_c_le & [ STEM < "curfew" >, SYNSEM [ LKEYS.KEYREL.PRED "_curfew_n_1_rel", PHON.ONSET con ] ]. curie_n1 := n_-_pn_le & [ STEM < "Curie" >, SYNSEM [ LKEYS.KEYREL.CARG "Curie", PHON.ONSET con ] ]. curie_n2 := n_-_c_le & [ STEM < "curie" >, SYNSEM [ LKEYS.KEYREL.PRED "_curie_n_1_rel", PHON.ONSET con ] ]. curio_n1 := n_-_c_le & [ STEM < "curio" >, SYNSEM [ LKEYS.KEYREL.PRED "_curio_n_1_rel", PHON.ONSET con ] ]. curiosity_n1 := n_-_mc_le & [ STEM < "curiosity" >, SYNSEM [ LKEYS.KEYREL.PRED "_curiosity_n_1_rel", PHON.ONSET con ] ]. curious_a1 := aj_pp_i_le & [ STEM < "curious" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_curious_a_about_rel" ], PHON.ONSET con ] ]. curious_a2 := aj_cp_i_le & [ STEM < "curious" >, SYNSEM [ LKEYS.KEYREL.PRED "_curious_a_about_rel", PHON.ONSET con ] ]. curious_a3 := aj_pp_i_le & [ STEM < "curious" >, SYNSEM [ LKEYS [ --COMPKEY _as+to_p_sel_rel, KEYREL.PRED "_curious_a_as+to_rel" ], PHON.ONSET con ] ]. curious_a4 := aj_vp_i-seq_le & [ STEM < "curious" >, SYNSEM [ LKEYS.KEYREL.PRED "_curious_a_about_rel", PHON.ONSET con ] ]. curiously_a1 := av_-_i-vp_le & [ STEM < "curiously" >, SYNSEM [ LKEYS.KEYREL.PRED "_curious_a_about_rel", PHON.ONSET con ] ]. curl_n1 := n_-_c_le & [ STEM < "curl" >, SYNSEM [ LKEYS.KEYREL.PRED "_curl_n_1_rel", PHON.ONSET con ] ]. curl_v1 := v_pp_unacc_le & [ STEM < "curl" >, SYNSEM [ LKEYS.KEYREL.PRED "_curl_v_1_rel", PHON.ONSET con ] ]. curl_v2 := v_np_noger_le & [ STEM < "curl" >, SYNSEM [ LKEYS.KEYREL.PRED "_curl_v_cause_rel", PHON.ONSET con ] ]. curlier := aj_pp_i-cmp_le & [ STEM < "curlier" >, SYNSEM [ LKEYS.KEYREL.PRED "_curly_a_1_rel", PHON.ONSET con ] ]. curliest_a1 := aj_-_i-sup_le & [ STEM < "curliest" >, SYNSEM [ LKEYS.KEYREL.PRED "_curly_a_1_rel", PHON.ONSET con ] ]. curly_a1 := aj_-_i_le & [ STEM < "curly" >, SYNSEM [ LKEYS.KEYREL.PRED "_curly_a_1_rel", PHON.ONSET con ] ]. currency_ersatz_n1 := n_-_c-cur-gen_le & [ STEM < "currencyersatz" >, SYNSEM.PHON.ONSET con ]. currency_n1 := n_-_mc_le & [ STEM < "currency" >, SYNSEM [ LKEYS.KEYREL.PRED "_currency_n_1_rel", PHON.ONSET con ] ]. currencyersatzarp := n_-_c-cur-gen_le & [ STEM < "currencyersatzarp" >, SYNSEM.PHON.ONSET con ]. currencyersatzats := n_-_c-cur-gen_le & [ STEM < "currencyersatzats" >, SYNSEM.PHON.ONSET con ]. currencyersatzaud := n_-_c-cur-gen_le & [ STEM < "currencyersatzaud" >, SYNSEM.PHON.ONSET con ]. currencyersatzbef := n_-_c-cur-gen_le & [ STEM < "currencyersatzbef" >, SYNSEM.PHON.ONSET con ]. currencyersatzbrl := n_-_c-cur-gen_le & [ STEM < "currencyersatzbrl" >, SYNSEM.PHON.ONSET con ]. currencyersatzchf := n_-_c-cur-gen_le & [ STEM < "currencyersatzchf" >, SYNSEM.PHON.ONSET con ]. currencyersatzclp := n_-_c-cur-gen_le & [ STEM < "currencyersatzclp" >, SYNSEM.PHON.ONSET con ]. currencyersatzcnd := n_-_c-cur-gen_le & [ STEM < "currencyersatzcnd" >, SYNSEM.PHON.ONSET con ]. currencyersatzcny := n_-_c-cur-gen_le & [ STEM < "currencyersatzcny" >, SYNSEM.PHON.ONSET con ]. currencyersatzczk := n_-_c-cur-gen_le & [ STEM < "currencyersatzczk" >, SYNSEM.PHON.ONSET con ]. currencyersatzdem := n_-_c-cur-gen_le & [ STEM < "currencyersatzdem" >, SYNSEM.PHON.ONSET con ]. currencyersatzegp := n_-_c-cur-gen_le & [ STEM < "currencyersatzegp" >, SYNSEM.PHON.ONSET con ]. currencyersatzesp := n_-_c-cur-gen_le & [ STEM < "currencyersatzesp" >, SYNSEM.PHON.ONSET con ]. currencyersatzeur := n_-_c-cur-gen_le & [ STEM < "currencyersatzeur" >, SYNSEM.PHON.ONSET con ]. currencyersatzfim := n_-_c-cur-gen_le & [ STEM < "currencyersatzfim" >, SYNSEM.PHON.ONSET con ]. currencyersatzfrf := n_-_c-cur-gen_le & [ STEM < "currencyersatzfrf" >, SYNSEM.PHON.ONSET con ]. currencyersatzgbp := n_-_c-cur-gen_le & [ STEM < "currencyersatzgbp" >, SYNSEM.PHON.ONSET con ]. currencyersatzgrd := n_-_c-cur-gen_le & [ STEM < "currencyersatzgrd" >, SYNSEM.PHON.ONSET con ]. currencyersatzhkd := n_-_c-cur-gen_le & [ STEM < "currencyersatzhkd" >, SYNSEM.PHON.ONSET con ]. currencyersatziep := n_-_c-cur-gen_le & [ STEM < "currencyersatziep" >, SYNSEM.PHON.ONSET con ]. currencyersatzils := n_-_c-cur-gen_le & [ STEM < "currencyersatzils" >, SYNSEM.PHON.ONSET con ]. currencyersatzinr := n_-_c-cur-gen_le & [ STEM < "currencyersatzinr" >, SYNSEM.PHON.ONSET con ]. currencyersatzitl := n_-_c-cur-gen_le & [ STEM < "currencyersatzitl" >, SYNSEM.PHON.ONSET con ]. currencyersatzjpy := n_-_c-cur-gen_le & [ STEM < "currencyersatzjpy" >, SYNSEM.PHON.ONSET con ]. currencyersatzkrw := n_-_c-cur-gen_le & [ STEM < "currencyersatzkrw" >, SYNSEM.PHON.ONSET con ]. currencyersatzmxp := n_-_c-cur-gen_le & [ STEM < "currencyersatzmxp" >, SYNSEM.PHON.ONSET con ]. currencyersatzmyr := n_-_c-cur-gen_le & [ STEM < "currencyersatzmyr" >, SYNSEM.PHON.ONSET con ]. currencyersatznlg := n_-_c-cur-gen_le & [ STEM < "currencyersatznlg" >, SYNSEM.PHON.ONSET con ]. currencyersatznok := n_-_c-cur-gen_le & [ STEM < "currencyersatznok" >, SYNSEM.PHON.ONSET con ]. currencyersatznzd := n_-_c-cur-gen_le & [ STEM < "currencyersatznzd" >, SYNSEM.PHON.ONSET con ]. currencyersatzpkr := n_-_c-cur-gen_le & [ STEM < "currencyersatzpkr" >, SYNSEM.PHON.ONSET con ]. currencyersatzpte := n_-_c-cur-gen_le & [ STEM < "currencyersatzpte" >, SYNSEM.PHON.ONSET con ]. currencyersatzsek := n_-_c-cur-gen_le & [ STEM < "currencyersatzsek" >, SYNSEM.PHON.ONSET con ]. currencyersatzsgd := n_-_c-cur-gen_le & [ STEM < "currencyersatzsgd" >, SYNSEM.PHON.ONSET con ]. currencyersatzsur := n_-_c-cur-gen_le & [ STEM < "currencyersatzsur" >, SYNSEM.PHON.ONSET con ]. currencyersatzthb := n_-_c-cur-gen_le & [ STEM < "currencyersatzthb" >, SYNSEM.PHON.ONSET con ]. currencyersatztwd := n_-_c-cur-gen_le & [ STEM < "currencyersatztwd" >, SYNSEM.PHON.ONSET con ]. currencyersatzzar := n_-_c-cur-gen_le & [ STEM < "currencyersatzzar" >, SYNSEM.PHON.ONSET con ]. current_a1 := aj_-_i_le & [ STEM < "current" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_a_1_rel", PHON.ONSET con ] ]. current_n1 := n_-_mc_le & [ STEM < "current" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_n_1_rel", PHON.ONSET con ] ]. currently_a2 := av_-_i-vp-po_le & [ STEM < "currently" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_a_1_rel", PHON.ONSET con ] ]. currently_a3 := av_-_i-ap-pp_le & [ STEM < "currently" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_a_1_rel", PHON.ONSET con ] ]. currently_adv2 := av_-_i-ap-pp_le & [ STEM < "currently" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_a_1_rel", PHON.ONSET con ] ]. currently_isect := av_-_i-vp-x_le & [ STEM < "currently" >, SYNSEM [ LKEYS.KEYREL.PRED "_current_a_1_rel", PHON.ONSET con ] ]. curriculum_n1 := n_-_c_le & [ STEM < "curriculum" >, SYNSEM [ LKEYS.KEYREL.PRED "_curriculum_n_1_rel", PHON.ONSET con ] ]. curry_n1 := n_-_mc_le & [ STEM < "curry" >, SYNSEM [ LKEYS.KEYREL.PRED "_curry_n_1_rel", PHON.ONSET con ] ]. curry_v1 := v_np_le & [ STEM < "curry" >, SYNSEM [ LKEYS.KEYREL.PRED "_curry_v_1_rel", PHON.ONSET con ] ]. curse_n1 := n_-_c_le & [ STEM < "curse" >, SYNSEM [ LKEYS.KEYREL.PRED "_curse_n_1_rel", PHON.ONSET con ] ]. curse_v1 := v_np*_le & [ STEM < "curse" >, SYNSEM [ LKEYS.KEYREL.PRED "_curse_v_1_rel", PHON.ONSET con ] ]. cursor_n1 := n_-_c_le & [ STEM < "cursor" >, SYNSEM [ LKEYS.KEYREL.PRED "_cursor_n_1_rel", PHON.ONSET con ] ]. curt_a1 := aj_-_i_le & [ STEM < "curt" >, SYNSEM [ LKEYS.KEYREL.PRED "_curt_a_1_rel", PHON.ONSET con ] ]. curt_n1 := n_-_pn_le & [ STEM < "Curt" >, SYNSEM [ LKEYS.KEYREL.CARG "Curt", PHON.ONSET con ] ]. curtail_v1 := v_np_le & [ STEM < "curtail" >, SYNSEM [ LKEYS.KEYREL.PRED "_curtail_v_1_rel", PHON.ONSET con ] ]. curtain_n1 := n_-_c_le & [ STEM < "curtain" >, SYNSEM [ LKEYS.KEYREL.PRED "_curtain_n_1_rel", PHON.ONSET con ] ]. curtain_off_v1 := v_p-np_le & [ STEM < "curtain" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_curtain_v_off_rel" ], PHON.ONSET con ] ]. curtain_v1 := v_np_le & [ STEM < "curtain" >, SYNSEM [ LKEYS.KEYREL.PRED "_curtain_v_1_rel", PHON.ONSET con ] ]. curtis_n1 := n_-_pn_le & [ STEM < "Curtis" >, SYNSEM [ LKEYS.KEYREL.CARG "Curtis", PHON.ONSET con ] ]. curvaceous_a1 := aj_-_i_le & [ STEM < "curvaceous" >, SYNSEM [ LKEYS.KEYREL.PRED "_curvaceous_a_1_rel", PHON.ONSET con ] ]. curvaceously_a1 := av_-_i-vp_le & [ STEM < "curvaceously" >, SYNSEM [ LKEYS.KEYREL.PRED "_curvaceous_a_1_rel", PHON.ONSET con ] ]. curvature_n1 := n_-_mc_le & [ STEM < "curvature" >, SYNSEM [ LKEYS.KEYREL.PRED "_curvature_n_1_rel", PHON.ONSET con ] ]. curve_n1 := n_-_c_le & [ STEM < "curve" >, SYNSEM [ LKEYS.KEYREL.PRED "_curve_n_1_rel", PHON.ONSET con ] ]. curve_v1 := v_pp_unacc_le & [ STEM < "curve" >, SYNSEM [ LKEYS.KEYREL.PRED "_curve_v_1_rel", PHON.ONSET con ] ]. curve_v2 := v_np_noger_le & [ STEM < "curve" >, SYNSEM [ LKEYS.KEYREL.PRED "_curve_v_cause_rel", PHON.ONSET con ] ]. cury_n1 := n_-_pn_le & [ STEM < "Cury" >, SYNSEM [ LKEYS.KEYREL.CARG "Cury", PHON.ONSET con ] ]. cushion_n1 := n_-_c_le & [ STEM < "cushion" >, SYNSEM [ LKEYS.KEYREL.PRED "_cushion_n_1_rel", PHON.ONSET con ] ]. cushion_v1 := v_np_le & [ STEM < "cushion" >, SYNSEM [ LKEYS.KEYREL.PRED "_cushion_v_1_rel", PHON.ONSET con ] ]. cushman_n1 := n_-_pn_le & [ STEM < "Cushman" >, SYNSEM [ LKEYS.KEYREL.CARG "Cushman", PHON.ONSET con ] ]. custer_n1 := n_-_pn_le & [ STEM < "Custer" >, SYNSEM [ LKEYS.KEYREL.CARG "Custer", PHON.ONSET con ] ]. custody_n1 := n_-_m_le & [ STEM < "custody" >, SYNSEM [ LKEYS.KEYREL.PRED "_custody_n_1_rel", PHON.ONSET con ] ]. custom_n1 := n_pp_c-ns-of_le & [ STEM < "custom" >, SYNSEM [ LKEYS.KEYREL.PRED "_custom_n_of_rel", PHON.ONSET con ] ]. customarily := av_-_i-vp_le & [ STEM < "customarily" >, SYNSEM [ LKEYS.KEYREL.PRED "_customary_a_1_rel", PHON.ONSET con ] ]. customary_a1 := aj_-_i_le & [ STEM < "customary" >, SYNSEM [ LKEYS.KEYREL.PRED "_customary_a_1_rel", PHON.ONSET con ] ]. customer_abb_n1 := n_pp_c-of_le & [ STEM < "cust" >, SYNSEM [ LKEYS.KEYREL.PRED "_customer_n_of_rel", PHON.ONSET con ] ]. customer_abb_n2 := n_pp_c-of_le & [ STEM < "cust." >, SYNSEM [ LKEYS.KEYREL.PRED "_customer_n_of_rel", PHON.ONSET con ] ]. customer_n1 := n_pp_c-of_le & [ STEM < "customer" >, SYNSEM [ LKEYS.KEYREL.PRED "_customer_n_of_rel", PHON.ONSET con ] ]. customizable_a1 := aj_pp_i_le & [ STEM < "customizable" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_customizable_a_for_rel" ], PHON.ONSET con ] ]. customize_v1 := v_np*_le & [ STEM < "customize" >, SYNSEM [ LKEYS.KEYREL.PRED "_customize_v_1_rel", PHON.ONSET con ] ]. customs_n1 := n_-_c_le & [ STEM < "customs" >, SYNSEM [ LKEYS.KEYREL.PRED "_customs_n_1_rel", PHON.ONSET con ] ]. cut_apart_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _apart_a_sel_rel, KEYREL.PRED "_cut_v_apart_rel" ], PHON.ONSET con ] ]. cut_back_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_cut_v_back_rel" ], PHON.ONSET con ] ]. cut_back_v2 := v_p-pp_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, --OCOMPKEY _on_p_rel, KEYREL.PRED "_cut_v_back_rel" ], PHON.ONSET con ] ]. cut_back_v3 := v_p_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, KEYREL.PRED "_cut_v_back_rel" ], PHON.ONSET con ] ]. cut_down_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_cut_v_down_rel" ], PHON.ONSET con ] ]. cut_down_v2 := v_p-pp_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, --OCOMPKEY _on_p_rel, KEYREL.PRED "_cut_v_down_rel" ], PHON.ONSET con ] ]. cut_down_v3 := v_p_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_cut_v_down_rel" ], PHON.ONSET con ] ]. cut_in_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_cut_v_in_rel" ], PHON.ONSET con ] ]. cut_into_v1 := v_pp_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_rel, KEYREL.PRED "_cut_v_1_rel" ], PHON.ONSET con ] ]. cut_n1 := n_-_c_le & [ STEM < "cut" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut_n_1_rel", PHON.ONSET con ] ]. cut_off_n1 := n_-_c_le & [ STEM < "cut", "off" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut+off_n_1_rel", PHON.ONSET con ] ]. cut_off_n2 := n_-_c_le & [ STEM < "cut-", "off" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut+off_n_1_rel", PHON.ONSET con ] ]. cut_off_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_cut_v_off_rel" ], PHON.ONSET con ] ]. cut_out_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_cut_v_out_rel" ], PHON.ONSET con ] ]. cut_prd := v_np-ap_oeq_le & [ STEM < "cut" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut_v_1_rel", PHON.ONSET con ] ]. cut_short_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _short_a_sel_rel, KEYREL.PRED "_cut_v_short_rel" ], PHON.ONSET con ] ]. cut_up_v1 := v_p-np_le & [ STEM < "cut" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_cut_v_up_rel" ], PHON.ONSET con ] ]. cut_v1 := v_np_le & [ STEM < "cut" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut_v_1_rel", PHON.ONSET con ] ]. cut_v2 := v_pp*_dir_le & [ STEM < "cut" >, SYNSEM [ LKEYS.KEYREL.PRED "_cut_v_1_rel", PHON.ONSET con ] ]. cutback_n1 := n_-_c_le & [ STEM < "cutback" >, SYNSEM [ LKEYS.KEYREL.PRED "_cutback_n_1_rel", PHON.ONSET con ] ]. cute_adj := aj_-_i_le & [ STEM < "cute" >, SYNSEM [ LKEYS.KEYREL.PRED "_cute_a_1_rel", PHON.ONSET con ] ]. cutlery_n1 := n_-_m_le & [ STEM < "cutlery" >, SYNSEM [ LKEYS.KEYREL.PRED "_cutlery_n_1_rel", PHON.ONSET con ] ]. cutlet_n1 := n_-_c_le & [ STEM < "cutlet" >, SYNSEM [ LKEYS.KEYREL.PRED "_cutlet_n_1_rel", PHON.ONSET con ] ]. cutter_n1 := n_-_c_le & [ STEM < "cutter" >, SYNSEM [ LKEYS.KEYREL.PRED "_cutter_n_1_rel", PHON.ONSET con ] ]. cuttings_n1 := n_-_c-pl-nocnh_le & [ STEM < "cutting" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuttings_n_1_rel", PHON.ONSET con ] ]. cuttlefish_n1 := n_-_c_le & [ STEM < "cuttlefish" >, SYNSEM [ LKEYS.KEYREL.PRED "_cuttlefish_n_1_rel", PHON.ONSET con ] ]. cuz_subconj := p_cp_s_le & [ STEM < "cuz" >, SYNSEM [ LKEYS.KEYREL.PRED "_because_x_rel", PHON.ONSET con ] ]. cw_n1 := n_-_pn_le & [ STEM < "CW" >, SYNSEM [ LKEYS.KEYREL.CARG "CW", PHON.ONSET con ] ]. cwa_n1 := n_-_mc_le & [ STEM < "cwa" >, SYNSEM [ LKEYS.KEYREL.PRED "_cwa_n_1_rel", PHON.ONSET con ] ]. cwc_n1 := n_-_mc_le & [ STEM < "cwc" >, SYNSEM [ LKEYS.KEYREL.PRED "_cwc_n_1_rel", PHON.ONSET con ] ]. cyan_n1 := n_-_mc-col_le & [ STEM < "cyan" >, SYNSEM [ LKEYS.KEYREL.PRED "_cyan_n_1_rel", PHON.ONSET con ] ]. cyberspace_n1 := n_-_mc_le & [ STEM < "cyberspace" >, SYNSEM [ LKEYS.KEYREL.PRED "_cyberspace_n_1_rel", PHON.ONSET con ] ]. cycle_n1 := n_-_c_le & [ STEM < "cycle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cycle_n_1_rel", PHON.ONSET con ] ]. cycle_v1 := v_pp*_dir_le & [ STEM < "cycle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cycle_v_1_rel", PHON.ONSET con ] ]. cycle_v2 := v_np_le & [ STEM < "cycle" >, SYNSEM [ LKEYS.KEYREL.PRED "_cycle_v_1_rel", PHON.ONSET con ] ]. cycleway_n1 := n_-_c_le & [ STEM < "cycleway" >, SYNSEM [ LKEYS.KEYREL.PRED "_cycleway_n_1_rel", PHON.ONSET con ] ]. cyclic_a1 := aj_-_i_le & [ STEM < "cyclic" >, SYNSEM [ LKEYS.KEYREL.PRED "_cyclic_a_1_rel", PHON.ONSET con ] ]. cycling_n1 := n_-_m_le & [ STEM < "cycling" >, SYNSEM [ LKEYS.KEYREL.PRED "_cycling_n_1_rel", PHON.ONSET con ] ]. cyclist_n1 := n_-_c_le & [ STEM < "cyclist" >, SYNSEM [ LKEYS.KEYREL.PRED "_cyclist_n_1_rel", PHON.ONSET con ] ]. cycly_n1 := n_-_pn_le & [ STEM < "Cycly" >, SYNSEM [ LKEYS.KEYREL.CARG "Cycly", PHON.ONSET con ] ]. cyert_n1 := n_-_pn_le & [ STEM < "Cyert" >, SYNSEM [ LKEYS.KEYREL.CARG "Cyert", PHON.ONSET con ] ]. cylinder_n1 := n_-_c_le & [ STEM < "cylinder" >, SYNSEM [ LKEYS.KEYREL.PRED "_cylinder_n_1_rel", PHON.ONSET con ] ]. cylindrical_a1 := aj_-_i_le & [ STEM < "cylindrical" >, SYNSEM [ LKEYS.KEYREL.PRED "_cylindrical_a_1_rel", PHON.ONSET con ] ]. cynical_a1 := aj_pp_i_le & [ STEM < "cynical" >, SYNSEM [ LKEYS [ --COMPKEY _about_p_sel_rel, KEYREL.PRED "_cynical_a_about_rel" ], PHON.ONSET con ] ]. cypress_n1 := n_-_mc_le & [ STEM < "cypress" >, SYNSEM [ LKEYS.KEYREL.PRED "_cypress_n_1_rel", PHON.ONSET con ] ]. cyrus_n1 := n_-_pn_le & [ STEM < "Cyrus" >, SYNSEM [ LKEYS.KEYREL.CARG "Cyrus", PHON.ONSET con ] ]. cyst_n1 := n_-_c_le & [ STEM < "cyst" >, SYNSEM [ LKEYS.KEYREL.PRED "_cyst_n_1_rel", PHON.ONSET con ] ]. czech_a1 := aj_-_i_le & [ STEM < "Czech" >, SYNSEM [ LKEYS.KEYREL.PRED "_czech_a_1_rel", PHON.ONSET con ] ]. czech_n1 := n_-_pn_le & [ STEM < "Czech" >, SYNSEM [ LKEYS.KEYREL.CARG "Czech", PHON.ONSET con ] ]. czech_n2 := n_-_c-pl-nocnh_le & [ STEM < "Czech" >, SYNSEM [ LKEYS.KEYREL.PRED "_czech_n_1_rel", PHON.ONSET con ] ]. czechoslovakia_n1 := n_-_pn_le & [ STEM < "Czechoslovakia" >, SYNSEM [ LKEYS.KEYREL.CARG "Czechoslovakia", PHON.ONSET con ] ]. czerczinsky_n1 := n_-_pn_le & [ STEM < "Czerczinsky" >, SYNSEM [ LKEYS.KEYREL.CARG "Czerczinsky", PHON.ONSET con ] ]. d2_n1 := n_-_c_le & [ STEM < "d2" >, SYNSEM [ LKEYS.KEYREL.PRED "_d2_n_1_rel", PHON.ONSET con ] ]. d_arcy_n1 := n_-_pn_le & [ STEM < "D'Arcy" >, SYNSEM [ LKEYS.KEYREL.CARG "D'Arcy", PHON.ONSET con ] ]. d_aumont_n1 := n_-_pn_le & [ STEM < "d'Aumont" >, SYNSEM [ LKEYS.KEYREL.CARG "d'Aumont", PHON.ONSET con ] ]. d_aumont_n2 := n_-_pn_le & [ STEM < "d'", "Aumont" >, SYNSEM [ LKEYS.KEYREL.CARG "d'Aumont", PHON.ONSET con ] ]. d_lower_np1 := n_-_pn_le & [ STEM < "d" >, SYNSEM [ LKEYS.KEYREL.CARG "D", PHON.ONSET con ] ]. d_np1 := n_-_pn-nq_le & [ STEM < "_D" >, SYNSEM [ LKEYS.KEYREL.CARG "D", PHON.ONSET con ] ]. d_period_np1 := n_-_pn_le & [ STEM < "D." >, SYNSEM [ LKEYS.KEYREL.CARG "D", PHON.ONSET con ] ]. d_period_np2 := n_-_pn_le & [ STEM < "_D." >, SYNSEM [ LKEYS.KEYREL.CARG "D", PHON.ONSET con ] ]. da_cheng_n1 := n_-_pn_le & [ STEM < "Da", "Cheng" >, SYNSEM [ LKEYS.KEYREL.CARG "Da_Cheng", PHON.ONSET con ] ]. da_vinci_n1 := n_-_pn_le & [ STEM < "da", "Vinci" >, SYNSEM [ LKEYS.KEYREL.CARG "da_Vinci", PHON.ONSET con ] ]. dabaishu_n1 := n_-_pn_le & [ STEM < "Dabaishu" >, SYNSEM [ LKEYS.KEYREL.CARG "Dabaishu", PHON.ONSET con ] ]. dad_n1 := n_-_c_le & [ STEM < "dad" >, SYNSEM [ LKEYS.KEYREL.PRED "_dad_n_1_rel", PHON.ONSET con ] ]. dad_n2 := n_-_pn_le & [ STEM < "Dad" >, SYNSEM [ LKEYS.KEYREL.CARG "Dad", PHON.ONSET con ] ]. daddy_n1 := n_-_c_le & [ STEM < "daddy" >, SYNSEM [ LKEYS.KEYREL.PRED "_daddy_n_1_rel", PHON.ONSET con ] ]. daddy_n2 := n_-_pn_le & [ STEM < "Daddy" >, SYNSEM [ LKEYS.KEYREL.CARG "Daddy", PHON.ONSET con ] ]. daer_n1 := n_-_pn_le & [ STEM < "Daer" >, SYNSEM [ LKEYS.KEYREL.CARG "Daer", PHON.ONSET con ] ]. daffodil_n1 := n_-_c_le & [ STEM < "daffodil" >, SYNSEM [ LKEYS.KEYREL.PRED "_daffodil_n_1_rel", PHON.ONSET con ] ]. daguangming_n1 := n_-_pn_le & [ STEM < "Daguangming" >, SYNSEM [ LKEYS.KEYREL.CARG "Daguangming", PHON.ONSET con ] ]. dahl_n1 := n_-_pn_le & [ STEM < "Dahl" >, SYNSEM [ LKEYS.KEYREL.CARG "Dahl", PHON.ONSET con ] ]. dai_sun_n1 := n_-_pn_le & [ STEM < "Dai", "sun" >, SYNSEM [ LKEYS.KEYREL.CARG "dai_Sun", PHON.ONSET con ] ]. daily_a1 := aj_-_i_le & [ STEM < "daily" >, SYNSEM [ LKEYS.KEYREL.PRED "_daily_a_1_rel", PHON.ONSET con ] ]. daily_adv1 := av_-_i-vp-po_le & [ STEM < "daily" >, SYNSEM [ LKEYS.KEYREL.PRED "_daily_a_1_rel", PHON.ONSET con ] ]. daily_n1 := n_-_c-nocnh_le & [ STEM < "daily" >, SYNSEM [ LKEYS.KEYREL.PRED "_daily_n_1_rel", PHON.ONSET con ] ]. daintily_a1 := av_-_i-vp_le & [ STEM < "daintily" >, SYNSEM [ LKEYS.KEYREL.PRED "_dainty_a_1_rel", PHON.ONSET con ] ]. dainty_a1 := aj_-_i_le & [ STEM < "dainty" >, SYNSEM [ LKEYS.KEYREL.PRED "_dainty_a_1_rel", PHON.ONSET con ] ]. dairy_n1 := n_-_c_le & [ STEM < "dairy" >, SYNSEM [ LKEYS.KEYREL.PRED "_dairy_n_1_rel", PHON.ONSET con ] ]. dairying_n1 := n_-_m_le & [ STEM < "dairying" >, SYNSEM [ LKEYS.KEYREL.PRED "_dairying_n_1_rel", PHON.ONSET con ] ]. dairymaid_n1 := n_-_c_le & [ STEM < "dairymaid" >, SYNSEM [ LKEYS.KEYREL.PRED "_dairymaid_n_1_rel", PHON.ONSET con ] ]. dais_n1 := n_-_c_le & [ STEM < "dais" >, SYNSEM [ LKEYS.KEYREL.PRED "_dais_n_1_rel", PHON.ONSET con ] ]. daisy_n1 := n_-_pn_le & [ STEM < "Daisy" >, SYNSEM [ LKEYS.KEYREL.CARG "Daisy", PHON.ONSET con ] ]. dajing_n1 := n_-_pn_le & [ STEM < "Dajing" >, SYNSEM [ LKEYS.KEYREL.CARG "Dajing", PHON.ONSET con ] ]. dale_n1 := n_-_c_le & [ STEM < "dale" >, SYNSEM [ LKEYS.KEYREL.PRED "_dale_n_1_rel", PHON.ONSET con ] ]. dale_n2 := n_-_pn_le & [ STEM < "Dale" >, SYNSEM [ LKEYS.KEYREL.CARG "Dale", PHON.ONSET con ] ]. dalen_n1 := n_-_pn_le & [ STEM < "Dalen" >, SYNSEM [ LKEYS.KEYREL.CARG "Dalen", PHON.ONSET con ] ]. dalesman_n1 := n_-_c_le & [ STEM < "dalesman" >, SYNSEM [ LKEYS.KEYREL.PRED "_dalesman_n_1_rel", PHON.ONSET con ] ]. dalgliesh_n1 := n_-_pn_le & [ STEM < "Dalgliesh" >, SYNSEM [ LKEYS.KEYREL.CARG "Dalgliesh", PHON.ONSET con ] ]. dallas_n1 := n_-_pn-city_le & [ STEM < "Dallas" >, SYNSEM [ LKEYS.KEYREL.CARG "Dallas", PHON.ONSET con ] ]. dalloway_n1 := n_-_pn_le & [ STEM < "Dalloway" >, SYNSEM [ LKEYS.KEYREL.CARG "Dalloway", PHON.ONSET con ] ]. dalsbøen_n1 := n_-_pn_le & [ STEM < "Dalsbøen" >, SYNSEM [ LKEYS.KEYREL.CARG "Dalsbøen", PHON.ONSET con ] ]. dalu_xincun_n1 := n_-_pn_le & [ STEM < "Dalu", "Xincun" >, SYNSEM [ LKEYS.KEYREL.CARG "Dalu_Xincun", PHON.ONSET con ] ]. dam_n1 := n_-_c_le & [ STEM < "dam" >, SYNSEM [ LKEYS.KEYREL.PRED "_dam_n_1_rel", PHON.ONSET con ] ]. dam_up_v1 := v_p-np_le & [ STEM < "dam" >, SYNSEM [ LKEYS [ --COMPKEY _up_p_sel_rel, KEYREL.PRED "_dam_v_up_rel" ], PHON.ONSET con ] ]. dam_v1 := v_np_le & [ STEM < "dam" >, SYNSEM [ LKEYS.KEYREL.PRED "_dam_v_1_rel", PHON.ONSET con ] ]. damage_n1 := n_pp_m_le & [ STEM < "damage" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_damage_n_to_rel" ], PHON.ONSET con ] ]. damage_v1 := v_np_le & [ STEM < "damage" >, SYNSEM [ LKEYS.KEYREL.PRED "_damage_v_1_rel", PHON.ONSET con ] ]. damages_n1 := n_-_c-pl-nocnh_le & [ STEM < "damage" >, SYNSEM [ LKEYS.KEYREL.PRED "_damages_n_1_rel", PHON.ONSET con ] ]. damask_n1 := n_-_mc_le & [ STEM < "damask" >, SYNSEM [ LKEYS.KEYREL.PRED "_damask_n_1_rel", PHON.ONSET con ] ]. damaskeen_n1 := n_-_mc_le & [ STEM < "damaskeen" >, SYNSEM [ LKEYS.KEYREL.PRED "_damaskeen_n_1_rel", PHON.ONSET con ] ]. dame_n1 := n_-_c_le & [ STEM < "dame" >, SYNSEM [ LKEYS.KEYREL.PRED "_dame_n_1_rel", PHON.ONSET con ] ]. damian_n1 := n_-_pn_le & [ STEM < "Damian" >, SYNSEM [ LKEYS.KEYREL.CARG "Damian", PHON.ONSET con ] ]. dammit_root_post := av_-_s-cp-nsp-po_le & [ STEM < "dammit" >, SYNSEM [ LKEYS.KEYREL.PRED "_dammit_a_1_rel", PHON.ONSET con ] ]. dammit_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "dammit" >, SYNSEM [ LKEYS.KEYREL.PRED "_dammit_a_1_rel", PHON.ONSET con ] ]. dammtor := n_-_pn-city_le & [ STEM < "Dammtor" >, SYNSEM [ LKEYS.KEYREL.CARG "Dammtor", PHON.ONSET con ] ]. damn_a1 := aj_-_i_le & [ STEM < "damn" >, SYNSEM [ LKEYS.KEYREL.PRED "_damn_a_1_rel", PHON.ONSET con ] ]. damn_deg := av_-_dg-v_le & [ STEM < "damn" >, SYNSEM [ LKEYS.KEYREL.PRED "_damn_x_deg_rel", PHON.ONSET con ] ]. damn_n1 := n_-_c_le & [ STEM < "damn" >, SYNSEM [ LKEYS.KEYREL.PRED "_damn_n_1_rel", PHON.ONSET con ] ]. damn_v1 := v_np-pp*_to_le & [ STEM < "damn" >, SYNSEM [ LKEYS.KEYREL.PRED "_damn_v_to_rel", PHON.ONSET con ] ]. damnation_n1 := n_-_mc_le & [ STEM < "damnation" >, SYNSEM [ LKEYS.KEYREL.PRED "_damnation_n_1_rel", PHON.ONSET con ] ]. damned_deg := av_-_dg-v_le & [ STEM < "damned" >, SYNSEM [ LKEYS.KEYREL.PRED "_damned_x_deg_rel", PHON.ONSET con ] ]. damp_a1 := aj_-_i_le & [ STEM < "damp" >, SYNSEM [ LKEYS.KEYREL.PRED "_damp_a_1_rel", PHON.ONSET con ] ]. damp_a2 := aj_-_i-wthr_le & [ STEM < "damp" >, SYNSEM [ LKEYS.KEYREL.PRED "_damp_a_1_rel", PHON.ONSET con ] ]. damp_down_v1 := v_p-np_le & [ STEM < "damp" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_damp_v_down_rel" ], PHON.ONSET con ] ]. damp_n1 := n_-_m-nocnh_le & [ STEM < "damp" >, SYNSEM [ LKEYS.KEYREL.PRED "_damp_n_1_rel", PHON.ONSET con ] ]. damp_out_v1 := v_p-np_le & [ STEM < "damp" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_damp_v_out_rel" ], PHON.ONSET con ] ]. damp_v1 := v_np_le & [ STEM < "damp" >, SYNSEM [ LKEYS.KEYREL.PRED "_damp_v_1_rel", PHON.ONSET con ] ]. dampen_v1 := v_np_noger_le & [ STEM < "dampen" >, SYNSEM [ LKEYS.KEYREL.PRED "_dampen_v_cause_rel", PHON.ONSET con ] ]. dampen_v2 := v_-_unacc_le & [ STEM < "dampen" >, SYNSEM [ LKEYS.KEYREL.PRED "_dampen_v_1_rel", PHON.ONSET con ] ]. dampness_n1 := n_-_m_le & [ STEM < "dampness" >, SYNSEM [ LKEYS.KEYREL.PRED "_dampness_n_1_rel", PHON.ONSET con ] ]. damtjønna_n1 := n_-_pn_le & [ STEM < "Damtjønna" >, SYNSEM [ LKEYS.KEYREL.CARG "Damtjønna", PHON.ONSET con ] ]. dan_n1 := n_-_pn_le & [ STEM < "Dan" >, SYNSEM [ LKEYS.KEYREL.CARG "Dan", PHON.ONSET con ] ]. dana_n1 := n_-_pn_le & [ STEM < "Dana" >, SYNSEM [ LKEYS.KEYREL.CARG "Dana", PHON.ONSET con ] ]. dance_n1 := n_-_mc_le & [ STEM < "dance" >, SYNSEM [ LKEYS.KEYREL.PRED "_dance_n_1_rel", PHON.ONSET con ] ]. dance_v1 := v_np*_le & [ STEM < "dance" >, SYNSEM [ LKEYS.KEYREL.PRED "_dance_v_1_rel", PHON.ONSET con ] ]. dancehall_n1 := n_-_c_le & [ STEM < "dancehall" >, SYNSEM [ LKEYS.KEYREL.PRED "_dancehall_n_1_rel", PHON.ONSET con ] ]. dancehall_post_ttl := n_-_tt-post_le & [ STEM < "Dancehall" >, SYNSEM [ LKEYS.KEYREL.PRED "_dancehall_n_1_rel", PHON.ONSET con ] ]. dancer_n1 := n_-_c_le & [ STEM < "dancer" >, SYNSEM [ LKEYS.KEYREL.PRED "_dancer_n_1_rel", PHON.ONSET con ] ]. dandelion_n1 := n_-_c_le & [ STEM < "dandelion" >, SYNSEM [ LKEYS.KEYREL.PRED "_dandelion_n_1_rel", PHON.ONSET con ] ]. dang_a1 := aj_-_i_le & [ STEM < "dang" >, SYNSEM [ LKEYS.KEYREL.PRED "_dang_a_1_rel", PHON.ONSET con ] ]. dang_root_post := av_-_s-cp-nsp-po_le & [ STEM < "dang" >, SYNSEM [ LKEYS.KEYREL.PRED "_dang_a_1_rel", PHON.ONSET con ] ]. dang_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "dang" >, SYNSEM [ LKEYS.KEYREL.PRED "_dang_a_1_rel", PHON.ONSET con ] ]. danger_n1 := n_-_mc_le & [ STEM < "danger" >, SYNSEM [ LKEYS.KEYREL.PRED "_danger_n_1_rel", PHON.ONSET con ] ]. dangerous_a1 := aj_-_i_le & [ STEM < "dangerous" >, SYNSEM [ LKEYS.KEYREL.PRED "_dangerous_a_1_rel", PHON.ONSET con ] ]. dangerously_adv1 := av_-_i-vp_le & [ STEM < "dangerously" >, SYNSEM [ LKEYS.KEYREL.PRED "_dangerous_a_1_rel", PHON.ONSET con ] ]. dangle_v1 := v_np_noger_le & [ STEM < "dangle" >, SYNSEM [ LKEYS.KEYREL.PRED "_dangle_v_cause_rel", PHON.ONSET con ] ]. dangle_v2 := v_-_unacc_le & [ STEM < "dangle" >, SYNSEM [ LKEYS.KEYREL.PRED "_dangle_v_1_rel", PHON.ONSET con ] ]. daniel_n1 := n_-_pn_le & [ STEM < "Daniel" >, SYNSEM [ LKEYS.KEYREL.CARG "Daniel", PHON.ONSET con ] ]. danish_a1 := aj_-_i_le & [ STEM < "Danish" >, SYNSEM [ LKEYS.KEYREL.PRED "_danish_a_1_rel", PHON.ONSET con ] ]. danish_n1 := n_-_pn_le & [ STEM < "Danish" >, SYNSEM [ LKEYS.KEYREL.CARG "Danish", PHON.ONSET con ] ]. danish_n2 := n_-_c_le & [ STEM < "Danish" >, SYNSEM [ LKEYS.KEYREL.PRED "_danish_n_2_rel", PHON.ONSET con ] ]. danish_n3 := n_-_c-pl-nocnh_le & [ STEM < "Danish" >, SYNSEM [ LKEYS.KEYREL.PRED "_danish_n_1_rel", PHON.ONSET con ] ]. dank_a1 := aj_-_i_le & [ STEM < "dank" >, SYNSEM [ LKEYS.KEYREL.PRED "_dank_a_1_rel", PHON.ONSET con ] ]. danny_n1 := n_-_pn_le & [ STEM < "Danny" >, SYNSEM [ LKEYS.KEYREL.CARG "Danny", PHON.ONSET con ] ]. danube_n1 := n_-_pn_le & [ STEM < "Danube" >, SYNSEM [ LKEYS.KEYREL.CARG "Danube", PHON.ONSET con ] ]. danza_n1 := n_-_pn_le & [ STEM < "Danza" >, SYNSEM [ LKEYS.KEYREL.CARG "Danza", PHON.ONSET con ] ]. daoguang_n1 := n_-_pn_le & [ STEM < "Daoguang" >, SYNSEM [ LKEYS.KEYREL.CARG "Daoguang", PHON.ONSET con ] ]. dare_aux_neg_1 := v_vp_mdl-n_le & [ STEM < "daren't" >, SYNSEM [ LKEYS.KEYREL.PRED _dare_v_modal_rel, PHON.ONSET con ] ]. dare_aux_neg_2 := v_vp_mdl-n_le & [ STEM < "daren", "'t" >, SYNSEM [ LKEYS.KEYREL.PRED _dare_v_modal_rel, PHON.ONSET con ] ]. dare_aux_pos := v_vp_mdl-p_le & [ STEM < "dare" >, SYNSEM [ LKEYS.KEYREL.PRED _dare_v_modal_rel, PHON.ONSET con ] ]. dare_v1 := v_vp_seq_le & [ STEM < "dare" >, SYNSEM [ LKEYS.KEYREL.PRED "_dare_v_1_rel", PHON.ONSET con ] ]. dare_v2 := v_np-vp_oeq_le & [ STEM < "dare" >, SYNSEM [ LKEYS.KEYREL.PRED "_dare_v_1_rel", PHON.ONSET con ] ]. dare_v3 := v_np_le & [ STEM < "dare" >, SYNSEM [ LKEYS.KEYREL.PRED "_dare_v_1_rel", PHON.ONSET con ] ]. dare_v4 := v_vp_seq-n3sg_le & [ STEM < "dare" >, SYNSEM [ LKEYS [ ALTKEYREL.PRED "_only_a_1_rel", KEYREL.PRED "_dare_v_1_rel" ], PHON.ONSET con ] ]. dark_isect := aj_-_i_le & [ STEM < "dark" >, SYNSEM [ LKEYS.KEYREL.PRED "_dark_a_1_rel", PHON.ONSET con ] ]. dark_n1 := n_-_m-nocnh_le & [ STEM < "dark" >, SYNSEM [ LKEYS.KEYREL.PRED "_dark_n_1_rel", PHON.ONSET con ] ]. darken_v1 := v_np_noger_le & [ STEM < "darken" >, SYNSEM [ LKEYS.KEYREL.PRED "_darken_v_cause_rel", PHON.ONSET con ] ]. darken_v2 := v_-_unacc_le & [ STEM < "darken" >, SYNSEM [ LKEYS.KEYREL.PRED "_darken_v_1_rel", PHON.ONSET con ] ]. darker := aj_pp_i-cmp_le & [ STEM < "darker" >, SYNSEM [ LKEYS.KEYREL.PRED "_dark_a_1_rel", PHON.ONSET con ] ]. darkest_a1 := aj_-_i-sup_le & [ STEM < "darkest" >, SYNSEM [ LKEYS.KEYREL.PRED "_dark_a_1_rel", PHON.ONSET con ] ]. darkly := av_-_i-vp_le & [ STEM < "darkly" >, SYNSEM [ LKEYS.KEYREL.PRED "_dark_a_1_rel", PHON.ONSET con ] ]. darkness_n1 := n_-_m_le & [ STEM < "darkness" >, SYNSEM [ LKEYS.KEYREL.PRED "_darkness_n_1_rel", PHON.ONSET con ] ]. darlene_n1 := n_-_pn_le & [ STEM < "Darlene" >, SYNSEM [ LKEYS.KEYREL.CARG "Darlene", PHON.ONSET con ] ]. darling_a1 := aj_-_i_le & [ STEM < "darling" >, SYNSEM [ LKEYS.KEYREL.PRED "_darling_a_1_rel", PHON.ONSET con ] ]. darling_n1 := n_-_c_le & [ STEM < "darling" >, SYNSEM [ LKEYS.KEYREL.PRED "_darling_n_1_rel", PHON.ONSET con ] ]. darlington_n1 := n_-_pn_le & [ STEM < "Darlington" >, SYNSEM [ LKEYS.KEYREL.CARG "Darlington", PHON.ONSET con ] ]. darmstadt_n1 := n_-_pn-city_le & [ STEM < "Darmstadt" >, SYNSEM [ LKEYS.KEYREL.CARG "Darmstadt", PHON.ONSET con ] ]. darn_a1 := aj_-_i_le & [ STEM < "darn" >, SYNSEM [ LKEYS.KEYREL.PRED "_darn_a_1_rel", PHON.ONSET con ] ]. darn_root_post := av_-_s-cp-nsp-po_le & [ STEM < "darn" >, SYNSEM [ LKEYS.KEYREL.PRED "_darn_a_1_rel", PHON.ONSET con ] ]. darn_root_pre := av_-_s-cp-mc-pr_le & [ STEM < "darn" >, SYNSEM [ LKEYS.KEYREL.PRED "_darn_a_1_rel", PHON.ONSET con ] ]. darn_v1 := v_np*_le & [ STEM < "darn" >, SYNSEM [ LKEYS.KEYREL.PRED "_darn_v_1_rel", PHON.ONSET con ] ]. darned_a1 := aj_-_i_le & [ STEM < "darned" >, SYNSEM [ LKEYS.KEYREL.PRED "_darned_a_1_rel", PHON.ONSET con ] ]. darned_deg := av_-_dg-v_le & [ STEM < "darned" >, SYNSEM [ LKEYS.KEYREL.PRED "_darned_x_deg_rel", PHON.ONSET con ] ]. dart_n1 := n_-_c_le & [ STEM < "dart" >, SYNSEM [ LKEYS.KEYREL.PRED "_dart_n_1_rel", PHON.ONSET con ] ]. dart_v1 := v_pp*_dir_le & [ STEM < "dart" >, SYNSEM [ LKEYS.KEYREL.PRED "_dart_v_1_rel", PHON.ONSET con ] ]. darth_vader_n1 := n_-_pn_le & [ STEM < "Darth", "Vader" >, SYNSEM [ LKEYS.KEYREL.CARG "Darth_Vader", PHON.ONSET con ] ]. dartmouth_n1 := n_-_pn-city_le & [ STEM < "Dartmouth" >, SYNSEM [ LKEYS.KEYREL.CARG "Dartmouth", PHON.ONSET con ] ]. darwin_n1 := n_-_pn_le & [ STEM < "Darwin" >, SYNSEM [ LKEYS.KEYREL.CARG "Darwin", PHON.ONSET con ] ]. dash_n1 := n_-_c_le & [ STEM < "dash" >, SYNSEM [ LKEYS.KEYREL.PRED "_dash_n_1_rel", PHON.ONSET con ] ]. dash_prtcl := p_np_ptcl_le & [ STEM < "-" >, SYNSEM [ LKEYS.KEYREL.PRED _dashpnct_p_sel_rel, PHON.ONSET con ] ]. dash_s_root_pre := av_-_dc-pr_le & [ STEM < "-" >, SYNSEM [ LKEYS.KEYREL.CARG "s-dash", PHON.ONSET onset ] ]. dash_v1 := v_pp*_dir_le & [ STEM < "dash" >, SYNSEM [ LKEYS.KEYREL.PRED "_dash_v_1_rel", PHON.ONSET con ] ]. dash_v2 := v_np_noger_le & [ STEM < "dash" >, SYNSEM [ LKEYS.KEYREL.PRED "_dash_v_2_rel", PHON.ONSET con ] ]. dashiell_n1 := n_-_pn_le & [ STEM < "Dashiell" >, SYNSEM [ LKEYS.KEYREL.CARG "Dashiell", PHON.ONSET con ] ]. dashijie_n1 := n_-_pn_le & [ STEM < "Dashijie" >, SYNSEM [ LKEYS.KEYREL.CARG "Dashijie", PHON.ONSET con ] ]. data_n1 := n_-_c-pl-nocnh_le & [ STEM < "data" >, SYNSEM [ LKEYS.KEYREL.PRED "_data_n_1_rel", PHON.ONSET con ] ]. data_n2 := n_-_m_le & [ STEM < "data" >, SYNSEM [ LKEYS.KEYREL.PRED "_data_n_1_rel", PHON.ONSET con ] ]. database_n1 := n_pp_c-of_le & [ STEM < "database" >, SYNSEM [ LKEYS.KEYREL.PRED "_database_n_of_rel", PHON.ONSET con ] ]. date_back_v1 := v_p-pp_le & [ STEM < "date" >, SYNSEM [ LKEYS [ --COMPKEY _back_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_date_v_back_rel" ], PHON.ONSET con ] ]. date_from_v1 := v_pp_e_le & [ STEM < "date" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_date_v_from_rel" ], PHON.ONSET con ] ]. date_n1 := n_pp_c-day_le & [ STEM < "date" >, SYNSEM [ LKEYS.KEYREL.PRED "_date_n_of_rel", PHON.ONSET con ] ]. date_v1 := v_np-np_only_le & [ STEM < "date" >, SYNSEM [ LKEYS.KEYREL.PRED "_date_v_1_rel", PHON.ONSET con ] ]. date_v2 := v_np*_le & [ STEM < "date" >, SYNSEM [ LKEYS.KEYREL.PRED "_date_v_1_rel", PHON.ONSET con ] ]. dative_n1 := n_-_mc_le & [ STEM < "dative" >, SYNSEM [ LKEYS.KEYREL.PRED "_dative_n_1_rel", PHON.ONSET con ] ]. datum_n1 := n_-_c_le & [ STEM < "datum" >, SYNSEM [ LKEYS.KEYREL.PRED "_data_n_1_rel", PHON.ONSET con ] ]. daughter_n1 := n_-_c_le & [ STEM < "daughter" >, SYNSEM [ LKEYS.KEYREL.PRED "_daughter_n_1_rel", PHON.ONSET con ] ]. daunt_v1 := v_np_le & [ STEM < "daunt" >, SYNSEM [ LKEYS.KEYREL.PRED "_daunt_v_1_rel", PHON.ONSET con ] ]. dave_n1 := n_-_pn_le & [ STEM < "Dave" >, SYNSEM [ LKEYS.KEYREL.CARG "Dave", PHON.ONSET con ] ]. david_n1 := n_-_pn_le & [ STEM < "David" >, SYNSEM [ LKEYS.KEYREL.CARG "David", PHON.ONSET con ] ]. davidson_n1 := n_-_pn_le & [ STEM < "Davidson" >, SYNSEM [ LKEYS.KEYREL.CARG "Davidson", PHON.ONSET con ] ]. davies_n1 := n_-_pn_le & [ STEM < "Davies" >, SYNSEM [ LKEYS.KEYREL.CARG "Davies", PHON.ONSET con ] ]. davis_n1 := n_-_pn_le & [ STEM < "Davis" >, SYNSEM [ LKEYS.KEYREL.CARG "Davis", PHON.ONSET con ] ]. dawn := n_-_pn-hour_le & [ STEM < "dawn" >, SYNSEM [ LKEYS.KEYREL.CARG "dawn", PHON.ONSET con ] ]. dawn_n2 := n_-_c_le & [ STEM < "dawn" >, SYNSEM [ LKEYS.KEYREL.PRED "_dawn_n_1_rel", PHON.ONSET con ] ]. dawn_v1 := v_-_le & [ STEM < "dawn" >, SYNSEM [ LKEYS.KEYREL.PRED "_dawn_v_1_rel", PHON.ONSET con ] ]. dawn_v2 := v_pp-cp_it-s-e_le & [ STEM < "dawn" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_dawn_v_on_rel" ], PHON.ONSET con ] ]. dawson_n1 := n_-_pn_le & [ STEM < "Dawson" >, SYNSEM [ LKEYS.KEYREL.CARG "Dawson", PHON.ONSET con ] ]. daxin_n1 := n_-_pn_le & [ STEM < "Daxin" >, SYNSEM [ LKEYS.KEYREL.CARG "Daxin", PHON.ONSET con ] ]. day-long_a1 := aj_-_i-att_le & [ STEM < "day", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+long_a_1_rel", PHON.ONSET con ] ]. day-long_a2 := aj_-_i-att_le & [ STEM < "day-", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+long_a_1_rel", PHON.ONSET con ] ]. day_before_easter_hd := n_np_pn-hol_le & [ STEM < "Day", "before", "Easter" >, SYNSEM [ LKEYS.KEYREL.CARG "Day_before_Easter", PHON.ONSET con ] ]. day_dream_v1 := v_-_le & [ STEM < "day", "dream" >, SYNSEM [ LKEYS.KEYREL.PRED "_day_v_dream_rel", PHON.ONSET con ] ]. day_dream_v2 := v_-_le & [ STEM < "day-", "dream" >, SYNSEM [ LKEYS.KEYREL.PRED "_day_v_dream_rel", PHON.ONSET con ] ]. day_n := n_pp_c-day_le & [ STEM < "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_day_n_of_rel", PHON.ONSET con ] ]. day_to_day_a1 := aj_-_i_le & [ STEM < "day", "to", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+to+day_a_1_rel", PHON.ONSET con ] ]. day_to_day_a2 := aj_-_i_le & [ STEM < "day-", "to-", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+to+day_a_1_rel", PHON.ONSET con ] ]. day_to_day_adv1 := av_-_i-vp-po_le & [ STEM < "day", "to", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+to+day_a_1_rel", PHON.ONSET con ] ]. day_to_day_adv2 := av_-_i-vp-po_le & [ STEM < "day-", "to-", "day" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+to+day_a_1_rel", PHON.ONSET con ] ]. dayac_n1 := n_-_pn_le & [ STEM < "DAYAC" >, SYNSEM [ LKEYS.KEYREL.CARG "DAYAC", PHON.ONSET con ] ]. daybreak := n_-_pn-hour_le & [ STEM < "daybreak" >, SYNSEM [ LKEYS.KEYREL.CARG "daybreak", PHON.ONSET con ] ]. daydream_v1 := v_-_le & [ STEM < "daydream" >, SYNSEM [ LKEYS.KEYREL.PRED "_day_v_dream_rel", PHON.ONSET con ] ]. daylight_n1 := n_-_mc_le & [ STEM < "daylight" >, SYNSEM [ LKEYS.KEYREL.PRED "_daylight_n_1_rel", PHON.ONSET con ] ]. daypack_n1 := n_-_c_le & [ STEM < "daypack" >, SYNSEM [ LKEYS.KEYREL.PRED "_daypack_n_1_rel", PHON.ONSET con ] ]. days-long_a1 := aj_-_i_le & [ STEM < "days", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+long_a_1_rel", PHON.ONSET con ] ]. days-long_a2 := aj_-_i_le & [ STEM < "days-", "long" >, SYNSEM [ LKEYS.KEYREL.PRED "_day+long_a_1_rel", PHON.ONSET con ] ]. daytime_n1 := n_-_c_le & [ STEM < "daytime" >, SYNSEM [ LKEYS.KEYREL.PRED "_daytime_n_1_rel", PHON.ONSET con ] ]. daytrip_n1 := n_-_c_le & [ STEM < "daytrip" >, SYNSEM [ LKEYS.KEYREL.PRED "_daytrip_n_1_rel", PHON.ONSET con ] ]. daytripper_n1 := n_-_c_le & [ STEM < "daytripper" >, SYNSEM [ LKEYS.KEYREL.PRED "_daytripper_n_1_rel", PHON.ONSET con ] ]. dazzle_n1 := n_-_m_le & [ STEM < "dazzle" >, SYNSEM [ LKEYS.KEYREL.PRED "_dazzle_n_1_rel", PHON.ONSET con ] ]. dazzle_v1 := v_np*_le & [ STEM < "dazzle" >, SYNSEM [ LKEYS.KEYREL.PRED "_dazzle_v_1_rel", PHON.ONSET con ] ]. dbl_dash_s_root_pre := av_-_dc-pr_le & [ STEM < "__" >, SYNSEM [ LKEYS.KEYREL.CARG "s-dash", PHON.ONSET onset ] ]. dbl_hyphen_punct := pt_-_dbl-hyphn_le & [ STEM < "__" >, SYNSEM.PHON.ONSET onset ]. dbl_rt_angle_a1 := aj_np_i_le & [ STEM < "≫" >, SYNSEM [ LKEYS.KEYREL.PRED "_dbl+rt+angle_a_1_rel", PHON.ONSET onset ] ]. dc4800_n1 := n_-_c_le & [ STEM < "dc4800" >, SYNSEM [ LKEYS.KEYREL.PRED "_dc4800_n_1_rel", PHON.ONSET con ] ]. dc_n1 := n_-_c_le & [ STEM < "dc" >, SYNSEM [ LKEYS.KEYREL.PRED "_dc_n_1_rel", PHON.ONSET con ] ]. de_beers_n1 := n_-_pn_le & [ STEM < "de", "Beers" >, SYNSEM [ LKEYS.KEYREL.CARG "de_Beers", PHON.ONSET con ] ]. de_gaulle_n1 := n_-_pn_le & [ STEM < "de", "Gaulle" >, SYNSEM [ LKEYS.KEYREL.CARG "de+Gaulle", PHON.ONSET con ] ]. de_rigueur_a1 := aj_-_i_le & [ STEM < "de", "rigueur" >, SYNSEM [ LKEYS.KEYREL.PRED "_de+rigueur_a_1_rel", PHON.ONSET con ] ]. deacon_n1 := n_-_c_le & [ STEM < "deacon" >, SYNSEM [ LKEYS.KEYREL.PRED "_deacon_n_1_rel", PHON.ONSET con ] ]. deactivate_v1 := v_np_le & [ STEM < "deactivate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deactivate_v_1_rel", PHON.ONSET con ] ]. deactivate_v2 := v_np_le & [ STEM < "de", "activate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deactivate_v_1_rel", PHON.ONSET con ] ]. dead_a1 := aj_-_i_le & [ STEM < "dead" >, SYNSEM [ LKEYS.KEYREL.PRED "_dead_a_1_rel", PHON.ONSET con ] ]. dead_n1 := n_-_c_le & [ STEM < "dead" >, SYNSEM [ LKEYS.KEYREL.PRED "_dead_n_1_rel", PHON.ONSET con ] ]. dead_poets_society_n1 := n_-_pn_le & [ STEM < "Dead", "Poets", "Society" >, SYNSEM [ LKEYS.KEYREL.CARG "Dead_Poets_Society", PHON.ONSET con ] ]. dead_poets_society_n2 := n_-_pn_le & [ STEM < "Dead", "Poet", "'s", "Society" >, SYNSEM [ LKEYS.KEYREL.CARG "Dead_Poets_Society", PHON.ONSET con ] ]. deadline_n1 := n_pp_c-of_le & [ STEM < "deadline" >, SYNSEM [ LKEYS.KEYREL.PRED "_deadline_n_of_rel", PHON.ONSET con ] ]. deadlock_n1 := n_-_mc_le & [ STEM < "deadlock" >, SYNSEM [ LKEYS.KEYREL.PRED "_deadlock_n_1_rel", PHON.ONSET con ] ]. deadly_isect := aj_-_i_le & [ STEM < "deadly" >, SYNSEM [ LKEYS.KEYREL.PRED "_deadly_a_1_rel", PHON.ONSET con ] ]. deaf_a1 := aj_-_i_le & [ STEM < "deaf" >, SYNSEM [ LKEYS.KEYREL.PRED "_deaf_a_1_rel", PHON.ONSET con ] ]. deal_in_v1 := v_pp_e_le & [ STEM < "deal" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_deal_v_in_rel" ], PHON.ONSET con ] ]. deal_n1 := n_-_mc_le & [ STEM < "deal" >, SYNSEM [ LKEYS.KEYREL.PRED "_deal_n_1_rel", PHON.ONSET con ] ]. deal_v1 := v_np*_le & [ STEM < "deal" >, SYNSEM [ LKEYS.KEYREL.PRED "_deal_v_1_rel", PHON.ONSET con ] ]. deal_v2 := v_np-np_le & [ STEM < "deal" >, SYNSEM [ LKEYS.KEYREL.PRED "_deal_v_1_rel", PHON.ONSET con ] ]. deal_with_v1 := v_pp_e_le & [ STEM < "deal" >, SYNSEM [ LKEYS [ --COMPKEY _with_p_sel_rel, KEYREL.PRED "_deal_v_with_rel" ], PHON.ONSET con ] ]. dealer_n1 := n_-_c_le & [ STEM < "dealer" >, SYNSEM [ LKEYS.KEYREL.PRED "_dealer_n_1_rel", PHON.ONSET con ] ]. dealership_n1 := n_-_c_le & [ STEM < "dealership" >, SYNSEM [ LKEYS.KEYREL.PRED "_dealership_n_1_rel", PHON.ONSET con ] ]. dealings_n1 := n_-_c-pl-nocnh_le & [ STEM < "dealing" >, SYNSEM [ LKEYS.KEYREL.PRED "_dealings_n_1_rel", PHON.ONSET con ] ]. dean_n1 := n_-_pn_le & [ STEM < "Dean" >, SYNSEM [ LKEYS.KEYREL.CARG "Dean", PHON.ONSET con ] ]. dean_n2 := n_-_c_le & [ STEM < "dean" >, SYNSEM [ LKEYS.KEYREL.PRED "_dean_n_1_rel", PHON.ONSET con ] ]. dean_v1 := v_np*_le & [ STEM < "dean" >, SYNSEM [ LKEYS.KEYREL.PRED "_dean_v_1_rel", PHON.ONSET con ] ]. dear_a1 := aj_-_i_le & [ STEM < "dear" >, SYNSEM [ LKEYS.KEYREL.PRED "_dear_a_1_rel", PHON.ONSET con ] ]. dear_n1 := n_-_c-nocnh_le & [ STEM < "dear" >, SYNSEM [ LKEYS.KEYREL.PRED "_dear_n_1_rel", PHON.ONSET con ] ]. dear_post_ttl := n_-_tt-post_le & [ STEM < "Dear" >, SYNSEM [ LKEYS.KEYREL.PRED "_dear_n_1_rel", PHON.ONSET con ] ]. dear_root_post := av_-_dc-po_le & [ STEM < "dear" >, SYNSEM [ LKEYS.KEYREL.CARG "dear", PHON.ONSET con ] ]. dear_root_pre := av_-_dc-pr_le & [ STEM < "dear" >, SYNSEM [ LKEYS.KEYREL.CARG "dear", PHON.ONSET con ] ]. dearth_n1 := n_-_c-sg_le & [ STEM < "dearth" >, SYNSEM [ LKEYS.KEYREL.PRED "_dearth_n_1_rel", PHON.ONSET con ] ]. death_n1 := n_-_mc_le & [ STEM < "death" >, SYNSEM [ LKEYS.KEYREL.PRED "_death_n_1_rel", PHON.ONSET con ] ]. deathless_a1 := aj_-_i_le & [ STEM < "deathless" >, SYNSEM [ LKEYS.KEYREL.PRED "_deathless_a_1_rel", PHON.ONSET con ] ]. deathly_a1 := aj_-_i_le & [ STEM < "deathly" >, SYNSEM [ LKEYS.KEYREL.PRED "_deathly_a_1_rel", PHON.ONSET con ] ]. debark_v1 := v_np*_le & [ STEM < "debark" >, SYNSEM [ LKEYS.KEYREL.PRED "_debark_v_1_rel", PHON.ONSET con ] ]. debatable_a1 := aj_-_i_le & [ STEM < "debatable" >, SYNSEM [ LKEYS.KEYREL.PRED "_debatable_a_1_rel", PHON.ONSET con ] ]. debate_n := n_-_mc_le & [ STEM < "debate" >, SYNSEM [ LKEYS.KEYREL.PRED "_debate_n_1_rel", PHON.ONSET con ] ]. debate_v1 := v_np*_le & [ STEM < "debate" >, SYNSEM [ LKEYS.KEYREL.PRED "_debate_v_1_rel", PHON.ONSET con ] ]. debate_v2 := v_cp_fin-inf-q_le & [ STEM < "debate" >, SYNSEM [ LKEYS.KEYREL.PRED "_debate_v_1_rel", PHON.ONSET con ] ]. debbie := n_-_pn_le & [ STEM < "Debbie" >, SYNSEM [ LKEYS.KEYREL.CARG "Debbie", PHON.ONSET con ] ]. debit_n1 := n_-_c_le & [ STEM < "debit" >, SYNSEM [ LKEYS.KEYREL.PRED "_debit_n_1_rel", PHON.ONSET con ] ]. debit_v1 := v_np_le & [ STEM < "debit" >, SYNSEM [ LKEYS.KEYREL.PRED "_debit_v_1_rel", PHON.ONSET con ] ]. debris_n1 := n_-_m_le & [ STEM < "debris" >, SYNSEM [ LKEYS.KEYREL.PRED "_debris_n_1_rel", PHON.ONSET con ] ]. debt-ridden_a1 := aj_-_i_le & [ STEM < "debt-", "ridden" >, SYNSEM [ LKEYS.KEYREL.PRED "_debt-ridden_a_1_rel", PHON.ONSET con ] ]. debt-ridden_a2 := aj_-_i_le & [ STEM < "debt", "ridden" >, SYNSEM [ LKEYS.KEYREL.PRED "_debt-ridden_a_1_rel", PHON.ONSET con ] ]. debt_n1 := n_-_mc_le & [ STEM < "debt" >, SYNSEM [ LKEYS.KEYREL.PRED "_debt_n_1_rel", PHON.ONSET con ] ]. debtor_n1 := n_-_c_le & [ STEM < "debtor" >, SYNSEM [ LKEYS.KEYREL.PRED "_debtor_n_1_rel", PHON.ONSET con ] ]. debug_v1 := v_-_unacc_le & [ STEM < "debug" >, SYNSEM [ LKEYS.KEYREL.PRED "_debug_v_1_rel", PHON.ONSET con ] ]. debug_v2 := v_np_noger_le & [ STEM < "debug" >, SYNSEM [ LKEYS.KEYREL.PRED "_debug_v_cause_rel", PHON.ONSET con ] ]. debussy_n1 := n_-_pn_le & [ STEM < "Debussy" >, SYNSEM [ LKEYS.KEYREL.CARG "Debussy", PHON.ONSET con ] ]. debut_n1 := n_-_c_le & [ STEM < "debut" >, SYNSEM [ LKEYS.KEYREL.PRED "_debut_n_1_rel", PHON.ONSET con ] ]. decade_ersatz_n1 := n_-_c-pl-num-ifl_le & [ STEM < "decadeersatz" >, SYNSEM.PHON.ONSET con ]. decade_gle := n_-_c-pl-num-ifl_le & [ STEM < "_decade" >, SYNSEM [ LKEYS.KEYREL.CARG "_decade_", PHON.ONSET con ] ]. decade_n1 := n_-_c-nday_le & [ STEM < "decade" >, SYNSEM [ LKEYS.KEYREL.PRED "_decade_n_1_rel", PHON.ONSET con ] ]. decapitate_v1 := v_np_le & [ STEM < "decapitate" >, SYNSEM [ LKEYS.KEYREL.PRED "_decapitate_v_1_rel", PHON.ONSET con ] ]. decare_n1 := n_-_c-meas_le & [ STEM < "decare" >, SYNSEM [ LKEYS.KEYREL.PRED "_decare_n_1_rel", PHON.ONSET con ] ]. decay_n1 := n_-_mc_le & [ STEM < "decay" >, SYNSEM [ LKEYS.KEYREL.PRED "_decay_n_1_rel", PHON.ONSET con ] ]. decay_v1 := v_-_unacc_le & [ STEM < "decay" >, SYNSEM [ LKEYS.KEYREL.PRED "_decay_v_1_rel", PHON.ONSET con ] ]. decease_v1 := v_-_le & [ STEM < "decease" >, SYNSEM [ LKEYS.KEYREL.PRED "_decease_v_1_rel", PHON.ONSET con ] ]. deceased_a1 := aj_-_i_le & [ STEM < "deceased" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceased_a_1_rel", PHON.ONSET con ] ]. deceased_n1 := n_-_c_le & [ STEM < "deceased" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceased_n_1_rel", PHON.ONSET con ] ]. deceit_n1 := n_-_mc_le & [ STEM < "deceit" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceit_n_1_rel", PHON.ONSET con ] ]. deceive_v1 := v_np*_le & [ STEM < "deceive" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceive_v_1_rel", PHON.ONSET con ] ]. deceive_v2 := v_np-cp_le & [ STEM < "deceive" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceive_v_1_rel", PHON.ONSET con ] ]. deceivingly_isect := av_-_i-vp_le & [ STEM < "deceivingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceiving_a_1_rel", PHON.ONSET con ] ]. december := n_-_c-month_le & [ STEM < "December" >, SYNSEM [ LKEYS.KEYREL.CARG "Dec", PHON.ONSET con ] ]. december_abb_n1 := n_-_c-month_le & [ STEM < "Dec" >, SYNSEM [ LKEYS.KEYREL.CARG "Dec", PHON.ONSET con ] ]. december_abb_n3 := n_-_c-month_le & [ STEM < "Dec." >, SYNSEM [ LKEYS.KEYREL.CARG "Dec", PHON.ONSET con ] ]. december_the_det := d_-_month_le & [ STEM < "December", "the" >, SYNSEM [ LKEYS.ALTKEYREL.CARG "dec", PHON.ONSET con ] ]. decency_n1 := n_-_mc_le & [ STEM < "decency" >, SYNSEM [ LKEYS.KEYREL.PRED "_decency_n_1_rel", PHON.ONSET con ] ]. decent_isect := aj_-_i_le & [ STEM < "decent" >, SYNSEM [ LKEYS.KEYREL.PRED "_decent_a_1_rel", PHON.ONSET con ] ]. decently_a1 := av_-_i-vp_le & [ STEM < "decently" >, SYNSEM [ LKEYS.KEYREL.PRED "_decent_a_1_rel", PHON.ONSET con ] ]. deception_n1 := n_-_mc_le & [ STEM < "deception" >, SYNSEM [ LKEYS.KEYREL.PRED "_deception_n_1_rel", PHON.ONSET con ] ]. deceptive_a1 := aj_-_i_le & [ STEM < "deceptive" >, SYNSEM [ LKEYS.KEYREL.PRED "_deceptive_a_1_rel", PHON.ONSET con ] ]. decide_against_v1 := v_pp_e_le & [ STEM < "decide" >, SYNSEM [ LKEYS [ --COMPKEY _against_p_sel_rel, KEYREL.PRED "_decide_v_against_rel" ], PHON.ONSET con ] ]. decide_on_v1 := v_pp_e_le & [ STEM < "decide" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_decide_v_on_rel" ], PHON.ONSET con ] ]. decide_v1 := v_vp_seq_le & [ STEM < "decide" >, SYNSEM [ LKEYS.KEYREL.PRED "_decide_v_1_rel", PHON.ONSET con ] ]. decide_v2 := v_np*_le & [ STEM < "decide" >, SYNSEM [ LKEYS.KEYREL.PRED "_decide_v_1_rel", PHON.ONSET con ] ]. decide_v3 := v_cp_fin-inf_le & [ STEM < "decide" >, SYNSEM [ LKEYS.KEYREL.PRED "_decide_v_1_rel", PHON.ONSET con ] ]. decidedly_adv1 := av_-_i-vp-pr_le & [ STEM < "decidedly" >, SYNSEM [ LKEYS.KEYREL.PRED "_decided_a_1_rel", PHON.ONSET con ] ]. deciding_a1 := aj_-_i_le & [ STEM < "deciding" >, SYNSEM [ LKEYS.KEYREL.PRED "_deciding_a_1_rel", PHON.ONSET con ] ]. deciliter_abb_n1 := n_-_c-meas_le & [ STEM < "dl" >, SYNSEM [ LKEYS.KEYREL.PRED "_deciliter_n_1_rel", PHON.ONSET con ] ]. deciliter_abb_n2 := n_-_c-meas_le & [ STEM < "dl." >, SYNSEM [ LKEYS.KEYREL.PRED "_deciliter_n_1_rel", PHON.ONSET con ] ]. decimal_n1 := n_-_c_le & [ STEM < "decimal" >, SYNSEM [ LKEYS.KEYREL.PRED "_decimal_n_1_rel", PHON.ONSET con ] ]. decimalersatz := aj_-_i-thr-unk_le & [ STEM < "decimalersatz" > ]. decimalersatz_2 := aj_-_i-thr-unk_le & [ STEM < "clockordecimalersatz" > ]. decision_n1 := n_-_c_le & [ STEM < "decision" >, SYNSEM [ LKEYS.KEYREL.PRED "_decision_n_1_rel", PHON.ONSET con ] ]. decisive_a1 := aj_-_i_le & [ STEM < "decisive" >, SYNSEM [ LKEYS.KEYREL.PRED "_decisive_a_1_rel", PHON.ONSET con ] ]. decisively_a1 := av_-_i-vp_le & [ STEM < "decisively" >, SYNSEM [ LKEYS.KEYREL.PRED "_decisive_a_1_rel", PHON.ONSET con ] ]. deck_i_n1 := n_-_c-brno_le & [ STEM < "deck" >, SYNSEM [ LKEYS.KEYREL.PRED "_deck_n_1_rel", PHON.ONSET con ] ]. deck_n1 := n_-_c_le & [ STEM < "deck" >, SYNSEM [ LKEYS.KEYREL.PRED "_deck_n_1_rel", PHON.ONSET con ] ]. deck_out_v1 := v_p-np_le & [ STEM < "deck" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_deck_v_out_rel" ], PHON.ONSET con ] ]. deck_v1 := v_np_le & [ STEM < "deck" >, SYNSEM [ LKEYS.KEYREL.PRED "_deck_v_1_rel", PHON.ONSET con ] ]. declaration_n1 := n_pp_mc-of_le & [ STEM < "declaration" >, SYNSEM [ LKEYS.KEYREL.PRED "_declaration_n_of_rel", PHON.ONSET con ] ]. declare_v1 := v_np*_le & [ STEM < "declare" >, SYNSEM [ LKEYS.KEYREL.PRED "_declare_v_1_rel", PHON.ONSET con ] ]. declare_v3 := v_cp_le & [ STEM < "declare" >, SYNSEM [ LKEYS.KEYREL.PRED "_declare_v_1_rel", PHON.ONSET con ] ]. declare_v4 := v_np-vp_oeq_le & [ STEM < "declare" >, SYNSEM [ LKEYS.KEYREL.PRED "_declare_v_1_rel", PHON.ONSET con ] ]. declare_v5 := v_np-prd_oeq_le & [ STEM < "declare" >, SYNSEM [ LKEYS.KEYREL.PRED "_declare_v_1_rel", PHON.ONSET con ] ]. declare_v6 := v_np-np_only_le & [ STEM < "declare" >, SYNSEM [ LKEYS.KEYREL.PRED "_declare_v_1_rel", PHON.ONSET con ] ]. declension_n1 := n_-_mc_le & [ STEM < "declension" >, SYNSEM [ LKEYS.KEYREL.PRED "_declension_n_1_rel", PHON.ONSET con ] ]. declination_n1 := n_-_c_le & [ STEM < "declination" >, SYNSEM [ LKEYS.KEYREL.PRED "_declination_n_1_rel", PHON.ONSET con ] ]. decline_n1 := n_-_mc_le & [ STEM < "decline" >, SYNSEM [ LKEYS.KEYREL.PRED "_decline_n_1_rel", PHON.ONSET con ] ]. decline_v1 := v_np*_le & [ STEM < "decline" >, SYNSEM [ LKEYS.KEYREL.PRED "_decline_v_1_rel", PHON.ONSET con ] ]. decline_v2 := v_vp_seq_le & [ STEM < "decline" >, SYNSEM [ LKEYS.KEYREL.PRED "_decline_v_1_rel", PHON.ONSET con ] ]. declining_a1 := aj_-_i_le & [ STEM < "declining" >, SYNSEM [ LKEYS.KEYREL.PRED "_declining_a_1_rel", PHON.ONSET con ] ]. declivity_n1 := n_-_mc_le & [ STEM < "declivity" >, SYNSEM [ LKEYS.KEYREL.PRED "_declivity_n_1_rel", PHON.ONSET con ] ]. decoction_n1 := n_-_c_le & [ STEM < "decoction" >, SYNSEM [ LKEYS.KEYREL.PRED "_decoction_n_1_rel", PHON.ONSET con ] ]. decompose_v1 := v_-_unacc_le & [ STEM < "decompose" >, SYNSEM [ LKEYS.KEYREL.PRED "_decompose_v_1_rel", PHON.ONSET con ] ]. decompose_v2 := v_np_noger_le & [ STEM < "decompose" >, SYNSEM [ LKEYS.KEYREL.PRED "_decompose_v_cause_rel", PHON.ONSET con ] ]. decomposition_n1 := n_pp_mc-of_le & [ STEM < "decomposition" >, SYNSEM [ LKEYS.KEYREL.PRED "_decomposition_n_of_rel", PHON.ONSET con ] ]. decompress_v1 := v_np_le & [ STEM < "decompress" >, SYNSEM [ LKEYS.KEYREL.PRED "_decompress_v_1_rel", PHON.ONSET con ] ]. decorate_v1 := v_np*_le & [ STEM < "decorate" >, SYNSEM [ LKEYS.KEYREL.PRED "_decorate_v_1_rel", PHON.ONSET con ] ]. decoration_n1 := n_pp_mc-of_le & [ STEM < "decoration" >, SYNSEM [ LKEYS.KEYREL.PRED "_decoration_n_of_rel", PHON.ONSET con ] ]. decorative_a1 := aj_-_i_le & [ STEM < "decorative" >, SYNSEM [ LKEYS.KEYREL.PRED "_decorative_a_1_rel", PHON.ONSET con ] ]. decorum_n1 := n_-_m_le & [ STEM < "decorum" >, SYNSEM [ LKEYS.KEYREL.PRED "_decorum_n_1_rel", PHON.ONSET con ] ]. decrease_n1 := n_-_mc_le & [ STEM < "decrease" >, SYNSEM [ LKEYS.KEYREL.PRED "_decrease_n_1_rel", PHON.ONSET con ] ]. decrease_v1 := v_np_noger_le & [ STEM < "decrease" >, SYNSEM [ LKEYS.KEYREL.PRED "_decrease_v_cause_rel", PHON.ONSET con ] ]. decrease_v2 := v_-_unacc_le & [ STEM < "decrease" >, SYNSEM [ LKEYS.KEYREL.PRED "_decrease_v_1_rel", PHON.ONSET con ] ]. decree_n1 := n_-_c_le & [ STEM < "decree" >, SYNSEM [ LKEYS.KEYREL.PRED "_decree_n_1_rel", PHON.ONSET con ] ]. decree_v1 := v_np_le & [ STEM < "decree" >, SYNSEM [ LKEYS.KEYREL.PRED "_decree_v_1_rel", PHON.ONSET con ] ]. decree_v2 := v_cp_le & [ STEM < "decree" >, SYNSEM [ LKEYS.KEYREL.PRED "_decree_v_1_rel", PHON.ONSET con ] ]. decree_v3 := v_np-vp_sor_le & [ STEM < "decree" >, SYNSEM [ LKEYS.KEYREL.PRED "_decree_v_1_rel", PHON.ONSET con ] ]. dedham_n1 := n_-_pn_le & [ STEM < "Dedham" >, SYNSEM [ LKEYS.KEYREL.CARG "Dedham", PHON.ONSET con ] ]. dedicate_v1 := v_np-pp*_to_le & [ STEM < "dedicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_dedicate_v_to_rel", PHON.ONSET con ] ]. dedication_n1 := n_pp_mc-of_le & [ STEM < "dedication" >, SYNSEM [ LKEYS.KEYREL.PRED "_dedication_n_of_rel", PHON.ONSET con ] ]. deduce_v1 := v_np_le & [ STEM < "deduce" >, SYNSEM [ LKEYS.KEYREL.PRED "_deduce_v_1_rel", PHON.ONSET con ] ]. deduce_v2 := v_pp*-cp_le & [ STEM < "deduce" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_deduce_v_from_rel" ], PHON.ONSET con ] ]. deduct_v1 := v_np-pp_e_le & [ STEM < "deduct" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_deduct_v_from_rel" ], PHON.ONSET con ] ]. deduct_v2 := v_np_le & [ STEM < "deduct" >, SYNSEM [ LKEYS.KEYREL.PRED "_deduct_v_from_rel", PHON.ONSET con ] ]. deduction_n1 := n_-_c_le & [ STEM < "deduction" >, SYNSEM [ LKEYS.KEYREL.PRED "_deduction_n_1_rel", PHON.ONSET con ] ]. deductive_a1 := aj_-_i_le & [ STEM < "deductive" >, SYNSEM [ LKEYS.KEYREL.PRED "_deductive_a_1_rel", PHON.ONSET con ] ]. deed_n1 := n_-_c_le & [ STEM < "deed" >, SYNSEM [ LKEYS.KEYREL.PRED "_deed_n_1_rel", PHON.ONSET con ] ]. deem_prd := v_np-ap_oeq_le & [ STEM < "deem" >, SYNSEM [ LKEYS.KEYREL.PRED "_deem_v_1_rel", PHON.ONSET con ] ]. deem_v1 := v_np-vp_oeq_le & [ STEM < "deem" >, SYNSEM [ LKEYS.KEYREL.PRED "_deem_v_1_rel", PHON.ONSET con ] ]. deems_n1 := n_-_pn_le & [ STEM < "Deems" >, SYNSEM [ LKEYS.KEYREL.CARG "Deems", PHON.ONSET con ] ]. deep_a1 := aj_-_i_le & [ STEM < "deep" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_a_1_rel", PHON.ONSET con ] ]. deep_adv := av_-_i-vp-po_le & [ STEM < "deep" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_a_1_rel", PHON.ONSET con ] ]. deep_deg := av_-_dg_le & [ STEM < "deep" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_x_deg_rel", PHON.ONSET con ] ]. deepen_v1 := v_np_noger_le & [ STEM < "deepen" >, SYNSEM [ LKEYS.KEYREL.PRED "_deepen_v_cause_rel", PHON.ONSET con ] ]. deepen_v2 := v_-_unacc_le & [ STEM < "deepen" >, SYNSEM [ LKEYS.KEYREL.PRED "_deepen_v_1_rel", PHON.ONSET con ] ]. deeper := aj_pp_i-cmp_le & [ STEM < "deeper" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_a_1_rel", PHON.ONSET con ] ]. deepest_a1 := aj_-_i-sup_le & [ STEM < "deepest" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_a_1_rel", PHON.ONSET con ] ]. deeply_adv1 := av_-_i-vp_le & [ STEM < "deeply" >, SYNSEM [ LKEYS.KEYREL.PRED "_deep_a_1_rel", PHON.ONSET con ] ]. deer_n1 := n_-_c_le & [ STEM < "deer" >, SYNSEM [ LKEYS.KEYREL.PRED "_deer_n_1_rel", PHON.ONSET con ] ]. deere_and_company_n1 := n_-_pn_le & [ STEM < "Deere", "&", "Company" >, SYNSEM [ LKEYS.KEYREL.CARG "Deere+&+Company", PHON.ONSET con ] ]. deere_n1 := n_-_pn_le & [ STEM < "Deere" >, SYNSEM [ LKEYS.KEYREL.CARG "Deere", PHON.ONSET con ] ]. deerfield_n1 := n_-_pn-city_le & [ STEM < "Deerfield" >, SYNSEM [ LKEYS.KEYREL.CARG "Deerfield", PHON.ONSET con ] ]. default_n1 := n_-_mc_le & [ STEM < "default" >, SYNSEM [ LKEYS.KEYREL.PRED "_default_n_1_rel", PHON.ONSET con ] ]. default_v1 := v_pp_e_le & [ STEM < "default" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_default_v_on_rel" ], PHON.ONSET con ] ]. default_v2 := v_-_le & [ STEM < "default" >, SYNSEM [ LKEYS.KEYREL.PRED "_default_v_1_rel", PHON.ONSET con ] ]. defeat_n1 := n_-_mc_le & [ STEM < "defeat" >, SYNSEM [ LKEYS.KEYREL.PRED "_defeat_n_1_rel", PHON.ONSET con ] ]. defeat_v1 := v_np_le & [ STEM < "defeat" >, SYNSEM [ LKEYS.KEYREL.PRED "_defeat_v_1_rel", PHON.ONSET con ] ]. defect_n1 := n_-_c_le & [ STEM < "defect" >, SYNSEM [ LKEYS.KEYREL.PRED "_defect_n_1_rel", PHON.ONSET con ] ]. defect_v1 := v_-_le & [ STEM < "defect" >, SYNSEM [ LKEYS.KEYREL.PRED "_defect_v_1_rel", PHON.ONSET con ] ]. defective_a1 := aj_-_i_le & [ STEM < "defective" >, SYNSEM [ LKEYS.KEYREL.PRED "_defective_a_1_rel", PHON.ONSET con ] ]. defence_n1 := n_-_mc_le & [ STEM < "defence" >, SYNSEM [ LKEYS.KEYREL.PRED "_defence_n_1_rel", PHON.ONSET con ] ]. defend_against_v1 := v_pp_e_le & [ STEM < "defend" >, SYNSEM [ LKEYS [ --COMPKEY _against_p_sel_rel, KEYREL.PRED "_defend_v_against_rel" ], PHON.ONSET con ] ]. defend_v1 := v_np*_le & [ STEM < "defend" >, SYNSEM [ LKEYS.KEYREL.PRED "_defend_v_from_rel", PHON.ONSET con ] ]. defend_v2 := v_np-pp_e_le & [ STEM < "defend" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_defend_v_from_rel" ], PHON.ONSET con ] ]. defendant_n1 := n_-_c_le & [ STEM < "defendant" >, SYNSEM [ LKEYS.KEYREL.PRED "_defendant_n_1_rel", PHON.ONSET con ] ]. defender_n1 := n_pp_c-of_le & [ STEM < "defender" >, SYNSEM [ LKEYS.KEYREL.PRED "_defender_n_of_rel", PHON.ONSET con ] ]. defense_n1 := n_-_mc_le & [ STEM < "defense" >, SYNSEM [ LKEYS.KEYREL.PRED "_defense_n_1_rel", PHON.ONSET con ] ]. defensive_a1 := aj_-_i_le & [ STEM < "defensive" >, SYNSEM [ LKEYS.KEYREL.PRED "_defensive_a_1_rel", PHON.ONSET con ] ]. defensive_n1 := n_-_c_le & [ STEM < "defensive" >, SYNSEM [ LKEYS.KEYREL.PRED "_defensive_n_1_rel", PHON.ONSET con ] ]. defer_v1 := v_np_le & [ STEM < "defer" >, SYNSEM [ LKEYS.KEYREL.PRED "_defer_v_1_rel", PHON.ONSET con ] ]. deficiency_n1 := n_-_mc_le & [ STEM < "deficiency" >, SYNSEM [ LKEYS.KEYREL.PRED "_deficiency_n_1_rel", PHON.ONSET con ] ]. deficient_a1 := aj_-_i_le & [ STEM < "deficient" >, SYNSEM [ LKEYS.KEYREL.PRED "_deficient_a_1_rel", PHON.ONSET con ] ]. deficit_n1 := n_pp_c-of_le & [ STEM < "deficit" >, SYNSEM [ LKEYS.KEYREL.PRED "_deficit_n_of_rel", PHON.ONSET con ] ]. defile_n1 := n_-_c_le & [ STEM < "defile" >, SYNSEM [ LKEYS.KEYREL.PRED "_defile_n_1_rel", PHON.ONSET con ] ]. defile_v1 := v_np_le & [ STEM < "defile" >, SYNSEM [ LKEYS.KEYREL.PRED "_defile_v_1_rel", PHON.ONSET con ] ]. definable_a1 := aj_-_i_le & [ STEM < "definable" >, SYNSEM [ LKEYS.KEYREL.PRED "_definable_a_1_rel", PHON.ONSET con ] ]. define_away_v1 := v_p-np_le & [ STEM < "define" >, SYNSEM [ LKEYS [ --COMPKEY _away_p_sel_rel, KEYREL.PRED "_define_v_away_rel" ], PHON.ONSET con ] ]. define_v1 := v_np_le & [ STEM < "define" >, SYNSEM [ LKEYS.KEYREL.PRED "_define_v_1_rel", PHON.ONSET con ] ]. define_v2 := v_cp_fin-inf-q_le & [ STEM < "define" >, SYNSEM [ LKEYS.KEYREL.PRED "_define_v_1_rel", PHON.ONSET con ] ]. define_v3 := v_np-pp_oeq-as_le & [ STEM < "define" >, SYNSEM [ LKEYS.KEYREL.PRED "_define_v_as_rel", PHON.ONSET con ] ]. definite_a1 := aj_-_i_le & [ STEM < "definite" >, SYNSEM [ LKEYS.KEYREL.PRED "_definite_a_1_rel", PHON.ONSET con ] ]. definitely_adv1 := av_-_s-vp-x_le & [ STEM < "definitely" >, SYNSEM [ LKEYS.KEYREL.PRED "_definite_a_1_rel", PHON.ONSET con ] ]. definitely_adv2 := av_-_s-cp-pr_le & [ STEM < "definitely" >, SYNSEM [ LKEYS.KEYREL.PRED "_definite_a_1_rel", PHON.ONSET con ] ]. definitely_adv3 := av_-_s-negmod_le & [ STEM < "definitely" >, SYNSEM [ LKEYS.KEYREL.PRED "_definite_a_1_rel", PHON.ONSET con ] ]. definition_n1 := n_-_mc_le & [ STEM < "definition" >, SYNSEM [ LKEYS.KEYREL.PRED "_definition_n_1_rel", PHON.ONSET con ] ]. definitive_a1 := aj_-_i_le & [ STEM < "definitive" >, SYNSEM [ LKEYS.KEYREL.PRED "_definitive_a_1_rel", PHON.ONSET con ] ]. definitively := av_-_i-vp_le & [ STEM < "definitively" >, SYNSEM [ LKEYS.KEYREL.PRED "_definitive_a_1_rel", PHON.ONSET con ] ]. deflect_v1 := v_np_le & [ STEM < "deflect" >, SYNSEM [ LKEYS.KEYREL.PRED "_deflect_v_1_rel", PHON.ONSET con ] ]. deflection_n1 := n_-_mc_le & [ STEM < "deflection" >, SYNSEM [ LKEYS.KEYREL.PRED "_deflection_n_1_rel", PHON.ONSET con ] ]. deforestation_n1 := n_pp_m_le & [ STEM < "deforestation" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_deforestation_n_of_rel" ], PHON.ONSET con ] ]. deform_v1 := v_np_noger_le & [ STEM < "deform" >, SYNSEM [ LKEYS.KEYREL.PRED "_deform_v_cause_rel", PHON.ONSET con ] ]. deform_v2 := v_-_unacc_le & [ STEM < "deform" >, SYNSEM [ LKEYS.KEYREL.PRED "_deform_v_1_rel", PHON.ONSET con ] ]. deformation_n1 := n_pp_mc-of_le & [ STEM < "deformation" >, SYNSEM [ LKEYS.KEYREL.PRED "_deformation_n_of_rel", PHON.ONSET con ] ]. deformity_n1 := n_-_mc_le & [ STEM < "deformity" >, SYNSEM [ LKEYS.KEYREL.PRED "_deformity_n_1_rel", PHON.ONSET con ] ]. defries_n1 := n_-_pn_le & [ STEM < "Defries" >, SYNSEM [ LKEYS.KEYREL.CARG "Defries", PHON.ONSET con ] ]. defy_v1 := v_np_le & [ STEM < "defy" >, SYNSEM [ LKEYS.KEYREL.PRED "_defy_v_1_rel", PHON.ONSET con ] ]. defy_v2 := v_np-vp_oeq_le & [ STEM < "defy" >, SYNSEM [ LKEYS.KEYREL.PRED "_defy_v_1_rel", PHON.ONSET con ] ]. degasser_n1 := n_-_c_le & [ STEM < "degasser" >, SYNSEM [ LKEYS.KEYREL.PRED "_degasser_n_1_rel", PHON.ONSET con ] ]. degenerate_a1 := aj_-_i_le & [ STEM < "degenerate" >, SYNSEM [ LKEYS.KEYREL.PRED "_degenerate_a_1_rel", PHON.ONSET con ] ]. degenerate_into_v1 := v_pp_e_le & [ STEM < "degenerate" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_degenerate_v_into_rel" ], PHON.ONSET con ] ]. degenerate_n1 := n_-_c-nocnh_le & [ STEM < "degenerate" >, SYNSEM [ LKEYS.KEYREL.PRED "_degenerate_n_1_rel", PHON.ONSET con ] ]. degenerate_v1 := v_-_le & [ STEM < "degenerate" >, SYNSEM [ LKEYS.KEYREL.PRED "_degenerate_v_1_rel", PHON.ONSET con ] ]. degradation_n1 := n_pp_mc-of_le & [ STEM < "degradation" >, SYNSEM [ LKEYS.KEYREL.PRED "_degradation_n_of_rel", PHON.ONSET con ] ]. degrade_v1 := v_np*_le & [ STEM < "degrade" >, SYNSEM [ LKEYS.KEYREL.PRED "_degrade_v_1_rel", PHON.ONSET con ] ]. degree_i_n1 := n_-_c-brnj_le & [ STEM < "degree" >, SYNSEM [ LKEYS.KEYREL.PRED "_degree_n_of_rel", PHON.ONSET con ] ]. degree_n1 := n_pp_c-of_le & [ STEM < "degree" >, SYNSEM [ LKEYS.KEYREL.PRED "_degree_n_of_rel", PHON.ONSET con ] ]. degree_symbol := n_-_c-meas-nocnh_le & [ STEM < "º" >, SYNSEM [ LKEYS.KEYREL.PRED "_degree_n_1_rel", PHON.ONSET con ] ]. degree_twiddle := av_-_dg_le & [ STEM < "~" >, SYNSEM [ LKEYS.KEYREL.PRED "_approx_x_rel", PHON.ONSET onset ] ]. dehe_n1 := n_-_pn_le & [ STEM < "Dehe" >, SYNSEM [ LKEYS.KEYREL.CARG "Dehe", PHON.ONSET con ] ]. dehydration_n1 := n_-_m_le & [ STEM < "dehydration" >, SYNSEM [ LKEYS.KEYREL.PRED "_dehydration_n_1_rel", PHON.ONSET con ] ]. deign_v1 := v_vp_seq_le & [ STEM < "deign" >, SYNSEM [ LKEYS.KEYREL.PRED "_deign_v_1_rel", PHON.ONSET con ] ]. deja_vu_n1 := n_-_mc_le & [ STEM < "deja", "vu" >, SYNSEM [ LKEYS.KEYREL.PRED "_deja+vu_n_1_rel", PHON.ONSET con ] ]. dejection_n1 := n_-_m_le & [ STEM < "dejection" >, SYNSEM [ LKEYS.KEYREL.PRED "_dejection_n_1_rel", PHON.ONSET con ] ]. delaney_n1 := n_-_pn_le & [ STEM < "Delaney" >, SYNSEM [ LKEYS.KEYREL.CARG "Delaney", PHON.ONSET con ] ]. delaware_n1 := n_-_pn_le & [ STEM < "Delaware" >, SYNSEM [ LKEYS.KEYREL.CARG "Delaware", PHON.ONSET con ] ]. delaware_n2 := n_-_pn-abb_le & [ STEM < "DE" >, SYNSEM [ LKEYS.KEYREL.CARG "Delaware", PHON.ONSET con ] ]. delay_n1 := n_-_mc_le & [ STEM < "delay" >, SYNSEM [ LKEYS.KEYREL.PRED "_delay_n_1_rel", PHON.ONSET con ] ]. delay_v1 := v_np*_le & [ STEM < "delay" >, SYNSEM [ LKEYS.KEYREL.PRED "_delay_v_1_rel", PHON.ONSET con ] ]. delayed_a1 := aj_-_i_le & [ STEM < "delayed" >, SYNSEM [ LKEYS.KEYREL.PRED "_delayed_a_1_rel", PHON.ONSET con ] ]. delegate_n1 := n_-_c_le & [ STEM < "delegate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delegate_n_1_rel", PHON.ONSET con ] ]. delegate_to_v1 := v_pp_e_le & [ STEM < "delegate" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_delegate_v_to_rel" ], PHON.ONSET con ] ]. delegate_v1 := v_np*_le & [ STEM < "delegate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delegate_v_to_rel", PHON.ONSET con ] ]. delegate_v2 := v_np-pp_to_le & [ STEM < "delegate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delegate_v_to_rel", PHON.ONSET con ] ]. delegation_n1 := n_-_mc_le & [ STEM < "delegation" >, SYNSEM [ LKEYS.KEYREL.PRED "_delegation_n_1_rel", PHON.ONSET con ] ]. delete_v1 := v_np_le & [ STEM < "delete" >, SYNSEM [ LKEYS.KEYREL.PRED "_delete_v_1_rel", PHON.ONSET con ] ]. delete_v2 := v_np-pp_le & [ STEM < "delete" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_rel, KEYREL.PRED "_delete_v_1_rel" ], PHON.ONSET con ] ]. deletion_n1 := n_-_mc_le & [ STEM < "deletion" >, SYNSEM [ LKEYS.KEYREL.PRED "_deletion_n_1_rel", PHON.ONSET con ] ]. delhi_n1 := n_-_pn_le & [ STEM < "Delhi" >, SYNSEM [ LKEYS.KEYREL.CARG "Delhi", PHON.ONSET con ] ]. deliberate_a1 := aj_-_i_le & [ STEM < "deliberate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberate_a_1_rel", PHON.ONSET con ] ]. deliberate_v1 := v_-_le & [ STEM < "deliberate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberate_v_1_rel", PHON.ONSET con ] ]. deliberate_v2 := v_cp_fin-inf-q_le & [ STEM < "deliberate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberate_v_1_rel", PHON.ONSET con ] ]. deliberately_adv1 := av_-_i-vp_le & [ STEM < "deliberately" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberate_a_1_rel", PHON.ONSET con ] ]. deliberation_n1 := n_-_mc_le & [ STEM < "deliberation" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberation_n_1_rel", PHON.ONSET con ] ]. deliberative_a1 := aj_-_i_le & [ STEM < "deliberative" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliberative_a_1_rel", PHON.ONSET con ] ]. delicate_a1 := aj_-_i_le & [ STEM < "delicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delicate_a_1_rel", PHON.ONSET con ] ]. delicateness_n1 := n_-_m_le & [ STEM < "delicateness" >, SYNSEM [ LKEYS.KEYREL.PRED "_delicateness_n_1_rel", PHON.ONSET con ] ]. delicates_n1 := n_-_c-pl-nocnh_le & [ STEM < "delicate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delicates_n_1_rel", PHON.ONSET con ] ]. delicious_isect := aj_-_i_le & [ STEM < "delicious" >, SYNSEM [ LKEYS.KEYREL.PRED "_delicious_a_1_rel", PHON.ONSET con ] ]. deliciously_adv1 := av_-_i-vp_le & [ STEM < "deliciously" >, SYNSEM [ LKEYS.KEYREL.PRED "_delicious_a_1_rel", PHON.ONSET con ] ]. delight_n1 := n_-_mc_le & [ STEM < "delight" >, SYNSEM [ LKEYS.KEYREL.PRED "_delight_n_1_rel", PHON.ONSET con ] ]. delight_v1 := v_np_le & [ STEM < "delight" >, SYNSEM [ LKEYS.KEYREL.PRED "_delight_v_1_rel", PHON.ONSET con ] ]. delight_v2 := v_np-cp_it-s_le & [ STEM < "delight" >, SYNSEM [ LKEYS.KEYREL.PRED "_delight_v_1_rel", PHON.ONSET con ] ]. delighted_a1 := aj_-_i_le & [ STEM < "delighted" >, SYNSEM [ LKEYS.KEYREL.PRED "_delighted_a_1_rel", PHON.ONSET con ] ]. delightful_adj := aj_-_i_le & [ STEM < "delightful" >, SYNSEM [ LKEYS.KEYREL.PRED "_delightful_a_1_rel", PHON.ONSET con ] ]. delightfully_adv1 := av_-_i-vp_le & [ STEM < "delightfully" >, SYNSEM [ LKEYS.KEYREL.PRED "_delightful_a_1_rel", PHON.ONSET con ] ]. delilah_n1 := n_-_pn_le & [ STEM < "Delilah" >, SYNSEM [ LKEYS.KEYREL.CARG "Delilah", PHON.ONSET con ] ]. delimit_v1 := v_np_le & [ STEM < "delimit" >, SYNSEM [ LKEYS.KEYREL.PRED "_delimit_v_1_rel", PHON.ONSET con ] ]. delineate_v1 := v_np_le & [ STEM < "delineate" >, SYNSEM [ LKEYS.KEYREL.PRED "_delineate_v_1_rel", PHON.ONSET con ] ]. delineation_n1 := n_-_mc_le & [ STEM < "delineation" >, SYNSEM [ LKEYS.KEYREL.PRED "_delineation_n_1_rel", PHON.ONSET con ] ]. delirious_a1 := aj_-_i_le & [ STEM < "delirious" >, SYNSEM [ LKEYS.KEYREL.PRED "_delirious_a_1_rel", PHON.ONSET con ] ]. delirium_n1 := n_-_m_le & [ STEM < "delirium" >, SYNSEM [ LKEYS.KEYREL.PRED "_delirium_n_1_rel", PHON.ONSET con ] ]. deliver_from_v1 := v_np-pp_e_le & [ STEM < "deliver" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_deliver_v_from_rel" ], PHON.ONSET con ] ]. deliver_v1 := v_np*_le & [ STEM < "deliver" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliver_v_to_rel", PHON.ONSET con ] ]. deliver_v2 := v_np*-pp_to_le & [ STEM < "deliver" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliver_v_to_rel", PHON.ONSET con ] ]. deliverable_a1 := aj_-_i_le & [ STEM < "deliverable" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliverable_a_1_rel", PHON.ONSET con ] ]. deliverance_n1 := n_-_m_le & [ STEM < "deliverance" >, SYNSEM [ LKEYS.KEYREL.PRED "_deliverance_n_1_rel", PHON.ONSET con ] ]. delivery_n1 := n_pp_mc-of_le & [ STEM < "delivery" >, SYNSEM [ LKEYS.KEYREL.PRED "_delivery_n_of_rel", PHON.ONSET con ] ]. dell_n1 := n_-_pn_le & [ STEM < "Dell" >, SYNSEM [ LKEYS.KEYREL.CARG "Dell", PHON.ONSET con ] ]. delta_n1 := n_-_c_le & [ STEM < "delta" >, SYNSEM [ LKEYS.KEYREL.PRED "_delta_n_1_rel", PHON.ONSET con ] ]. delta_n2 := n_-_pn_le & [ STEM < "Delta" >, SYNSEM [ LKEYS.KEYREL.CARG "Delta", PHON.ONSET con ] ]. delude_v1 := v_np_le & [ STEM < "delude" >, SYNSEM [ LKEYS.KEYREL.PRED "_delude_v_1_rel", PHON.ONSET con ] ]. deluge_n1 := n_pp_c-of_le & [ STEM < "deluge" >, SYNSEM [ LKEYS.KEYREL.PRED "_deluge_n_of_rel", PHON.ONSET con ] ]. deluge_v1 := v_np_le & [ STEM < "deluge" >, SYNSEM [ LKEYS.KEYREL.PRED "_deluge_v_1_rel", PHON.ONSET con ] ]. delve_v1 := v_pp*_dir_le & [ STEM < "delve" >, SYNSEM [ LKEYS.KEYREL.PRED "_delve_v_1_rel", PHON.ONSET con ] ]. demagogic_a1 := aj_-_i_le & [ STEM < "demagogic" >, SYNSEM [ LKEYS.KEYREL.PRED "_demagogic_a_1_rel", PHON.ONSET con ] ]. demagogue_n1 := n_-_c_le & [ STEM < "demagogue" >, SYNSEM [ LKEYS.KEYREL.PRED "_demagogue_n_1_rel", PHON.ONSET con ] ]. demand_from_v1 := v_np-pp_e_le & [ STEM < "demand" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_demand_v_from_rel" ], PHON.ONSET con ] ]. demand_n1 := n_-_mc_le & [ STEM < "demand" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_n_1_rel", PHON.ONSET con ] ]. demand_of_v1 := v_np-pp_e_le & [ STEM < "demand" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_demand_v_of_rel" ], PHON.ONSET con ] ]. demand_v1 := v_np_le & [ STEM < "demand" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_v_1_rel", PHON.ONSET con ] ]. demand_v2 := v_cp_prop_le & [ STEM < "demand" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_v_1_rel", PHON.ONSET con ] ]. demand_v3 := v_vp_seq_le & [ STEM < "demand" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_v_1_rel", PHON.ONSET con ] ]. demand_v4 := v_cp_sbjnct_le & [ STEM < "demand" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_v_1_rel", PHON.ONSET con ] ]. demanding_a1 := aj_-_i_le & [ STEM < "demanding" >, SYNSEM [ LKEYS.KEYREL.PRED "_demand_v_1_rel", PHON.ONSET con ] ]. demean_v1 := v_np_le & [ STEM < "demean" >, SYNSEM [ LKEYS.KEYREL.PRED "_demean_v_1_rel", PHON.ONSET con ] ]. demeanor_n1 := n_-_m_le & [ STEM < "demeanor" >, SYNSEM [ LKEYS.KEYREL.PRED "_demeanor_n_1_rel", PHON.ONSET con ] ]. demise_n1 := n_-_c-sg_le & [ STEM < "demise" >, SYNSEM [ LKEYS.KEYREL.PRED "_demise_n_1_rel", PHON.ONSET con ] ]. demise_v1 := v_np_le & [ STEM < "demise" >, SYNSEM [ LKEYS.KEYREL.PRED "_demise_v_1_rel", PHON.ONSET con ] ]. demo_n1 := n_pp_c-of_le & [ STEM < "demo" >, SYNSEM [ LKEYS.KEYREL.PRED "_demo_n_of_rel", PHON.ONSET con ] ]. demo_v1 := v_np-pp*_to_le & [ STEM < "demo" >, SYNSEM [ LKEYS.KEYREL.PRED "_demo_v_to_rel", PHON.ONSET con ] ]. democracy_n1 := n_-_mc_le & [ STEM < "democracy" >, SYNSEM [ LKEYS.KEYREL.PRED "_democracy_n_1_rel", PHON.ONSET con ] ]. democrat_n1 := n_-_c_le & [ STEM < "democrat" >, SYNSEM [ LKEYS.KEYREL.PRED "_democrat_n_1_rel", PHON.ONSET con ] ]. democrat_n2 := n_-_c-nocnh_le & [ STEM < "Democrat" >, SYNSEM [ LKEYS.KEYREL.PRED "_Democrat_n_1_rel", PHON.ONSET con ] ]. democratic_a1 := aj_-_i_le & [ STEM < "democratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_democratic_a_1_rel", PHON.ONSET con ] ]. democratic_a2 := aj_-_i_le & [ STEM < "Democratic" >, SYNSEM [ LKEYS.KEYREL.PRED "_Democratic_a_1_rel", PHON.ONSET con ] ]. demographic_a1 := aj_-_i_le & [ STEM < "demographic" >, SYNSEM [ LKEYS.KEYREL.PRED "_demographic_a_1_rel", PHON.ONSET con ] ]. demographic_n1 := n_-_c-nocnh_le & [ STEM < "demographic" >, SYNSEM [ LKEYS.KEYREL.PRED "_demographic_n_1_rel", PHON.ONSET con ] ]. demolish_v1 := v_np_le & [ STEM < "demolish" >, SYNSEM [ LKEYS.KEYREL.PRED "_demolish_v_1_rel", PHON.ONSET con ] ]. demolition_n1 := n_pp_mc-of_le & [ STEM < "demolition" >, SYNSEM [ LKEYS.KEYREL.PRED "_demolition_n_of_rel", PHON.ONSET con ] ]. demonstrable_a1 := aj_-_i_le & [ STEM < "demonstrable" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrable_a_1_rel", PHON.ONSET con ] ]. demonstrably_a1 := av_-_i-vp_le & [ STEM < "demonstrably" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrable_a_1_rel", PHON.ONSET con ] ]. demonstrate_v1 := v_np*_le & [ STEM < "demonstrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrate_v_1_rel", PHON.ONSET con ] ]. demonstrate_v2 := v_cp_le & [ STEM < "demonstrate" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrate_v_1_rel", PHON.ONSET con ] ]. demonstration_n1 := n_pp_mc-of_le & [ STEM < "demonstration" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstration_n_of_rel", PHON.ONSET con ] ]. demonstrative_a1 := aj_-_i_le & [ STEM < "demonstrative" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrative_a_1_rel", PHON.ONSET con ] ]. demonstrative_n1 := n_-_c_le & [ STEM < "demonstrative" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrative_n_1_rel", PHON.ONSET con ] ]. demonstrator_n1 := n_-_c_le & [ STEM < "demonstrator" >, SYNSEM [ LKEYS.KEYREL.PRED "_demonstrator_n_1_rel", PHON.ONSET con ] ]. demoralization_n1 := n_-_m_le & [ STEM < "demoralization" >, SYNSEM [ LKEYS.KEYREL.PRED "_demoralization_n_1_rel", PHON.ONSET con ] ]. demosthenes_n1 := n_-_pn_le & [ STEM < "Demosthenes" >, SYNSEM [ LKEYS.KEYREL.CARG "Demosthenes", PHON.ONSET con ] ]. den_n1 := n_-_c_le & [ STEM < "den" >, SYNSEM [ LKEYS.KEYREL.PRED "_den_n_1_rel", PHON.ONSET con ] ]. den_norske_turistforening_n1 := n_-_pn_le & [ STEM < "Den", "Norske", "Turistforening" >, SYNSEM [ LKEYS.KEYREL.CARG "Den_Norske_Turistforening", PHON.ONSET con ] ]. deng_xiaoping_n1 := n_-_pn_le & [ STEM < "Deng", "Xiaoping" >, SYNSEM [ LKEYS.KEYREL.CARG "Deng_Xiaoping", PHON.ONSET con ] ]. dengxiaoping_n1 := n_-_pn_le & [ STEM < "Dengxiaoping" >, SYNSEM [ LKEYS.KEYREL.CARG "Deng_Xiaoping", PHON.ONSET con ] ]. denial_n1 := n_pp_mc-of_le & [ STEM < "denial" >, SYNSEM [ LKEYS.KEYREL.PRED "_denial_n_of_rel", PHON.ONSET con ] ]. denis_n1 := n_-_pn_le & [ STEM < "Denis" >, SYNSEM [ LKEYS.KEYREL.CARG "Denis", PHON.ONSET con ] ]. denizen_n1 := n_-_c_le & [ STEM < "denizen" >, SYNSEM [ LKEYS.KEYREL.PRED "_denizen_n_1_rel", PHON.ONSET con ] ]. denmark_n1 := n_-_pn_le & [ STEM < "Denmark" >, SYNSEM [ LKEYS.KEYREL.CARG "Denmark", PHON.ONSET con ] ]. denning_n1 := n_-_pn_le & [ STEM < "Denning" >, SYNSEM [ LKEYS.KEYREL.CARG "Denning", PHON.ONSET con ] ]. dennis_n1 := n_-_pn_le & [ STEM < "Dennis" >, SYNSEM [ LKEYS.KEYREL.CARG "Dennis", PHON.ONSET con ] ]. dennison_n1 := n_-_pn_le & [ STEM < "Dennison" >, SYNSEM [ LKEYS.KEYREL.CARG "Dennison", PHON.ONSET con ] ]. denny_n1 := n_-_pn_le & [ STEM < "Denny" >, SYNSEM [ LKEYS.KEYREL.CARG "Denny", PHON.ONSET con ] ]. denominate_v1 := v_np_le & [ STEM < "denominate" >, SYNSEM [ LKEYS.KEYREL.PRED "_denominate_v_1_rel", PHON.ONSET con ] ]. denomination_n1 := n_-_c_le & [ STEM < "denomination" >, SYNSEM [ LKEYS.KEYREL.PRED "_denomination_n_1_rel", PHON.ONSET con ] ]. denominator_n1 := n_-_c_le & [ STEM < "denominator" >, SYNSEM [ LKEYS.KEYREL.PRED "_denominator_n_1_rel", PHON.ONSET con ] ]. denote_v1 := v_np_le & [ STEM < "denote" >, SYNSEM [ LKEYS.KEYREL.PRED "_denote_v_1_rel", PHON.ONSET con ] ]. denote_v2 := v_cp_prop_le & [ STEM < "denote" >, SYNSEM [ LKEYS.KEYREL.PRED "_denote_v_1_rel", PHON.ONSET con ] ]. denounce_v1 := v_np_le & [ STEM < "denounce" >, SYNSEM [ LKEYS.KEYREL.PRED "_denounce_v_1_rel", PHON.ONSET con ] ]. denounce_v2 := v_np-pp_oeq-as_le & [ STEM < "denounce" >, SYNSEM [ LKEYS.KEYREL.PRED "_denounce_v_as_rel", PHON.ONSET con ] ]. dense_a1 := aj_-_i_le & [ STEM < "dense" >, SYNSEM [ LKEYS.KEYREL.PRED "_dense_a_1_rel", PHON.ONSET con ] ]. densely_adv1 := av_-_i-vp_le & [ STEM < "densely" >, SYNSEM [ LKEYS.KEYREL.PRED "_dense_a_1_rel", PHON.ONSET con ] ]. density_n1 := n_-_mc_le & [ STEM < "density" >, SYNSEM [ LKEYS.KEYREL.PRED "_density_n_1_rel", PHON.ONSET con ] ]. dent_n1 := n_-_c_le & [ STEM < "dent" >, SYNSEM [ LKEYS.KEYREL.PRED "_dent_n_1_rel", PHON.ONSET con ] ]. dent_n2 := n_-_pn_le & [ STEM < "Dent" >, SYNSEM [ LKEYS.KEYREL.CARG "Dent", PHON.ONSET con ] ]. dent_v1 := v_-_unacc_le & [ STEM < "dent" >, SYNSEM [ LKEYS.KEYREL.PRED "_dent_v_1_rel", PHON.ONSET con ] ]. dent_v2 := v_np_noger_le & [ STEM < "dent" >, SYNSEM [ LKEYS.KEYREL.PRED "_dent_v_cause_rel", PHON.ONSET con ] ]. dental_a1 := aj_-_i_le & [ STEM < "dental" >, SYNSEM [ LKEYS.KEYREL.PRED "_dental_a_1_rel", PHON.ONSET con ] ]. dental_n1 := n_-_c_le & [ STEM < "dental" >, SYNSEM [ LKEYS.KEYREL.PRED "_dental_n_1_rel", PHON.ONSET con ] ]. dentist_n1 := n_-_c_le & [ STEM < "dentist" >, SYNSEM [ LKEYS.KEYREL.PRED "_dentist_n_1_rel", PHON.ONSET con ] ]. dentists_a1 := aj_-_i-cmpd_le & [ STEM < "dentist", "'s" >, SYNSEM [ LKEYS.KEYREL.PRED "_dentist_a_1_rel", PHON.ONSET con ] ]. dentists_a2 := aj_-_i-cmpd_le & [ STEM < "dentists", "'" >, SYNSEM [ LKEYS.KEYREL.PRED "_dentist_a_1_rel", PHON.ONSET con ] ]. denunciation_n1 := n_-_mc_le & [ STEM < "denunciation" >, SYNSEM [ LKEYS.KEYREL.PRED "_denunciation_n_1_rel", PHON.ONSET con ] ]. denver_n1 := n_-_pn-city_le & [ STEM < "Denver" >, SYNSEM [ LKEYS.KEYREL.CARG "Denver", PHON.ONSET con ] ]. deny_v1 := v_np_le & [ STEM < "deny" >, SYNSEM [ LKEYS.KEYREL.PRED "_deny_v_1_rel", PHON.ONSET con ] ]. deny_v2 := v_cp_le & [ STEM < "deny" >, SYNSEM [ LKEYS.KEYREL.PRED "_deny_v_1_rel", PHON.ONSET con ] ]. deny_v3 := v_vp_seq-prp_le & [ STEM < "deny" >, SYNSEM [ LKEYS.KEYREL.PRED "_deny_v_1_rel", PHON.ONSET con ] ]. deny_v4 := v_np-np_le & [ STEM < "deny" >, SYNSEM [ LKEYS.KEYREL.PRED "_deny_v_1_rel", PHON.ONSET con ] ]. deny_v5 := v_it-cp_prop-c_le & [ STEM < "deny" >, SYNSEM [ LKEYS.KEYREL.PRED "_deny_v_1_rel", PHON.ONSET con ] ]. depart_v2 := v_np*_ntr_le & [ STEM < "depart" >, SYNSEM [ LKEYS.KEYREL.PRED "_depart_v_1_rel", PHON.ONSET con ] ]. department_n1 := n_-_c_le & [ STEM < "department" >, SYNSEM [ LKEYS.KEYREL.PRED "_department_n_1_rel", PHON.ONSET con ] ]. department_post_ttl := n_-_tt-post_le & [ STEM < "Department" >, SYNSEM [ LKEYS.KEYREL.PRED "_department_n_1_rel", PHON.ONSET con ] ]. departmental_a1 := aj_-_i_le & [ STEM < "departmental" >, SYNSEM [ LKEYS.KEYREL.PRED "_departmental_a_1_rel", PHON.ONSET con ] ]. departure_abb_n1 := n_-_mc-ns_le & [ STEM < "dep." >, SYNSEM [ LKEYS.KEYREL.PRED "_departure_n_1_rel", PHON.ONSET con ] ]. departure_n1 := n_-_mc-ns_le & [ STEM < "departure" >, SYNSEM [ LKEYS.KEYREL.PRED "_departure_n_1_rel", PHON.ONSET con ] ]. depend_on_v1 := v_pp_e_le & [ STEM < "depend" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_depend_v_on_rel" ], PHON.ONSET con ] ]. depend_v1 := v_np*_le & [ STEM < "depend" >, SYNSEM [ LKEYS.KEYREL.PRED "_depend_v_1_rel", PHON.ONSET con ] ]. dependable_a1 := aj_-_i_le & [ STEM < "dependable" >, SYNSEM [ LKEYS.KEYREL.PRED "_dependable_a_1_rel", PHON.ONSET con ] ]. dependence_n1 := n_-_mc_le & [ STEM < "dependence" >, SYNSEM [ LKEYS.KEYREL.PRED "_dependence_n_1_rel", PHON.ONSET con ] ]. dependency_n1 := n_pp_mc_le & [ STEM < "dependency" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_dependency_n_on_rel" ], PHON.ONSET con ] ]. dependent_a1 := aj_pp_i_le & [ STEM < "dependent" >, SYNSEM [ LKEYS [ --COMPKEY _on_p_sel_rel, KEYREL.PRED "_dependent_a_on_rel" ], PHON.ONSET con ] ]. dependent_n1 := n_-_c_le & [ STEM < "dependent" >, SYNSEM [ LKEYS.KEYREL.PRED "_dependent_n_1_rel", PHON.ONSET con ] ]. depew_n1 := n_-_pn_le & [ STEM < "Depew" >, SYNSEM [ LKEYS.KEYREL.CARG "Depew", PHON.ONSET con ] ]. depict_v1 := v_np_le & [ STEM < "depict" >, SYNSEM [ LKEYS.KEYREL.PRED "_depict_v_1_rel", PHON.ONSET con ] ]. depict_v2 := v_np-pp_oeq-as_le & [ STEM < "depict" >, SYNSEM [ LKEYS.KEYREL.PRED "_depict_v_as_rel", PHON.ONSET con ] ]. deplete_v1 := v_np-pp_e_le & [ STEM < "deplete" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_deplete_v_of_rel" ], PHON.ONSET con ] ]. deplete_v2 := v_np_le & [ STEM < "deplete" >, SYNSEM [ LKEYS.KEYREL.PRED "_deplete_v_of_rel", PHON.ONSET con ] ]. deploy_v1 := v_np_noger_le & [ STEM < "deploy" >, SYNSEM [ LKEYS.KEYREL.PRED "_deploy_v_cause_rel", PHON.ONSET con ] ]. deploy_v2 := v_pp_unacc_le & [ STEM < "deploy" >, SYNSEM [ LKEYS.KEYREL.PRED "_deploy_v_1_rel", PHON.ONSET con ] ]. deploy_v3 := v_np-vp_oeq_le & [ STEM < "deploy" >, SYNSEM [ LKEYS.KEYREL.PRED "_deploy_v_cause_rel", PHON.ONSET con ] ]. deploy_v4 := v_np-pp_oeq-as_le & [ STEM < "deploy" >, SYNSEM [ LKEYS.KEYREL.PRED "_deploy_v_as_rel", PHON.ONSET con ] ]. depopulate_v1 := v_-_unacc_le & [ STEM < "depopulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_depopulate_v_1_rel", PHON.ONSET con ] ]. depopulate_v2 := v_np_noger_le & [ STEM < "depopulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_depopulate_v_cause_rel", PHON.ONSET con ] ]. deport_v1 := v_np_le & [ STEM < "deport" >, SYNSEM [ LKEYS.KEYREL.PRED "_deport_v_1_rel", PHON.ONSET con ] ]. deportment_n1 := n_-_m_le & [ STEM < "deportment" >, SYNSEM [ LKEYS.KEYREL.PRED "_deportment_n_1_rel", PHON.ONSET con ] ]. depose_v1 := v_np_le & [ STEM < "depose" >, SYNSEM [ LKEYS.KEYREL.PRED "_depose_v_1_rel", PHON.ONSET con ] ]. deposit_n1 := n_pp_mc-of_le & [ STEM < "deposit" >, SYNSEM [ LKEYS.KEYREL.PRED "_deposit_n_of_rel", PHON.ONSET con ] ]. deposit_v1 := v_np_le & [ STEM < "deposit" >, SYNSEM [ LKEYS.KEYREL.PRED "_deposit_v_1_rel", PHON.ONSET con ] ]. deposit_v2 := v_np-pp_prop_le & [ STEM < "deposit" >, SYNSEM [ LKEYS.KEYREL.PRED "_deposit_v_1_rel", PHON.ONSET con ] ]. deposition_n1 := n_pp_mc-of_le & [ STEM < "deposition" >, SYNSEM [ LKEYS.KEYREL.PRED "_deposition_n_of_rel", PHON.ONSET con ] ]. depot_n1 := n_-_c_le & [ STEM < "depot" >, SYNSEM [ LKEYS.KEYREL.PRED "_depot_n_1_rel", PHON.ONSET con ] ]. depravity_n1 := n_-_mc_le & [ STEM < "depravity" >, SYNSEM [ LKEYS.KEYREL.PRED "_depravity_n_1_rel", PHON.ONSET con ] ]. depreciatory_a1 := aj_-_i_le & [ STEM < "depreciatory" >, SYNSEM [ LKEYS.KEYREL.PRED "_depreciatory_a_1_rel", PHON.ONSET con ] ]. depress_v1 := v_np_le & [ STEM < "depress" >, SYNSEM [ LKEYS.KEYREL.PRED "_depress_v_1_rel", PHON.ONSET con ] ]. depressed_a1 := aj_-_i_le & [ STEM < "depressed" >, SYNSEM [ LKEYS.KEYREL.PRED "_depressed_a_1_rel", PHON.ONSET con ] ]. depressing_a1 := aj_-_i_le & [ STEM < "depressing" >, SYNSEM [ LKEYS.KEYREL.PRED "_depressing_a_1_rel", PHON.ONSET con ] ]. depression_n1 := n_-_mc_le & [ STEM < "depression" >, SYNSEM [ LKEYS.KEYREL.PRED "_depression_n_1_rel", PHON.ONSET con ] ]. depressor_n1 := n_-_c_le & [ STEM < "depressor" >, SYNSEM [ LKEYS.KEYREL.PRED "_depressor_n_1_rel", PHON.ONSET con ] ]. deprivation_n1 := n_-_mc_le & [ STEM < "deprivation" >, SYNSEM [ LKEYS.KEYREL.PRED "_deprivation_n_1_rel", PHON.ONSET con ] ]. deprive_v1 := v_np-pp_e_le & [ STEM < "deprive" >, SYNSEM [ LKEYS [ --OCOMPKEY _of_p_sel_rel, KEYREL.PRED "_deprive_v_of_rel" ], PHON.ONSET con ] ]. deprive_v2 := v_np_le & [ STEM < "deprive" >, SYNSEM [ LKEYS.KEYREL.PRED "_deprive_v_of_rel", PHON.ONSET con ] ]. dept_n1 := n_-_c_le & [ STEM < "dept" >, SYNSEM [ LKEYS.KEYREL.PRED "_department_n_1_rel", PHON.ONSET con ] ]. depth_n1 := n_pp_mc-of_le & [ STEM < "depth" >, SYNSEM [ LKEYS.KEYREL.PRED "_depth_n_of_rel", PHON.ONSET con ] ]. deputy_n1 := n_-_c_le & [ STEM < "deputy" >, SYNSEM [ LKEYS.KEYREL.PRED "_deputy_n_1_rel", PHON.ONSET con ] ]. der-talismann_n1 := n_-_pn_le & [ STEM < "Der", "Talismann" >, SYNSEM [ LKEYS.KEYREL.CARG "Der-Talismann", PHON.ONSET con ] ]. derail_v1 := v_-_unacc_le & [ STEM < "derail" >, SYNSEM [ LKEYS.KEYREL.PRED "_derail_v_1_rel", PHON.ONSET con ] ]. derail_v2 := v_np_noger_le & [ STEM < "derail" >, SYNSEM [ LKEYS.KEYREL.PRED "_derail_v_cause_rel", PHON.ONSET con ] ]. derailer_n1 := n_-_c_le & [ STEM < "derailer" >, SYNSEM [ LKEYS.KEYREL.PRED "_derailer_n_1_rel", PHON.ONSET con ] ]. derange_v1 := v_np_le & [ STEM < "derange" >, SYNSEM [ LKEYS.KEYREL.PRED "_derange_v_1_rel", PHON.ONSET con ] ]. deranged_a1 := aj_-_i_le & [ STEM < "deranged" >, SYNSEM [ LKEYS.KEYREL.PRED "_deranged_a_1_rel", PHON.ONSET con ] ]. deras_n1 := n_-_pn_le & [ STEM < "Deras" >, SYNSEM [ LKEYS.KEYREL.CARG "Deras", PHON.ONSET con ] ]. derby_n1 := n_-_pn-city_le & [ STEM < "Derby" >, SYNSEM [ LKEYS.KEYREL.CARG "Derby", PHON.ONSET con ] ]. derby_n2 := n_-_c_le & [ STEM < "derby" >, SYNSEM [ LKEYS.KEYREL.PRED "_derby_n_1_rel", PHON.ONSET con ] ]. derbyshire_n1 := n_-_pn_le & [ STEM < "Derbyshire" >, SYNSEM [ LKEYS.KEYREL.CARG "Derbyshire", PHON.ONSET con ] ]. deregulate_v1 := v_np_le & [ STEM < "deregulate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deregulate_v_1_rel", PHON.ONSET con ] ]. derek_n1 := n_-_pn_le & [ STEM < "Derek" >, SYNSEM [ LKEYS.KEYREL.CARG "Derek", PHON.ONSET con ] ]. derelict_a1 := aj_-_i_le & [ STEM < "derelict" >, SYNSEM [ LKEYS.KEYREL.PRED "_derelict_a_1_rel", PHON.ONSET con ] ]. derelict_n1 := n_-_c-nocnh_le & [ STEM < "derelict" >, SYNSEM [ LKEYS.KEYREL.PRED "_derelict_n_1_rel", PHON.ONSET con ] ]. dereliction_n1 := n_pp_mc-of_le & [ STEM < "dereliction" >, SYNSEM [ LKEYS.KEYREL.PRED "_dereliction_n_of_rel", PHON.ONSET con ] ]. derivative_a1 := aj_-_i_le & [ STEM < "derivative" >, SYNSEM [ LKEYS.KEYREL.PRED "_derivative_a_1_rel", PHON.ONSET con ] ]. derivative_n1 := n_-_c-nocnh_le & [ STEM < "derivative" >, SYNSEM [ LKEYS.KEYREL.PRED "_derivative_n_1_rel", PHON.ONSET con ] ]. derivatize_v1 := v_np_le & [ STEM < "derivatize" >, SYNSEM [ LKEYS.KEYREL.PRED "_derivatize_v_1_rel", PHON.ONSET con ] ]. derivatize_v1_br := v_np_le & [ DIALECT br, STEM < "derivatise" >, SYNSEM [ LKEYS.KEYREL.PRED "_derivatize_v_1_rel", PHON.ONSET con ] ]. derive_v1 := v_np_le & [ STEM < "derive" >, SYNSEM [ LKEYS.KEYREL.PRED "_derive_v_from_rel", PHON.ONSET con ] ]. derive_v2 := v_np*-pp_e_le & [ STEM < "derive" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_derive_v_from_rel" ], PHON.ONSET con ] ]. derrick_n1 := n_-_c_le & [ STEM < "derrick" >, SYNSEM [ LKEYS.KEYREL.PRED "_derrick_n_1_rel", PHON.ONSET con ] ]. derring_do_n1 := n_-_m_le & [ STEM < "derring-", "do" >, SYNSEM [ LKEYS.KEYREL.PRED "_derring-do_n_1_rel", PHON.ONSET con ] ]. derring_do_n2 := n_-_m_le & [ STEM < "derring", "do" >, SYNSEM [ LKEYS.KEYREL.PRED "_derring-do_n_1_rel", PHON.ONSET con ] ]. derry_n1 := n_-_pn-city_le & [ STEM < "Derry" >, SYNSEM [ LKEYS.KEYREL.CARG "Derry", PHON.ONSET con ] ]. dervish_n1 := n_-_c_le & [ STEM < "dervish" >, SYNSEM [ LKEYS.KEYREL.PRED "_dervish_n_1_rel", PHON.ONSET con ] ]. des_n1 := n_-_pn_le & [ STEM < "Des" >, SYNSEM [ LKEYS.KEYREL.CARG "Des", PHON.ONSET con ] ]. descant_n1 := n_-_mc_le & [ STEM < "descant" >, SYNSEM [ LKEYS.KEYREL.PRED "_descant_n_1_rel", PHON.ONSET con ] ]. descend_v1 := v_pp*_dir_le & [ STEM < "descend" >, SYNSEM [ LKEYS.KEYREL.PRED "_descend_v_1_rel", PHON.ONSET con ] ]. descend_v2 := v_np_noger_le & [ STEM < "descend" >, SYNSEM [ LKEYS.KEYREL.PRED "_descend_v_1_rel", PHON.ONSET con ] ]. descendant_n1 := n_-_c_le & [ STEM < "descendant" >, SYNSEM [ LKEYS.KEYREL.PRED "_descendant_n_1_rel", PHON.ONSET con ] ]. descendent_n1 := n_pp_c-of_le & [ STEM < "descendent" >, SYNSEM [ LKEYS.KEYREL.PRED "_descendent_n_of_rel", PHON.ONSET con ] ]. descent_n1 := n_-_mc_le & [ STEM < "descent" >, SYNSEM [ LKEYS.KEYREL.PRED "_descent_n_1_rel", PHON.ONSET con ] ]. describe_v1 := v_np-pp*_to_le & [ STEM < "describe" >, SYNSEM [ LKEYS.KEYREL.PRED "_describe_v_to_rel", PHON.ONSET con ] ]. describe_v2 := v_np-pp_oeq-as_le & [ STEM < "describe" >, SYNSEM [ LKEYS.KEYREL.PRED "_describe_v_as_rel", PHON.ONSET con ] ]. description_n1 := n_pp_mc-of_le & [ STEM < "description" >, SYNSEM [ LKEYS.KEYREL.PRED "_description_n_of_rel", PHON.ONSET con ] ]. descriptive_a1 := aj_-_i_le & [ STEM < "descriptive" >, SYNSEM [ LKEYS.KEYREL.PRED "_descriptive_a_1_rel", PHON.ONSET con ] ]. descry_v1 := v_np_le & [ STEM < "descry" >, SYNSEM [ LKEYS.KEYREL.PRED "_descry_v_1_rel", PHON.ONSET con ] ]. desert_n1 := n_-_mc_le & [ STEM < "desert" >, SYNSEM [ LKEYS.KEYREL.PRED "_desert_n_1_rel", PHON.ONSET con ] ]. desert_v2 := v_np*_le & [ STEM < "desert" >, SYNSEM [ LKEYS.KEYREL.PRED "_desert_v_1_rel", PHON.ONSET con ] ]. desertification_n1 := n_-_m_le & [ STEM < "desertification" >, SYNSEM [ LKEYS.KEYREL.PRED "_desertification_n_1_rel", PHON.ONSET con ] ]. desertion_n1 := n_-_mc_le & [ STEM < "desertion" >, SYNSEM [ LKEYS.KEYREL.PRED "_desertion_n_1_rel", PHON.ONSET con ] ]. deserve_v1 := v_np_le & [ STEM < "deserve" >, SYNSEM [ LKEYS.KEYREL.PRED "_deserve_v_1_rel", PHON.ONSET con ] ]. deserve_v2 := v_vp_seq_le & [ STEM < "deserve" >, SYNSEM [ LKEYS.KEYREL.PRED "_deserve_v_1_rel", PHON.ONSET con ] ]. deserving_a1 := aj_-_i_le & [ STEM < "deserving" >, SYNSEM [ LKEYS.KEYREL.PRED "_deserving_a_1_rel", PHON.ONSET con ] ]. design_n1 := n_pp_mc-of_le & [ STEM < "design" >, SYNSEM [ LKEYS.KEYREL.PRED "_design_n_of_rel", PHON.ONSET con ] ]. design_v1 := v_np_le & [ STEM < "design" >, SYNSEM [ LKEYS.KEYREL.PRED "_design_v_1_rel", PHON.ONSET con ] ]. design_v2 := v_np-vp_oeq_le & [ STEM < "design" >, SYNSEM [ LKEYS.KEYREL.PRED "_design_v_1_rel", PHON.ONSET con ] ]. designate_n1 := n_-_c_le & [ STEM < "designate" >, SYNSEM [ LKEYS.KEYREL.PRED "_designate_n_1_rel", PHON.ONSET con ] ]. designate_v1 := v_np_le & [ STEM < "designate" >, SYNSEM [ LKEYS.KEYREL.PRED "_designate_v_1_rel", PHON.ONSET con ] ]. designate_v2 := v_np-pp_oeq-as_le & [ STEM < "designate" >, SYNSEM [ LKEYS.KEYREL.PRED "_designate_v_as_rel", PHON.ONSET con ] ]. designate_v3 := v_np-np_only_le & [ STEM < "designate" >, SYNSEM [ LKEYS.KEYREL.PRED "_designate_v_1_rel", PHON.ONSET con ] ]. designation_n1 := n_pp_c-of_le & [ STEM < "designation" >, SYNSEM [ LKEYS.KEYREL.PRED "_designation_n_of_rel", PHON.ONSET con ] ]. designer_n1 := n_pp_c-of_le & [ STEM < "designer" >, SYNSEM [ LKEYS.KEYREL.PRED "_designer_n_of_rel", PHON.ONSET con ] ]. desirable_a1 := aj_pp_i_le & [ STEM < "desirable" >, SYNSEM [ LKEYS [ --COMPKEY _to_p_sel_rel, KEYREL.PRED "_desirable_a_to_rel" ], PHON.ONSET con ] ]. desire_n1 := n_pp_mc_le & [ STEM < "desire" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_desire_n_for_rel" ], PHON.ONSET con ] ]. desire_n2 := n_vp_c_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_n_for_rel", PHON.ONSET con ] ]. desire_n3 := n_cp_c-fin_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_n_for_rel", PHON.ONSET con ] ]. desire_n4 := n_cp_c-bse_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_n_for_rel", PHON.ONSET con ] ]. desire_v1 := v_np*_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_v_1_rel", PHON.ONSET con ] ]. desire_v2 := v_vp_seq_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_v_1_rel", PHON.ONSET con ] ]. desire_v3 := v_cp_prop_le & [ STEM < "desire" >, SYNSEM [ LKEYS.KEYREL.PRED "_desire_v_1_rel", PHON.ONSET con ] ]. desist_v1 := v_-_le & [ STEM < "desist" >, SYNSEM [ LKEYS.KEYREL.PRED "_desist_v_1_rel", PHON.ONSET con ] ]. desk_n1 := n_-_c_le & [ STEM < "desk" >, SYNSEM [ LKEYS.KEYREL.PRED "_desk_n_1_rel", PHON.ONSET con ] ]. desktop_n1 := n_-_c_le & [ STEM < "desktop" >, SYNSEM [ LKEYS.KEYREL.PRED "_desktop_n_1_rel", PHON.ONSET con ] ]. deslonde_n1 := n_-_pn_le & [ STEM < "Deslonde" >, SYNSEM [ LKEYS.KEYREL.CARG "Deslonde", PHON.ONSET con ] ]. desmond_n1 := n_-_pn_le & [ STEM < "Desmond" >, SYNSEM [ LKEYS.KEYREL.CARG "Desmond", PHON.ONSET con ] ]. desolate_a1 := aj_-_i_le & [ STEM < "desolate" >, SYNSEM [ LKEYS.KEYREL.PRED "_desolate_a_1_rel", PHON.ONSET con ] ]. desolate_v1 := v_np_le & [ STEM < "desolate" >, SYNSEM [ LKEYS.KEYREL.PRED "_desolate_v_1_rel", PHON.ONSET con ] ]. despair_n1 := n_-_mc_le & [ STEM < "despair" >, SYNSEM [ LKEYS.KEYREL.PRED "_despair_n_1_rel", PHON.ONSET con ] ]. despair_of_v1 := v_pp_e_le & [ STEM < "despair" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_despair_v_of_rel" ], PHON.ONSET con ] ]. despair_v1 := v_-_le & [ STEM < "despair" >, SYNSEM [ LKEYS.KEYREL.PRED "_despair_v_1_rel", PHON.ONSET con ] ]. despairingly_ai := av_-_i-vp_le & [ STEM < "despairingly" >, SYNSEM [ LKEYS.KEYREL.PRED "_despairing_a_1_rel", PHON.ONSET con ] ]. desperate_a1 := aj_pp_i_le & [ STEM < "desperate" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_desperate_a_for_rel" ], PHON.ONSET con ] ]. desperate_n1 := n_-_c-pl-def_le & [ STEM < "desperate" >, SYNSEM [ LKEYS.KEYREL.PRED "_desperate_n_1_rel", PHON.ONSET con ] ]. desperately_isect := av_-_i-vp_le & [ STEM < "desperately" >, SYNSEM [ LKEYS.KEYREL.PRED "_desperate_a_for_rel", PHON.ONSET con ] ]. desperation_n1 := n_-_m_le & [ STEM < "desperation" >, SYNSEM [ LKEYS.KEYREL.PRED "_desperation_n_1_rel", PHON.ONSET con ] ]. despise_v1 := v_np_le & [ STEM < "despise" >, SYNSEM [ LKEYS.KEYREL.PRED "_despise_v_1_rel", PHON.ONSET con ] ]. despise_v2 := v_np-pp_oeq-as_le & [ STEM < "despise" >, SYNSEM [ LKEYS.KEYREL.PRED "_despise_v_as_rel", PHON.ONSET con ] ]. despite := p_np_i_le & [ STEM < "despite" >, SYNSEM [ LKEYS.KEYREL.PRED _despite_p_rel, PHON.ONSET con ] ]. despondency_n1 := n_-_mc_le & [ STEM < "despondency" >, SYNSEM [ LKEYS.KEYREL.PRED "_despondency_n_1_rel", PHON.ONSET con ] ]. dessert_n1 := n_-_mc_le & [ STEM < "dessert" >, SYNSEM [ LKEYS.KEYREL.PRED "_dessert_n_1_rel", PHON.ONSET con ] ]. destination_n1 := n_-_c_le & [ STEM < "destination" >, SYNSEM [ LKEYS.KEYREL.PRED "_destination_n_1_rel", PHON.ONSET con ] ]. destination_wilderness := n_-_pn_le & [ STEM < "Destination", "Wilderness" >, SYNSEM [ LKEYS.KEYREL.CARG "Destination_Wilderness", PHON.ONSET con ] ]. destine_v1 := v_np_le & [ STEM < "destine" >, SYNSEM [ LKEYS.KEYREL.PRED "_destine_v_1_rel", PHON.ONSET con ] ]. destined_a1 := aj_vp_i-seq_le & [ STEM < "destined" >, SYNSEM [ LKEYS.KEYREL.PRED "_destined_a_1_rel", PHON.ONSET con ] ]. destiny_n1 := n_-_mc_le & [ STEM < "destiny" >, SYNSEM [ LKEYS.KEYREL.PRED "_destiny_n_1_rel", PHON.ONSET con ] ]. destitute_a1 := aj_-_i_le & [ STEM < "destitute" >, SYNSEM [ LKEYS.KEYREL.PRED "_destitute_a_1_rel", PHON.ONSET con ] ]. destitution_n1 := n_-_m_le & [ STEM < "destitution" >, SYNSEM [ LKEYS.KEYREL.PRED "_destitution_n_1_rel", PHON.ONSET con ] ]. destroy_v1 := v_np_le & [ STEM < "destroy" >, SYNSEM [ LKEYS.KEYREL.PRED "_destroy_v_1_rel", PHON.ONSET con ] ]. destroyer_n1 := n_-_c_le & [ STEM < "destroyer" >, SYNSEM [ LKEYS.KEYREL.PRED "_destroyer_n_1_rel", PHON.ONSET con ] ]. destruction_n1 := n_pp_m_le & [ STEM < "destruction" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_destruction_n_of_rel" ], PHON.ONSET con ] ]. destructive_a1 := aj_-_i_le & [ STEM < "destructive" >, SYNSEM [ LKEYS.KEYREL.PRED "_destructive_a_1_rel", PHON.ONSET con ] ]. desultory_a1 := aj_-_i_le & [ STEM < "desultory" >, SYNSEM [ LKEYS.KEYREL.PRED "_desultory_a_1_rel", PHON.ONSET con ] ]. det_glade_hjørnet_n1 := n_-_pn_le & [ STEM < "Det", "Glade", "Hjørnet" >, SYNSEM [ LKEYS.KEYREL.CARG "Det_Glade_Hjørnet", PHON.ONSET con ] ]. detach_v1 := v_np_le & [ STEM < "detach" >, SYNSEM [ LKEYS.KEYREL.PRED "_detach_v_1_rel", PHON.ONSET con ] ]. detach_v2 := v_np-pp_le & [ STEM < "detach" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_rel, KEYREL.PRED "_detach_v_1_rel" ], PHON.ONSET con ] ]. detachment_n1 := n_pp_mc-of_le & [ STEM < "detachment" >, SYNSEM [ LKEYS.KEYREL.PRED "_detachment_n_of_rel", PHON.ONSET con ] ]. detail_n1 := n_-_mc_le & [ STEM < "detail" >, SYNSEM [ LKEYS.KEYREL.PRED "_detail_n_1_rel", PHON.ONSET con ] ]. detail_n2 := n_pp_c-obl_le & [ STEM < "detail" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_nbar_rel, KEYREL.PRED "_detail_n_1_rel" ], PHON.ONSET con ] ]. detail_v1 := v_np_le & [ STEM < "detail" >, SYNSEM [ LKEYS.KEYREL.PRED "_detail_v_1_rel", PHON.ONSET con ] ]. detail_v2 := v_cp_le & [ STEM < "detail" >, SYNSEM [ LKEYS.KEYREL.PRED "_detail_v_1_rel", PHON.ONSET con ] ]. detailed_a1 := aj_-_i_le & [ STEM < "detailed" >, SYNSEM [ LKEYS.KEYREL.PRED "_detailed_a_1_rel", PHON.ONSET con ] ]. detain_v1 := v_np_le & [ STEM < "detain" >, SYNSEM [ LKEYS.KEYREL.PRED "_detain_v_1_rel", PHON.ONSET con ] ]. detect_v1 := v_np*_le & [ STEM < "detect" >, SYNSEM [ LKEYS.KEYREL.PRED "_detect_v_1_rel", PHON.ONSET con ] ]. detect_v2 := v_cp_le & [ STEM < "detect" >, SYNSEM [ LKEYS.KEYREL.PRED "_detect_v_1_rel", PHON.ONSET con ] ]. detection_n1 := n_pp_mc-of_le & [ STEM < "detection" >, SYNSEM [ LKEYS.KEYREL.PRED "_detection_n_of_rel", PHON.ONSET con ] ]. detective_n1 := n_-_c_le & [ STEM < "detective" >, SYNSEM [ LKEYS.KEYREL.PRED "_detective_n_1_rel", PHON.ONSET con ] ]. detector_n1 := n_pp_c-of_le & [ STEM < "detector" >, SYNSEM [ LKEYS.KEYREL.PRED "_detector_n_of_rel", PHON.ONSET con ] ]. detention_n1 := n_pp_mc-of_le & [ STEM < "detention" >, SYNSEM [ LKEYS.KEYREL.PRED "_detention_n_of_rel", PHON.ONSET con ] ]. deter_v1 := v_np_le & [ STEM < "deter" >, SYNSEM [ LKEYS.KEYREL.PRED "_deter_v_1_rel", PHON.ONSET con ] ]. deter_v2 := v_np-vp_oeq-from_le & [ STEM < "deter" >, SYNSEM [ LKEYS.KEYREL.PRED "_deter_v_from_rel", PHON.ONSET con ] ]. detergent_n1 := n_-_mc_le & [ STEM < "detergent" >, SYNSEM [ LKEYS.KEYREL.PRED "_detergent_n_1_rel", PHON.ONSET con ] ]. deteriorate_v1 := v_-_unacc_le & [ STEM < "deteriorate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deteriorate_v_1_rel", PHON.ONSET con ] ]. deterioration_n1 := n_pp_m_le & [ STEM < "deterioration" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_deterioration_n_of_rel" ], PHON.ONSET con ] ]. determinable_a1 := aj_-_i_le & [ STEM < "determinable" >, SYNSEM [ LKEYS.KEYREL.PRED "_determinable_a_1_rel", PHON.ONSET con ] ]. determinate_a1 := aj_-_i_le & [ STEM < "determinate" >, SYNSEM [ LKEYS.KEYREL.PRED "_determinate_a_1_rel", PHON.ONSET con ] ]. determination_n1 := n_pp_mc-of_le & [ STEM < "determination" >, SYNSEM [ LKEYS.KEYREL.PRED "_determination_n_of_rel", PHON.ONSET con ] ]. determine_v1 := v_np_le & [ STEM < "determine" >, SYNSEM [ LKEYS.KEYREL.PRED "_determine_v_1_rel", PHON.ONSET con ] ]. determine_v2 := v_cp_fin-inf_le & [ STEM < "determine" >, SYNSEM [ LKEYS.KEYREL.PRED "_determine_v_1_rel", PHON.ONSET con ] ]. determine_v3 := v_np-vp_oeq_le & [ STEM < "determine" >, SYNSEM [ LKEYS.KEYREL.PRED "_determine_v_1_rel", PHON.ONSET con ] ]. determined_a2 := aj_vp_i-seq_le & [ STEM < "determined" >, SYNSEM [ LKEYS.KEYREL.PRED "_determined_a_1_rel", PHON.ONSET con ] ]. determined_isect := aj_-_i_le & [ STEM < "determined" >, SYNSEM [ LKEYS.KEYREL.PRED "_determined_a_1_rel", PHON.ONSET con ] ]. deterrence_n1 := n_-_mc_le & [ STEM < "deterrence" >, SYNSEM [ LKEYS.KEYREL.PRED "_deterrence_n_1_rel", PHON.ONSET con ] ]. detonate_v1 := v_np_noger_le & [ STEM < "detonate" >, SYNSEM [ LKEYS.KEYREL.PRED "_detonate_v_cause_rel", PHON.ONSET con ] ]. detonate_v2 := v_-_unacc_le & [ STEM < "detonate" >, SYNSEM [ LKEYS.KEYREL.PRED "_detonate_v_1_rel", PHON.ONSET con ] ]. detour_n1 := n_-_c_le & [ STEM < "detour" >, SYNSEM [ LKEYS.KEYREL.PRED "_detour_n_1_rel", PHON.ONSET con ] ]. detract_from_v1 := v_pp_e_le & [ STEM < "detract" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_detract_v_from_rel" ], PHON.ONSET con ] ]. detribalize_v1 := v_np_le & [ STEM < "detribalize" >, SYNSEM [ LKEYS.KEYREL.PRED "_detribalize_v_1_rel", PHON.ONSET con ] ]. detribalize_v1_br := v_np_le & [ DIALECT br, STEM < "detribalise" >, SYNSEM [ LKEYS.KEYREL.PRED "_detribalize_v_1_rel", PHON.ONSET con ] ]. detroit_n1 := n_-_pn-city_le & [ STEM < "Detroit" >, SYNSEM [ LKEYS.KEYREL.CARG "Detroit", PHON.ONSET con ] ]. dettlisætra_n1 := n_-_pn_le & [ STEM < "Dettlisætra" >, SYNSEM [ LKEYS.KEYREL.CARG "Dettlisætra", PHON.ONSET con ] ]. deuce_n1 := n_-_mc_le & [ STEM < "deuce" >, SYNSEM [ LKEYS.KEYREL.PRED "_deuce_n_1_rel", PHON.ONSET con ] ]. deutsche_mark_n1 := n_-_c_le & [ STEM < "deutsche", "mark" >, SYNSEM [ LKEYS.KEYREL.PRED "_deutschmark_n_1_rel", PHON.ONSET con ] ]. deutschmark_n1 := n_-_c_le & [ STEM < "deutschmark" >, SYNSEM [ LKEYS.KEYREL.PRED "_deutschmark_n_1_rel", PHON.ONSET con ] ]. deutschmark_n2 := n_-_c_le & [ STEM < "deutsch", "mark" >, SYNSEM [ LKEYS.KEYREL.PRED "_deutschmark_n_1_rel", PHON.ONSET con ] ]. deutschmark_n3 := n_-_c_le & [ STEM < "deutsch-", "mark" >, SYNSEM [ LKEYS.KEYREL.PRED "_deutschmark_n_1_rel", PHON.ONSET con ] ]. devastate_v1 := v_np_le & [ STEM < "devastate" >, SYNSEM [ LKEYS.KEYREL.PRED "_devastate_v_1_rel", PHON.ONSET con ] ]. devastate_v2 := v_np-cp_it-s_le & [ STEM < "devastate" >, SYNSEM [ LKEYS.KEYREL.PRED "_devastate_v_1_rel", PHON.ONSET con ] ]. devastation_n1 := n_-_m_le & [ STEM < "devastation" >, SYNSEM [ LKEYS.KEYREL.PRED "_devastation_n_1_rel", PHON.ONSET con ] ]. develop_into_v1 := v_pp_e_le & [ STEM < "develop" >, SYNSEM [ LKEYS [ --COMPKEY _into_p_sel_rel, KEYREL.PRED "_develop_v_into_rel" ], PHON.ONSET con ] ]. develop_v1 := v_np_noger_le & [ STEM < "develop" >, SYNSEM [ LKEYS.KEYREL.PRED "_develop_v_cause_rel", PHON.ONSET con ] ]. develop_v2 := v_-_unacc_le & [ STEM < "develop" >, SYNSEM [ LKEYS.KEYREL.PRED "_develop_v_1_rel", PHON.ONSET con ] ]. develop_v3 := v_vp_seq_le & [ STEM < "develop" >, SYNSEM [ LKEYS.KEYREL.PRED "_develop_v_1_rel", PHON.ONSET con ] ]. developed_a1 := aj_-_i-prd_le & [ STEM < "developed" >, SYNSEM [ LKEYS.KEYREL.PRED "_developed_a_1_rel", PHON.ONSET con ] ]. developer_n1 := n_pp_c-of_le & [ STEM < "developer" >, SYNSEM [ LKEYS.KEYREL.PRED "_developer_n_of_rel", PHON.ONSET con ] ]. development_n1 := n_pp_mc-of_le & [ STEM < "development" >, SYNSEM [ LKEYS.KEYREL.PRED "_development_n_of_rel", PHON.ONSET con ] ]. developmental_a1 := aj_-_i_le & [ STEM < "developmental" >, SYNSEM [ LKEYS.KEYREL.PRED "_developmental_a_1_rel", PHON.ONSET con ] ]. dever_n1 := n_-_pn_le & [ STEM < "Dever" >, SYNSEM [ LKEYS.KEYREL.CARG "Dever", PHON.ONSET con ] ]. deviate_a1 := aj_-_i_le & [ STEM < "deviate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deviate_a_1_rel", PHON.ONSET con ] ]. deviate_n1 := n_-_c_le & [ STEM < "deviate" >, SYNSEM [ LKEYS.KEYREL.PRED "_deviate_n_1_rel", PHON.ONSET con ] ]. deviate_v1 := v_pp*_le & [ STEM < "deviate" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_rel, KEYREL.PRED "_deviate_v_1_rel" ], PHON.ONSET con ] ]. deviation_n1 := n_pp_c_le & [ STEM < "deviation" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_deviation_n_from_rel" ], PHON.ONSET con ] ]. device_n1 := n_-_c_le & [ STEM < "device" >, SYNSEM [ LKEYS.KEYREL.PRED "_device_n_1_rel", PHON.ONSET con ] ]. devil_n1 := n_-_c_le & [ STEM < "devil" >, SYNSEM [ LKEYS.KEYREL.PRED "_devil_n_1_rel", PHON.ONSET con ] ]. devilish_a1 := aj_-_i_le & [ STEM < "devilish" >, SYNSEM [ LKEYS.KEYREL.PRED "_devilish_a_1_rel", PHON.ONSET con ] ]. devise_v1 := v_np_le & [ STEM < "devise" >, SYNSEM [ LKEYS.KEYREL.PRED "_devise_v_1_rel", PHON.ONSET con ] ]. devisee_n1 := n_-_c_le & [ STEM < "devisee" >, SYNSEM [ LKEYS.KEYREL.PRED "_devisee_n_1_rel", PHON.ONSET con ] ]. devito := n_-_pn_le & [ STEM < "Devito" >, SYNSEM [ LKEYS.KEYREL.CARG "Devito", PHON.ONSET con ] ]. devlin_n1 := n_-_pn_le & [ STEM < "Devlin" >, SYNSEM [ LKEYS.KEYREL.CARG "Devlin", PHON.ONSET con ] ]. devoid_of_a1 := aj_pp_i-obl_le & [ STEM < "devoid" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_devoid_a_of_rel" ], PHON.ONSET con ] ]. devon_n1 := n_-_pn_le & [ STEM < "Devon" >, SYNSEM [ LKEYS.KEYREL.CARG "Devon", PHON.ONSET con ] ]. devote_v1 := v_np-pp_to_le & [ STEM < "devote" >, SYNSEM [ LKEYS.KEYREL.PRED "_devote_v_to_rel", PHON.ONSET con ] ]. devotee_n1 := n_-_c_le & [ STEM < "devotee" >, SYNSEM [ LKEYS.KEYREL.PRED "_devotee_n_1_rel", PHON.ONSET con ] ]. devotion_n1 := n_-_mc_le & [ STEM < "devotion" >, SYNSEM [ LKEYS.KEYREL.PRED "_devotion_n_1_rel", PHON.ONSET con ] ]. devour_v1 := v_np_le & [ STEM < "devour" >, SYNSEM [ LKEYS.KEYREL.PRED "_devour_v_1_rel", PHON.ONSET con ] ]. dew_n1 := n_-_mc_le & [ STEM < "dew" >, SYNSEM [ LKEYS.KEYREL.PRED "_dew_n_1_rel", PHON.ONSET con ] ]. dew_sodden_a1 := aj_-_i_le & [ STEM < "dew-", "sodden" >, SYNSEM [ LKEYS.KEYREL.PRED "_dew-sodden_a_1_rel", PHON.ONSET con ] ]. dewitt_n1 := n_-_pn_le & [ STEM < "Dewitt" >, SYNSEM [ LKEYS.KEYREL.CARG "Dewitt", PHON.ONSET con ] ]. dewlap_n1 := n_-_mc_le & [ STEM < "dewlap" >, SYNSEM [ LKEYS.KEYREL.PRED "_dewlap_n_1_rel", PHON.ONSET con ] ]. dexter_n1 := n_-_pn_le & [ STEM < "Dexter" >, SYNSEM [ LKEYS.KEYREL.CARG "Dexter", PHON.ONSET con ] ]. dexterity_n1 := n_-_m_le & [ STEM < "dexterity" >, SYNSEM [ LKEYS.KEYREL.PRED "_dexterity_n_1_rel", PHON.ONSET con ] ]. dexterous_a1 := aj_-_i_le & [ STEM < "dexterous" >, SYNSEM [ LKEYS.KEYREL.PRED "_dexterous_a_1_rel", PHON.ONSET con ] ]. dextrous_a1 := aj_-_i_le & [ STEM < "dextrous" >, SYNSEM [ LKEYS.KEYREL.PRED "_dexterous_a_1_rel", PHON.ONSET con ] ]. dfki_n1 := n_-_pn_le & [ STEM < "DFKI" >, SYNSEM [ LKEYS.KEYREL.CARG "DFKI", PHON.ONSET con ] ]. dfki_n2 := n_-_c-nm_le & [ STEM < "DFKI" >, SYNSEM [ LKEYS.KEYREL.CARG "DFKI", PHON.ONSET con ] ]. dgault_n1 := n_-_pn_le & [ STEM < "DGAULT" >, SYNSEM [ LKEYS.KEYREL.CARG "DGAULT", PHON.ONSET con ] ]. dgfs_nd := n_-_pn_le & [ STEM < "DGfS" >, SYNSEM [ LKEYS.KEYREL.CARG "DGfS", PHON.ONSET con ] ]. dhawk_n1 := n_-_pn_le & [ STEM < "DHAWK" >, SYNSEM [ LKEYS.KEYREL.CARG "DHAWK", PHON.ONSET con ] ]. dhl_n1 := n_-_pn_le & [ STEM < "DHL" >, SYNSEM [ LKEYS.KEYREL.CARG "DHL", PHON.ONSET con ] ]. di_n1 := n_-_pn_le & [ STEM < "Di" >, SYNSEM [ LKEYS.KEYREL.CARG "Di", PHON.ONSET con ] ]. diabetic_a1 := aj_-_i_le & [ STEM < "diabetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_diabetic_a_1_rel", PHON.ONSET con ] ]. diabetic_n1 := n_-_c-nocnh_le & [ STEM < "diabetic" >, SYNSEM [ LKEYS.KEYREL.PRED "_diabetic_n_1_rel", PHON.ONSET con ] ]. diagnose_v1 := v_np-pp_e_le & [ STEM < "diagnose" >, SYNSEM [ LKEYS [ --OCOMPKEY _with_p_sel_rel, KEYREL.PRED "_diagnose_v_with_rel" ], PHON.ONSET con ] ]. diagnose_v2 := v_np-pp_oeq-as_le & [ STEM < "diagnose" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnose_v_as_rel", PHON.ONSET con ] ]. diagnose_v3 := v_cp_le & [ STEM < "diagnose" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnose_v_1_rel", PHON.ONSET con ] ]. diagnose_v4 := v_np_le & [ STEM < "diagnose" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnose_v_with_rel", PHON.ONSET con ] ]. diagnosis_n1 := n_pp_mc-of_le & [ STEM < "diagnosis" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnosis_n_of_rel", PHON.ONSET con ] ]. diagnostic_a1 := aj_-_i_le & [ STEM < "diagnostic" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnostic_a_1_rel", PHON.ONSET con ] ]. diagnostic_n1 := n_-_c_le & [ STEM < "diagnostic" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagnostic_n_1_rel", PHON.ONSET con ] ]. diagonal_a1 := aj_-_i-att_le & [ STEM < "diagonal" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagonal_a_1_rel", PHON.ONSET con ] ]. diagonal_n1 := n_-_c-nocnh_le & [ STEM < "diagonal" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagonal_n_1_rel", PHON.ONSET con ] ]. diagonally := av_-_i-vp_le & [ STEM < "diagonally" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagonal_a_1_rel", PHON.ONSET con ] ]. diagram_n1 := n_-_c_le & [ STEM < "diagram" >, SYNSEM [ LKEYS.KEYREL.PRED "_diagram_n_1_rel", PHON.ONSET con ] ]. dial_in_v1 := v_p-np_le & [ STEM < "dial" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, KEYREL.PRED "_dial_v_in_rel" ], PHON.ONSET con ] ]. dial_in_v2 := v_p-pp_le & [ STEM < "dial" >, SYNSEM [ LKEYS [ --COMPKEY _in_p_sel_rel, --OCOMPKEY _to_p_rel, KEYREL.PRED "_dial_v_in_rel" ], PHON.ONSET con ] ]. dial_n1 := n_-_c_le & [ STEM < "dial" >, SYNSEM [ LKEYS.KEYREL.PRED "_dial_n_1_rel", PHON.ONSET con ] ]. dial_v1 := v_np*_le & [ STEM < "dial" >, SYNSEM [ LKEYS.KEYREL.PRED "_dial_v_1_rel", PHON.ONSET con ] ]. dialog_n1 := n_-_mc_le & [ STEM < "dialog" >, SYNSEM [ LKEYS.KEYREL.PRED "_dialogue_n_1_rel", PHON.ONSET con ] ]. dialogue_n1 := n_-_mc_le & [ STEM < "dialogue" >, SYNSEM [ LKEYS.KEYREL.PRED "_dialogue_n_1_rel", PHON.ONSET con ] ]. diameter_abb_n1 := n_-_c_le & [ STEM < "dia" >, SYNSEM [ LKEYS.KEYREL.PRED "_diameter_n_1_rel", PHON.ONSET con ] ]. diameter_i_n1 := n_-_c-brno_le & [ STEM < "diameter" >, SYNSEM [ LKEYS.KEYREL.PRED "_diameter_n_1_rel", PHON.ONSET con ] ]. diameter_n1 := n_-_c_le & [ STEM < "diameter" >, SYNSEM [ LKEYS.KEYREL.PRED "_diameter_n_1_rel", PHON.ONSET con ] ]. diamond_n1 := n_-_c_le & [ STEM < "diamond" >, SYNSEM [ LKEYS.KEYREL.PRED "_diamond_n_1_rel", PHON.ONSET con ] ]. diana_n1 := n_-_pn_le & [ STEM < "Diana" >, SYNSEM [ LKEYS.KEYREL.CARG "Diana", PHON.ONSET con ] ]. diane_n1 := n_-_pn_le & [ STEM < "Diane" >, SYNSEM [ LKEYS.KEYREL.CARG "Diane", PHON.ONSET con ] ]. dianshan_n1 := n_-_pn_le & [ STEM < "Dianshan" >, SYNSEM [ LKEYS.KEYREL.CARG "Dianshan", PHON.ONSET con ] ]. diaper_n1 := n_-_c_le & [ STEM < "diaper" >, SYNSEM [ LKEYS.KEYREL.PRED "_diaper_n_1_rel", PHON.ONSET con ] ]. diaphragm_n1 := n_-_c_le & [ STEM < "diaphragm" >, SYNSEM [ LKEYS.KEYREL.PRED "_diaphragm_n_1_rel", PHON.ONSET con ] ]. diarrhoea_n1 := n_-_m_le & [ STEM < "diarrhoea" >, SYNSEM [ LKEYS.KEYREL.PRED "_diarrhoea_n_1_rel", PHON.ONSET con ] ]. diarthrosis_n1 := n_-_m_le & [ STEM < "diarthrosis" >, SYNSEM [ LKEYS.KEYREL.PRED "_diarthrosis_n_1_rel", PHON.ONSET con ] ]. diary_n1 := n_-_c_le & [ STEM < "diary" >, SYNSEM [ LKEYS.KEYREL.PRED "_diary_n_1_rel", PHON.ONSET con ] ]. diatom_n1 := n_-_c_le & [ STEM < "diatom" >, SYNSEM [ LKEYS.KEYREL.PRED "_diatom_n_1_rel", PHON.ONSET con ] ]. diatonic_a1 := aj_-_i_le & [ STEM < "diatonic" >, SYNSEM [ LKEYS.KEYREL.PRED "_diatonic_a_1_rel", PHON.ONSET con ] ]. dice_v1 := v_np_le & [ STEM < "dice" >, SYNSEM [ LKEYS.KEYREL.PRED "_dice_v_1_rel", PHON.ONSET con ] ]. dichondra_n1 := n_-_m_le & [ STEM < "dichondra" >, SYNSEM [ LKEYS.KEYREL.PRED "_dichondra_n_1_rel", PHON.ONSET con ] ]. dick_n1 := n_-_pn_le & [ STEM < "Dick" >, SYNSEM [ LKEYS.KEYREL.CARG "Dick", PHON.ONSET con ] ]. dickson_n1 := n_-_pn_le & [ STEM < "Dickson" >, SYNSEM [ LKEYS.KEYREL.CARG "Dickson", PHON.ONSET con ] ]. dictate_v1 := v_np*_le & [ STEM < "dictate" >, SYNSEM [ LKEYS.KEYREL.PRED "_dictate_v_1_rel", PHON.ONSET con ] ]. dictate_v2 := v_cp_le & [ STEM < "dictate" >, SYNSEM [ LKEYS.KEYREL.PRED "_dictate_v_1_rel", PHON.ONSET con ] ]. dictates_n1 := n_-_c-pl_le & [ STEM < "dictate" >, SYNSEM [ LKEYS.KEYREL.PRED "_dictates_n_1_rel", PHON.ONSET con ] ]. dictatorship_n1 := n_-_mc_le & [ STEM < "dictatorship" >, SYNSEM [ LKEYS.KEYREL.PRED "_dictatorship_n_1_rel", PHON.ONSET con ] ]. dictionary_n1 := n_pp_c-of_le & [ STEM < "dictionary" >, SYNSEM [ LKEYS.KEYREL.PRED "_dictionary_n_of_rel", PHON.ONSET con ] ]. did1_neg_1 := v_vp_did-n_le & [ STEM < "didn't" >, SYNSEM.PHON.ONSET con ]. did1_neg_2 := v_vp_did-n_le & [ STEM < "didn", "'t" >, SYNSEM.PHON.ONSET con ]. did1_pos := v_vp_did_le & [ STEM < "did" >, SYNSEM.PHON.ONSET con ]. die_down_v1 := v_p_le & [ STEM < "die" >, SYNSEM [ LKEYS [ --COMPKEY _down_p_sel_rel, KEYREL.PRED "_die_v_down_rel" ], PHON.ONSET con ] ]. die_n1 := n_-_c_le & [ STEM < "die" >, SYNSEM [ LKEYS.KEYREL.PRED "_die_n_1_rel", PHON.ONSET con ] ]. die_of_v1 := v_pp_e_le & [ STEM < "die" >, SYNSEM [ LKEYS [ --COMPKEY _of_p_sel_rel, KEYREL.PRED "_die_v_of_rel" ], PHON.ONSET con ] ]. die_off_v1 := v_p_le & [ STEM < "die" >, SYNSEM [ LKEYS [ --COMPKEY _off_p_sel_rel, KEYREL.PRED "_die_v_off_rel" ], PHON.ONSET con ] ]. die_out_v1 := v_p_le & [ STEM < "die" >, SYNSEM [ LKEYS [ --COMPKEY _out_p_sel_rel, KEYREL.PRED "_die_v_out_rel" ], PHON.ONSET con ] ]. die_v1 := v_-_unacc_le & [ STEM < "die" >, SYNSEM [ LKEYS.KEYREL.PRED "_die_v_1_rel", PHON.ONSET con ] ]. diepholz_n1 := n_-_pn_le & [ STEM < "Diepholz" >, SYNSEM [ LKEYS.KEYREL.CARG "Diepholz", PHON.ONSET con ] ]. diesel_n1 := n_-_mc_le & [ STEM < "diesel" >, SYNSEM [ LKEYS.KEYREL.PRED "_diesel_n_1_rel", PHON.ONSET con ] ]. diet_n1 := n_-_c_le & [ STEM < "diet" >, SYNSEM [ LKEYS.KEYREL.PRED "_diet_n_1_rel", PHON.ONSET con ] ]. diet_v1 := v_-_le & [ STEM < "diet" >, SYNSEM [ LKEYS.KEYREL.PRED "_diet_v_1_rel", PHON.ONSET con ] ]. dietary_a1 := aj_-_i_le & [ STEM < "dietary" >, SYNSEM [ LKEYS.KEYREL.PRED "_dietary_a_1_rel", PHON.ONSET con ] ]. diff_n1 := n_-_pn_le & [ STEM < "Diff" >, SYNSEM [ LKEYS.KEYREL.CARG "Diff", PHON.ONSET con ] ]. diff_v1 := v_np*_le & [ STEM < "diff" >, SYNSEM [ LKEYS.KEYREL.PRED "_diff_v_1_rel", PHON.ONSET con ] ]. differ_from_v1 := v_pp_e_le & [ STEM < "differ" >, SYNSEM [ LKEYS [ --COMPKEY _from_p_sel_rel, KEYREL.PRED "_differ_v_from_rel" ], PHON.ONSET con ] ]. differ_v2 := v_-_le & [ STEM < "differ" >, SYNSEM [ LKEYS.KEYREL.PRED "_differ_v_1_rel", PHON.ONSET con ] ]. difference_n1 := n_-_mc_le & [ STEM < "difference" >, SYNSEM [ LKEYS.KEYREL.PRED "_difference_n_1_rel", PHON.ONSET con ] ]. different_a1 := aj_pp_i-cmp-dif_le & [ STEM < "different" >, SYNSEM [ LKEYS [ --COMPKEY than_or_from_rel, KEYREL.PRED "_different_a_than-from_rel" ], PHON.ONSET con ] ]. differential_n1 := n_-_c_le & [ STEM < "differential" >, SYNSEM [ LKEYS.KEYREL.PRED "_differential_n_1_rel", PHON.ONSET con ] ]. differentiate_from_v1 := v_np-pp_e_le & [ STEM < "differentiate" >, SYNSEM [ LKEYS [ --OCOMPKEY _from_p_sel_rel, KEYREL.PRED "_differentiate_v_from_rel" ], PHON.ONSET con ] ]. differentiate_v1 := v_np*_le & [ STEM < "differentiate" >, SYNSEM [ LKEYS.KEYREL.PRED "_differentiate_v_1_rel", PHON.ONSET con ] ]. differentiation_n1 := n_pp_mc-of_le & [ STEM < "differentiation" >, SYNSEM [ LKEYS.KEYREL.PRED "_differentiation_n_of_rel", PHON.ONSET con ] ]. differently := av_-_i-vp-po_le & [ STEM < "differently" >, SYNSEM [ LKEYS.KEYREL.PRED "_different_a_than-from_rel", PHON.ONSET con ] ]. difficult_a1 := aj_pp_i_le & [ STEM < "difficult" >, SYNSEM [ LKEYS [ --COMPKEY _for_p_sel_rel, KEYREL.PRED "_difficult_a_for_rel" ], PHON.ONSET con ] ]. difficult_a2 := aj_pp-vp_i-it_le & [ STEM < "difficult" >, SYNSEM [ LKEYS.KEYREL.PRE